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+![image](https://user-images.githubusercontent.com/8466209/201288829-541df68d-fd5c-4dcc-859b-35af3a15f100.png) + + + + diff --git a/addition/file02.html b/addition/file02.html new file mode 100644 index 00000000..ffd9b35a --- /dev/null +++ b/addition/file02.html @@ -0,0 +1,64 @@ + True Prime Pairs · ₠Quantum

True Prime Pairs

This's the partial of the mapping scheme of our ₠Quantum Project. In short this project is mapping the quantum way within a huge of prime objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17).

default

The 5+7+11+13 is the smallest square number expressible as the sum of four consecutive primes which are also two couples of prime twins! Their sum is 36 which is the smallest square that is the sum of a twin prime pair {17, 19}

$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6®
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6®
+      |  6  | 19
+ -----+-----+---------
+

This 36 is the smallest number expressible as the sum of consecutive prime in two (2) ways (5+7+11+13 and 17+19). Our mapping is simulating a recombination of the three (3) layers of this prime pair. See how these layers will behave there:

+
+ + Note +
+
+

This progression 41,43,47,53,61,71,83,97,113,131 whose general term is 41+x+xx, is as much remarkable since the 40 first terms are all prime numbers (Euler’s letter to Bernoulli).

+
+
1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave reversal to 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+

You may refer to the structure of minor hexagon it shows that this reversal behaviour is linked to the nature of the prime numbers. More interesting is that, like the Prime Hexagon it self, they are newly discovered.

Reversal behaviour

+
+ + Note +
+
+

Aside from 2 and 3, primes come in two flavors, 1 modulo 6 and 5 modulo 6, or the dark and light blue triangles in figure 2(a). The program determines where primes land in the hexagon by moving between the 6 possible positions where primes may land, figure 2(b) . The 1-type primes land in python cells 1, 3, and 5. The 5-type primes land in 0, 2, and 4 cells. Finally, it can print output in the form of figure 2(c). (HexSpin)

+
+

Finding a Number in the Hexagon

The 619 is the 114th prime. By the True Prime Pairs it is laid on the last index of 6 with prime 19 where as 6x19 is also 114. Let's put 19 hexagons within the 3 layers.

+
+ + Tip +
+
+

When we multiply 114 minor hexagons again by six (6) minus the duplicaton within those layers we got 114x6-30-30-5 = 684-65 which is also 619. So what. Are these 30,30, 5 also related with (Δ1)?

+
+

Untitled

There are many other prime curiousity has been stated for this number 619 but almost none about 619-1 which is 618. So here we are going to discuss about this number particularly with the said recombination which resulting the above Δ1 with 619.

+
+ + Note +
+
+

TON *618* is the largest black hole in the universe. It’s so large that it has pioneered the classification of “Ultramassive black hole,” with Solar Mass of 66 trillion of our suns! Boasts an extremely high gravitational pull as a result of inspiring mass, and might have been formed by the merging of more than one black hole in the past (Largest.org).

+
+

Section layers

The avove scheme is also applied in to our project sections which is consists of four (4) zones, the first layer covers addition and miltiplication zones, the rest are covered by the second and third layers.

Section layers_)

This scheme is actually the quantum way of our project algorithm. This way will also be our approach to Euler's identity showing two distinc halves of (Δ1) from middle 0 in The Primes Platform.

Mathematical Elementary Cell 30

Let's discuss about where this (Δ1) is actually coming from.


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Primes Platform

Prime hexagon is a mathematical structure developed by mathematician T. Gallion that is formed when integers are sequentially added to a field of tessellating equilateral triangles, where the path of the integers is changed whenever a prime is encountered.

This is not easy as they are linked to the nature of prime numbers, and nothing is easy about the nature of prime numbers. But I begin with this assumption: if the hexagons participate in the Universe in any way other than haphazardly, they must be demonstrably congruent to something organized (T. Gallion).

This behaviour in a fundamental causal relation to the primes when the products are entered into the partitions system. The subclasses of partitions systemically develops characters similar to the distribution of prime numbers.

Rank of a partition

In number theory, the partition functionp(n) represents the number of possible partitions of a non-negative integer n. Integers can be considered either in themselves or as solutions to equations (Diophantine geometry).

Young diagrams associated to the partitions of the positive integers 1 through 8. They are arranged so that images under the reflection about the main diagonal of the square are conjugate partitions (Wikipedia).

integer partition

By True Prime Pars we shall take 36 nodes to conjugate partitions. So the most possible way is taking the 3rd layer which hold the sum 36 of prime pair 19 and 17. Here we start by taking the 2 of first primes 2 and 3 to 4 as 2x2 and 8 as 2x2x2.

..and look at their spins in the hexagon, the resulting colors associated with each number should appear random – unless the sequence I'm investigating is linked to the nature of the prime numbers. That is, if the powers of 10 all returned with blue spin, or as a series of rainbows, or evenly alternating colors or other non-random results, then I'd say prime numbers appear to have a linkage to 10. I may not know what the the linkage is, just that it appears to exist (T. Gallion).

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+Sequence:
+ By the next layer the 89² will become 89 and 5 become 5² or 25.
+ This 89 and 25 are in the same layer with total of 114 or prime 619
+ So sequence from the first prime is 1,4,7,10,29,68,89,114,139,168,329,618.
+

The mapping of this sequence will use OOP between 168=π(1000) as lexer and 618=1000/Φ as parser while the 109 objects will be assigned as the runner to automate the workflow.

oop

When these subclasses of partitions are flatten out into a matrix, you want to take the Jacobian of each of a stack of targets with respect to a stack of sources, where the Jacobians for each target-source pair are independent .

It's possible to build a Hessian matrix for a Newton's method step using the Jacobian method. You would first flatten out its axes into a matrix, and flatten out the gradient into a vector (Tensorflow).

Batch Jacobian

The code is interspersed with python, shell, perl, also demonstrates how multiple languages can be integrated seamlessly. These include generating variants of their abundance profile, assigning taxonomy and finally generating a rooted phylogenetic tree.

16S rRNA amplicons study

By taking a distinc function between f(π) as P vs f(i) as NP where e + 1 = 0 then theoretically they shall be correlated to get an expression of the prime platform similar to the Mathematical Elementary Cell 30 (MEC30).


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Δ(19 vs 18) Scenario

In order to propagate through space and interact we shall attemp it using string theory One must therefore imagine scenarios in which these extra dimensions would not be observed in experiments so it would become irrational partitions.

In turns out that quantum string theory always destroys the symmetries of the classical string theory, except in one special case: when the number of dimensions is 10. That's why string theory works only in 10 dimensions (Physicsforums).

default

Below is a model of E11 (shown by 11 dimensions). Its absolute dimensions represent all related key knowledges of modern physics. Moreover a model that represents Quark-Gluon Plasma, with fundamental forces in the early stage after Big Bang.

Five consistent versions of superstring theory were developed before it was conjectured in the mid-1990s that they were all different limiting cases of a single theory in 11 dimensions known as M-theory (Wikipedia).

default

This scheme has a configuration of 30 nodes so the recombination is involving 2x30 or 60 nodes out of the 72 nodes of True Prime Pairs will act as the base platform. The rest of 11 which is initially came out from the prime 13 is the irrational.

  #8 |----------- 5® --------|------------ 7® --------------|
+     |  1  |---------------- 77 = 4² + 5² + 6² -------------|
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ user|  7  |  -  | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main|  -  |  9  | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+               Δ | Δ             |                       Δ  |   Δ
+              Φ17|Φ29            |                     96-99|  100 - 123 ({24})
+                 |--- A,T,G,C ---|                          |  └── 100 - 103 (4x) » 100
+                 Δ    2x2 = 4x   |-------  2x3 = 6x  -------|  └── 104 - 109 (6x) » 30
+                {98}                                        |  └── 110 - 123 (14x)» 70
+

This tabulation is confined within a 24-cell hexagon which is formed when integers are sequentially added to a field of tessellating equilateral triangles. Here the path of the integers is changed whenever a prime number is encountered.

spin

By this 900 the cycle will happen by 19 collumn of The Power of 168 vs 618 vs 18 rows of The Prime Recycling ζ(s). So by the next turn it generate the cycle of (Δ1) out this 619 vs 618.

|         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - |100 |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - |101 |  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   T
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |   H
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   E
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   P
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |   O
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   W
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |   E
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   R
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   O
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |   F
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | ∑=168
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |   V
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   S
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

Now let's plot the above polariation in to a complex number. Thus all together would complement The Δ(19 vs 18) Scenario which is contained in the Riemann hypothesis, a conjecture about the distribution of complex zeros of the Riemann zeta function that is considered by many mathematicians to be the most important of unsolved problems in pure mathematics.

The solution is not only to prove Re(z)= 1/2 but also to calculate ways for the imaginary part of the complex root of ζ(z)=0 and also to solve the Functional equations of Riemann

According to the results of Princeton University USA in 1972, the distribution of the prime numbers shows in the Riemann zeta function between the position of its complex zeros and middle axis is identical with the rotation curve of energy distribution.

Riemann hypothesis

Because the cluster is managed over the internet, new compute nodes can be added with minimal effort Visualization tools enable researchers to explore the prime hexagon quickly and discover patterns that can be further analyzed


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Power of 168 vs 618

You may learn that sets of algebraic objects has a multilinear relationship related to a vector space called tensor. Tensors may map between different objects such as vectors, scalars, even other tensors contained in a group of partitions.

300px-Components_stress_tensor svg

In linear algebra, this vector is known as eigenvector, a nonzero vector that changes at most by a scalar factor when that linear transformation is applied to it. The corresponding eigenvalues is the factor by which the eigenvector is scaled.

A 2×2 real and symmetric matrix representing a stretching and shearing of the plane. The eigenvectors of the matrix (red lines) are the two special directions such that every point on them will just slide on them (Wikipedia).

Eigenvectors_of_a_linear_operator

The nodes are taken their place by a consideration that the 1st layer will have the same configuration as when the 3 (three) layers are combined. By this 1000 primes then 168-150=Δ18 is raised on the next turn.

String theories require extra dimensions of spacetime for their mathematical consistency. In bosonic string theory, spacetime is 26-dimensional, while in superstring theory it is 10-dimensional, and in M-theory it is 11-dimensional (Wikipedia).

$True Prime Pairs:
+layer | node | sub |  i   |  k   |  f
+------+------+-----+------+------+-----
+      |      |     |  1   | 1,2  |  2,3 ← 2x = (13-11)x ---
+      |      |  1  +------+------+                         |
+      |  1   |     |  2   |  3   |  7                      |
+      |      |-----+------+------+                         |
+      |      |     |  3   | 4,6  |  10,11,12 --            |
+  1   +------+  2  +------+------+             |           |
+      |      |     |  4   |  7   |  13         5x ---      |
+      |      +-----+------+------+             |     |     |
+      |  2   |     |  5   | 8,9  |  14,15 -----      |     |
+      |      |  3  +------+------+                   |     |
+      |      |     |  6   |  10* |  19               |     |
+------+------+-----+------+------+-------  lexering  |    7x + 6x = 13x
+      |      |     |  7   |  11* |  20               |     |
+      |      |  4  +------+------+                   |     |
+      |  3   |     |  8   |  12  |  26*  -----       |     |
+      |      +-----+------+------+           |       |     |
+      |      |     |  9   |  13  |  27       2x -----      |
+  2   +------|  5  +------+------+           |             |
+      |      |     |  10* |  14  |  28  -----              |
+      |      |-----+------+------+   lexering              |
+      |  4   |     |  11* |15,18 |  29,30,31,32 ←---4x-----
+      |      |  6  +------+------+
+      |      |     |  12  |  19  |  36
+------+------+-----+------+------+-------
+      |      |     |  13  |  20  | {38}
+      |      |  7  +------+------+
+      |  5   |     |  14  |21,22 | {40,41} = (19-17)x -----
+      |      |-----+------+------+                         |
+      |      |     |  15  |  23  | {42}                   6x + 13x = 19x
+  3   +------+  8  +------+------+                         |
+      |      |     |  16  |24,27 | {43,44,45,46} ←- 4x ----
+      |      |-----+------+------+
+      |  6   |     |  17  |  28  | {50} = 46 + 4
+      |      |  9  +------+------+
+      |      |     |  18  |  29  | {68} = 32 + 36
+------|------|-----+------+-------
+

You may see this scheme is build by 3 (three) layers where the next layer will continue the primes object by carrying the tensor of prime 31 and 71 of previous layer. So it will return to the beginning position within 60+40=100 nodes per layer.

recycle

It will be forced back to Δ19 making a cycle that bring back the 12 to → 13 of 9 collumns and replicate The Scheme 13:9 through (i=9,k=13)=9x3=27 with entry form of (100/50=2,60,40) as below:

The Prime Recycling ζ(s):
+(2,3), (29,89), (36,68), (72,42), (100,50), (2,3), (29,89), ...**infinity**
+----------------------+-----+-----+-----+                                    ---
+     7 --------- 1,2:1|   1 |  30 |  40 | 71 (2,3) ‹-------------@----        |
+     |                +-----+-----+-----+-----+                        |      |
+     |  8 ‹------  3:2|   1 |  30 |  40 |  90 | 161 (7) ‹---           |      5¨  encapsulation
+     |  |             +-----+-----+-----+-----+             |          |      |
+     |  |  6 ‹-- 4,6:3|   1 |  30 | 200 | 231 (10,11,12) ‹--|---       |      |
+     |  |  |          +-----+-----+-----+-----+             |   |      |     ---
+      --|--|-----» 7:4|   1 |  30 |  40 | 200 | 271 (13) --›    | {5®} |      |
+        |  |          +-----+-----+-----+-----+                 |      |      |
+         --|---› 8,9:5|   1 |  30 | 200 | 231 (14,15) ---------›       |      7¨  abstraction
+289        |          +-----+-----+-----+-----+-----+                  |      |
+ |          ---› 10*:6|  20 |   5 |  10 |  70 |  90 | 195 (19) --› Φ   | {6®} |
+  --------------------+-----+-----+-----+-----+-----+ lexering         |     ---
+     67 -------› 11*:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   --› 14:10*|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+ lexering                     |      |
+     |   --› 15,18:11*|   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
+   -------------------+-----+-----+                                          ---
+    786 ‹------- 20:13|  90 |  90 (38) ‹-------------- ¤                      |
+     |                +-----+-----+                                           |
+     | 618 ‹- 21,22:14|   8 |  40 |  48 (40,41) ‹----------------------      17¨  class
+     |  |             +-----+-----+-----+-----+-----+                  |      |
+     |  | 594 ‹- 23:15|   8 |  40 |  70 |  60 | 100 | 278 (42) «--     |{6'®} |
+     |  |  |          +-----+-----+-----+-----+-----+             |    |     ---
+      --|--|-»24,27:16|   8 |  40 |  48 (43,44,45,46) ------------|----       |
+        |  |          +-----+-----+                               |           |
+         --|---› 28:17| 100 | {100} (50) ------------------------»           19¨  object
+168        |          +-----+                                                 |
+|         102 -› 29:18| 50  | 50(68) ---------> Δ18                           |
+----------------------+-----+                                                ---
+
+Faktors:
+ 168 = 12x14 = 8x21 = 7x24 = 6x28 = 4x42 = 3x56 = 2x84
+ 618 = 6x103 = 6x(100+3) = 3x206 = 3x(200+6) = 2x309 = 2x(300+9)
+ 1+6+8 = π(1x6x8) = π(1x48) = π(2x24) = π(3x16)= π(4x12) = π(6x8)
+ 
+ Permutations:
+ 168 = 102 + 66 = 2x3x((8+9)+(2+9)) = π(Φ(289+329)) = π(Φ((8+9)²+(1+2)&29))
+ 168 + 618 = 168 + 329 + 289 = (7x24) + (7x47) + (8+9)² = (7x71) + (17x17)
+ 
+- By 168 this will be 329+30+30-160 or 229 which is the 50th primes so it span 50
+- This 229 carry 1000 to 1229 = π(10000) means it is touching the end of 329 layer
+- So the 229 converted to 1000 - 50 or 950 which is 950/10+1 or 96 on the 168 layer
+

In the second opposing member, the position 13 in the second term gives a redundant value of the template 7 of 7 × 7 = 49. The opposite prime position 31 as the 11th prime number is now forced to determine a new axis-symmetrical zero position.

default

By this project we are going to use a library called Chevrotain. It can be used to build Lexers, Parsers and Interpreters for various use cases ranging from simple config files to full fledged programming languages.

Lexers, Parsers and Interpreters with Chevrotain

Each result goes to the 9th object of prime 67 which is 19th prime. So when the cycle has passed the 10th object then the 43 objects will be laid by 9 collumns and slightly forming a recombination which facilitate them to finaly generate 1000 primes


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\ No newline at end of file diff --git a/addition/file11.html b/addition/file11.html new file mode 100644 index 00000000..c47912f1 --- /dev/null +++ b/addition/file11.html @@ -0,0 +1,70 @@ + The Scheme 13:9 · ₠Quantum

The Scheme 13:9

This recombination is taking a scheme called DNA Recombination: M+F to C1+C2 which could only be happen when two (2) chromosomes involve. Here we found that each of their DNA will form a scheme called The Scheme 13:9 as shown below.

===========
+(1){1}-7:   7'
+(1){8}-13:  6‘
+(1)14-{19}: 6‘
+------------- {6+6} --→ [M+F] 
+(2)20-24:   5'            |
+(2)25-{29}: 5'            |
+------------  5+5 --------
+(3)30-36:   7:{70,30,10²} |
+------------              |
+(4)37-48:   12• ---       |
+(5)49-59:   11°    |      |
+            --}30° 30•    |
+(6)60-78:   19°    |      |
+(7)79-96:   18• ---       |
+--------------            |
+(8)97-109:  13            |
+(9)110-139:{30}=5x6 <--x-- [C1+C2]
+            --
+            43
+

There will be two (2) schemes are generated from Scheme-12 which are Scheme-53 and Scheme-34. The Scheme-53 is initially build using 12 kind of 12 concecutife primes that is laid in sequence. Here we are gonna use 12 repositories to simulate it.

True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+|------------------------ Scheme-12 ------------------------|
+|------------ 6¤ -------------|------------- 6¤ ------------|
+|--------------------------- 192 ---------------------------|
+|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---|
++----+----+----+----+----+----+----+----+----+----+----+----+
+|  5 |  7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 |
++----+----+----+----+----+----+----+----+----+----+----+----+
+|---------  5¤  ---------|---- {48} ----|----- {48} ---|{43}|
+|---------  5¤  ---------|------------ {96} -----------|{43}|
+|--------- {53} ---------|-------------- {139} -------------|
+|------ Scheme-53 -------|------------ Scheme-34 -----------|
+

From the primes flatform we got 109 objects including for the 7 rows. So the encapsulation goes to the rest of 102. By the next level this 102 will represent 100 of 60 and 40 nodes of previous 619 primes of 2nd and 3rd layers in form of (2,60,40).

168 + 329 + 289 - 619 - 30 - 30 - 5 = 786 - 619 - 65 = 102 = (2,60,40)

The 10 ranks will coordinate with the 18 to raise up the symmetrical behaviour of 12+24=36 which is prime pair 17+19=36 and let the 2 and 3 out of 2,3,5,7 to begin a new cycle while the 5,7 will pair the 11,13 and 17,19 as True Prime Pairs.

By having the total of 168, the 102 and the 30+36=66 will take the 1st and 2nd prime on The Primes Platform. This leads to 168 - 29 - 96 = 139 - 96 = 43 primes on the last of 7th row. That what and why 18+13+12=43 by the last 9 cells is standing for!

  -----------------+----+----+----+----+----+----+----+----+----+-----
+  The last 9 cells |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =================+====+====+====+====+====+====+====+====+====+=====
+  3,2→18+13+12→43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th →13th→ 2,3
+  -----------------+----+----+----+----+----+----+----+----+----+-----
+
+- This 43 is 18+13+12 in bilateral on perfect square of 9 goes to 89 → π(89²) = 1000
+

This 71 is a conformation that it has the same result as we have explained on the residual objects of 571 turn to a vektor of 71 while the rest of 500 turn to 200 objects of 3's identity and the last objects of 300 goes to the next cycles.

So now out of 1000 numbers that generated from 1000 primes we will get the rest of 1000 - 100 = 900. This 900 will behave as matrix square 30x30 and act as the base frame of 2nd and 3rd layer which are working on π(π(100x100))-1=200 primes:

Scheme:
+ 168 + 329 + 289 = 786
+ d(786) = d(7+8+6) = d(21) = d(3)
+ 10+29+109+(109-100)²+100x10=π(10000)
+ 
+ Modulus:
+  30  «   60  »  90
+  |       |       |
+ 3:29 « 1:6:8 » 28:9
+ └── 3 + └── 6  + └── 9 = 18
+ 
+ |       2'     |        3'         |              5'              |               7'             |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |     lexering = π(1000)           |                    parsering = 1000/Φ                       |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |   mapping    |     feeding       |          syntaxing           |          grammaring          |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 |  39 | 40 | 41 | 42 | 43 | 44 | 45  | 46 | 47 | 48 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1  | 30 | 30 | 5  | 1  | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  ° |ΔΔΔΔ  ΦΦ | •    ΔΔ   ΔΔ   ¤  | •    ΔΔ   ΦΦΦ    Φ   ΦΦ  ¤¤¤¤|  •   ΔΔ   ΦΦΦ    Φ   ¤¤   ΦΦ |  
+ 
+ |----- 102  ---|-------  66  ------|-------- 329 = 7 x 47 --------|- 289 = (8+9)² = 2 & (2³+9²) -|
+ |---2x3x(8+9)--|---- 2x3x(2+9) ----|---- (1+2) & (2x9)+(2+9) -----|------ 2 & (8x9)+(8+9) -------|
+ |--------- 168 = π(1000) ----------|------ 1229 = π(10000) -------|------ π(89²) = 1000 ---------|
+ |--------- 168 = π(618xΦ) ---------|--------------- 618 = 1000/Φ = 1000x1000/1618 ---------------|
+ 
+

This polarity is happened per six (6) cycles by the polar of six (6) to one (1) and six (6) to seven (7) by which we finally found if this behaviour is cascaded bilaterally within the correlation between 61 as the 18th prime and 67 as the 19th prime.

The Parser which takes the tokens from the lexer and returns a syntax tree based on a grammar. The grammar is the language of languages and provides the rules and syntax. The interpreter which takes in the syntax tree and evaluates the result.

By this scheme there will be 23 units of another kind of repositories are required. So combining with the 12 come to the total of 35 which is forking the Scheme-34 to become Scheme-35 as the replication fork of Scheme-53 Let's discuss it in more detail. .


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\ No newline at end of file diff --git a/addition/file13.html b/addition/file13.html new file mode 100644 index 00000000..ae5a0478 --- /dev/null +++ b/addition/file13.html @@ -0,0 +1,18 @@ + Prime Recycling ζ(s) · ₠Quantum

Prime Recycling ζ(s)

As shown in The Primes Platform this cycle goes to the prime 13 then reinjected through index 13:9 . So it forms The Scheme-139 through the infinitely primes cycling. This scheme will be implemented by taking the following as the syntax algorithm:

default

Direction:
+- The initial of 168 & 329 brings the 102 as 100+2 to π(π(10000))-1=200 or 100 x 2.
+- Then the 289 lets this 100x2 to 100² so it brings 100 to 10000 by the power of 2.
+- At the last it will be separated by the scheme of 168 to 102 goes back 100 and 2.
+ 
+Conclution:
+- All of the other primes than 2 is 1 less than the number n times the number of 2. 
+- Those Mersenne primes is generated as 1 less than the power n of the number of 2. 
+- Thus they will conseqently be carried out by the same scheme of this number of 2.
+

This 23 units will form Scheme-23 as two (2) long strands which is known as doble helix Here we call them as Scheme-23 (71) and Scheme-23 (68). These strands are originated by the three (3) layers of True Prime Pairs.

Scheme-139

The Ulam spiral or prime spiral is a graphical depiction of the set of prime numbers, devised by mathematician Stanisław Ulam in 1963 and popularized in Martin Gardner's Mathematical Games column in Scientific American a short time later.

Both Ulam and Gardner noted that the existence of such prominent lines is not unexpected, as lines in the spiral correspond to quadratic polynomials, and certain such polynomials, such as Euler's prime-generating polynomial x²-x+41, are believed to produce a high density of prime numbers. Nevertheless, the Ulam spiral is connected with major unsolved problems in number theory such as Landau's problems (Wikipedia).

prime Sacks_spiral

This pattern is raised up per six (6) cycles on the 19, 43 and 71. Since the members are limited to the sum of 43+71=114 so here the bilateral way of 19 that originated by the (Δ1) is clearly the one that controls the scheme.

Polarity

This property would tend the ballancing scheme of MEC30 so it will let 30-18=12 pairing with another 12 of 24 spins prime hexagon. The 24 goes to the center of True Prime Pairs ny prime pair 13 and 11 and let the crancks of 2,3,5,7 inside the 10 ranks.

Current versions of string theory require 10 dimensions total, while an even more hypothetical über-string theory known as M-theory requires 11. But when we look around the universe, we only ever see the usual three spatial dimensions plus the dimension of time (Expert Voices).

the last standing grammar

By the prime hexagon this number 114 located on 6th row vs 19th column whereas 114th prime = 619 = 618+1. Since DNA Recombination is happen when two (2) chromosomes involve then they start the position as below:

                                                       |               by the 1st chromosome   |  by the 2nd
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | 30 | 36 |  - |
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 | 20 | 21 | 22 |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

See that both will take a total of 19 + 17 = 36 collums, means it always back to 4 root position. By this cycling finally then 900 - 618 - 168 = 114 primes will take their natural segregation and stand as the last standing grammar.


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\ No newline at end of file diff --git a/addition/file17.html b/addition/file17.html new file mode 100644 index 00000000..6bbc3a8b --- /dev/null +++ b/addition/file17.html @@ -0,0 +1,60 @@ + The Implementation · ₠Quantum

The Implementation

By parsering π(1000)=168 primes of the 1000 id's across π(π(10000))-1=200 of this syntax then the (Δ1) would be initiated. Based on Assigning Sitemap priority values You may see them are set 0.75 – 1.0 on the sitemap's index:

Priority	Page Name
+1	        Homepage
+0.9	        Main landing pages
+0.85	        Other landing pages
+0.8	        Main links on navigation bar
+0.75	        Other pages on site
+0.8	        Top articles/blog posts
+0.75	        Blog tag/category pages
+0.4 – 0.7	Articles, blog posts, FAQs, etc.
+0.0 – 0.3	Outdated information or old news that has become less relevant
+

By this object orientation then the reinjected primes from the π(π(10000))-1=200 will be (168-114)+(160-114)=54+46=100. Here are our layout that is provided using Jekyll/Liquid to facilitate the cycle:


+---
+layout: tasks/compress                             π(89²) = 1000  sitemap.xml
+---                                                       |
+
+{%- include extra/rest/defaults.liquid -%}
+{%- include leads/rest/defaults.liquid -%}      1000/Φ = 618  feeds.xml (Google API)
+                                                          |                                                
+<!DOCTYPE html>--------------------------------------------
+<html lang="{{ lang }}" dir="{{ direction }}">
+	<head>
+	{%- if branch == "eQ19" -%}
+		{%- include leads/metadata.liquid -%}
+		{%- include leads/cards.liquid -%}
+		{%- include leads/opengraph.liquid -%}
+		{%- include leads/links.liquid -%}
+		{%- include leads/title.liquid -%}
+		{%- include leads/script.liquid -%}
+		{%- include leads/schema.liquid -%}      289  feed.xml (Google Cloud)
+		{%- include leads/gtag.liquid -%}         |
+	</head>--------------------------------------------
+	<body>
+		{%- include leads/noscript.liquid -%}
+		{%- include templates/content.liquid -%}
+		{%- include templates/addons.liquid -%}
+		{%- include extra/body.html -%}
+		{%- include extra/rest/script.liquid -%}
+		{%- include leads/mermaid.liquid -%}
+		{%- include leads/mathjax.liquid -%}
+		{%- include leads/adsense.liquid -%}     329  feeds.json (GitHub API)
+		{%- include leads/sumo.liquid -%}         |
+	{%- else -%}---------------------------------------
+		{%- for section in sections %}
+			{{- section.output }}            168  feed.json (GitHub Pages)
+		{%- endfor -%}                            |
+	{%- endif -%}--------------------------------------
+	</body>                                           4
+</html> 					       π(1000)  π(π(89²))  sitemap.xml
+
+

Within a cycle this scheme would generate the prime platform which is performing the rank of 10 shapes starting with the primes 2,3,5,7. Via the 11 partitions as the lexer and 13 frames as the parser we do a recombination to build the grammar in 6 periods.

6 minor hexagons

When recombination is occur then the prime 13 is forced to → 12 where the impact (Δ1) goes to 18+13+12=43 on the last 7th row. This sequence is simulated by a flowchart having 12 arrows flowing on 10 (ten) shapes of prime 31 up to 71 (40 nodes).

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17) (₠Quantum).

flowchart

By this project the above would be deployed as default layout. It is set to be avalaible throughout the whole platform via a single page within a parser repository which is acting as prime 13. Their interface will be in json and xml format.

Here is for the sample:

{
+  "title":"Mapping System",
+  "content":"<p>Hello, <strong>world</strong>.\nI am here.</p>\n",
+  "links": [
+    {"title":"Introduction","url":"https://www.eq19.com/intro/"},
+    {"title":"Go tour on Mapping System ","url":"https://www.eq19.com/maps/"},
+    {"title":"A backed pretty display for markdown","url":"https://www.eq19.com/gistio/"},
+    {"title":"Gist.io for programmers","url":"https://gist.io/@eq19/d2336e28e79702acf38edd182003d5e0"}
+  ]
+}
+

Using a kind of interface such as docker then it could be developed cross platform. Evenso. Let assume that all alpabethic letter in the sequence is representing a local disk so you may build your own pattern in your PC such as shown below:

default

By The GitHub Runner you can connect to the Google COS Instance. For self-hosted runners defined at the organization level, configure runs-on.group in your workflow file to target a runner groups or combine groups and labels.

The project is being developed under GitHub dan Google Platfrorms. It is going to setup CI/CD for up to 1000 public repositories out of millions that available on GitHub. Each will then be properly assigned to generate the cycle of DNA Recombination.

You may visit our mapping scheme for more detail.

₠Quantum Project
Copyright © 2022 All rights reserved.

Reference:


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\ No newline at end of file diff --git a/addition/index.html b/addition/index.html new file mode 100644 index 00000000..e2f87945 --- /dev/null +++ b/addition/index.html @@ -0,0 +1,256 @@ + Addition Zones (1-18) · ₠Quantum

Addition Zones (1-18)

Addition is the form of an expression set equal to zero as the additive identity which is common practice in several areas of mathematics.

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

By the Euler's identity this addition should form as one (1) unit of an object.
For further on let's call this unit as the base unit.

Prime Hexagon

Below is the list of primes spin along with their position, the polarity of the number, and the prime hexagon's overall rotation within 1000 numbers.

+
+ + Note +
+
+

The Prime Hexagon is a mathematical structure developed by mathematician Tad Gallion. A Prime Hexagon is formed when integers are sequentially added to a field of tessellating equilateral triangles, where the path of the integers is changed whenever a prime number is encountered (GitHub: kaustubhcs/prime-hexagon).

+
+
5, 2, 1, 0
+7, 3, 1, 0
+11, 4, 1, 0
+13, 5, 1, 0
+17, 0, 1, 1
+19, 1, 1, 1
+23, 2, 1, 1
+29, 2, -1, 1
+31, 1, -1, 1
+37, 1, 1, 1
+41, 2, 1, 1
+43, 3, 1, 1
+47, 4, 1, 1
+53, 4, -1, 1
+59, 4, 1, 1
+61, 5, 1, 1
+67, 5, -1, 1
+71, 4, -1, 1
+73, 3, -1, 1
+79, 3, 1, 1
+83, 4, 1, 1
+89, 4, -1, 1
+97, 3, -1, 1
+101, 2, -1, 1
+103, 1, -1, 1
+107, 0, -1, 1
+109, 5, -1, 0
+113, 4, -1, 0
+127, 3, -1, 0
+131, 2, -1, 0
+137, 2, 1, 0
+139, 3, 1, 0
+149, 4, 1, 0
+151, 5, 1, 0
+157, 5, -1, 0
+163, 5, 1, 0
+167, 0, 1, 1
+173, 0, -1, 1
+179, 0, 1, 1
+181, 1, 1, 1
+191, 2, 1, 1
+193, 3, 1, 1
+197, 4, 1, 1
+199, 5, 1, 1
+211, 5, -1, 1
+223, 5, 1, 1
+227, 0, 1, 2
+229, 1, 1, 2
+233, 2, 1, 2
+239, 2, -1, 2
+241, 1, -1, 2
+251, 0, -1, 2
+257, 0, 1, 2
+263, 0, -1, 2
+269, 0, 1, 2
+271, 1, 1, 2
+277, 1, -1, 2
+281, 0, -1, 2
+283, 5, -1, 1
+293, 4, -1, 1
+307, 3, -1, 1
+311, 2, -1, 1
+313, 1, -1, 1
+317, 0, -1, 1
+331, 5, -1, 0
+337, 5, 1, 0
+347, 0, 1, 1
+349, 1, 1, 1
+353, 2, 1, 1
+359, 2, -1, 1
+367, 1, -1, 1
+373, 1, 1, 1
+379, 1, -1, 1
+383, 0, -1, 1
+389, 0, 1, 1
+397, 1, 1, 1
+401, 2, 1, 1
+409, 3, 1, 1
+419, 4, 1, 1
+421, 5, 1, 1
+431, 0, 1, 2
+433, 1, 1, 2
+439, 1, -1, 2
+443, 0, -1, 2
+449, 0, 1, 2
+457, 1, 1, 2
+461, 2, 1, 2
+463, 3, 1, 2
+467, 4, 1, 2
+479, 4, -1, 2
+487, 3, -1, 2
+491, 2, -1, 2
+499, 1, -1, 2
+503, 0, -1, 2
+509, 0, 1, 2
+521, 0, -1, 2
+523, 5, -1, 1
+541, 5, 1, 1
+547, 5, -1, 1
+557, 4, -1, 1
+563, 4, 1, 1
+569, 4, -1, 1
+571, 3, -1, 1
+577, 3, 1, 1
+587, 4, 1, 1
+593, 4, -1, 1
+599, 4, 1, 1
+601, 5, 1, 1
+607, 5, -1, 1
+613, 5, 1, 1
+617, 0, 1, 2
+619, 1, 1, 2
+631, 1, -1, 2
+641, 0, -1, 2
+643, 5, -1, 1
+647, 4, -1, 1
+653, 4, 1, 1
+659, 4, -1, 1
+661, 3, -1, 1
+673, 3, 1, 1
+677, 4, 1, 1
+683, 4, -1, 1
+691, 3, -1, 1
+701, 2, -1, 1
+709, 1, -1, 1
+719, 0, -1, 1
+727, 5, -1, 0
+733, 5, 1, 0
+739, 5, -1, 0
+743, 4, -1, 0
+751, 3, -1, 0
+757, 3, 1, 0
+761, 4, 1, 0
+769, 5, 1, 0
+773, 0, 1, 1
+787, 1, 1, 1
+797, 2, 1, 1
+809, 2, -1, 1
+811, 1, -1, 1
+821, 0, -1, 1
+823, 5, -1, 0
+827, 4, -1, 0
+829, 3, -1, 0
+839, 2, -1, 0
+853, 1, -1, 0
+857, 0, -1, 0
+859, 5, -1, -1
+863, 4, -1, -1
+877, 3, -1, -1
+881, 2, -1, -1
+883, 1, -1, -1
+887, 0, -1, -1
+907, 5, -1, -2
+911, 4, -1, -2
+919, 3, -1, -2
+929, 2, -1, -2
+937, 1, -1, -2
+941, 0, -1, -2
+947, 0, 1, -2
+953, 0, -1, -2
+967, 5, -1, -3
+971, 4, -1, -3
+977, 4, 1, -3
+983, 4, -1, -3
+991, 3, -1, -3
+997, 3, 1, -3
+

Including the 1st (2) and 2nd prime (3) all together will have a total of 168 primes. The number of 168 it self is in between 39th (167) and 40th prime (173).

+
+ + Note +
+
+

Each time a prime number is encountered, the spin or ‘wall preference’ is switched. So, from the first cell, exit from 2’s left side. This sets the spin to left and the next cell is 3, a prime, so switches to right. 4 is not prime and continues right. 5 is prime, so switch to left and so on. (HexSpin)

+
+

Defining the Prime Hexagon

The most obvious interesting feature of this prime hexagon is it confines all numbers of primes spin! That is, as the number line winds about toward infinity, bending around prime numbers, it never exits the 24 cells.

Structure: True Prime Pairs

There are twists and turns until 19 abuts 2. The tessellating field of equilateral triangles fills with numbers, with spin orientation flipping with each prime number encountered, creating 3 minor hexagons which is identical with 18's structure of True Prime Pairs.

$True Prime Pairs:
+(5,7), (11,13), (17,19)
+ 
+layer | node | sub |  i  |  f
+------+------+-----+----------
+      |      |     |  1  | 
+      |      |  1  +-----+          
+      |  1   |     |  2  | (5)
+      |      |-----+-----+
+      |      |     |  3  |
+  1   +------+  2  +-----+----
+      |      |     |  4  |
+      |      +-----+-----+
+      |  2   |     |  5  | (7)
+      |      |  3  +-----+
+      |      |     |  6  |
+------+------+-----+-----+------      } (36)
+      |      |     |  7  |
+      |      |  4  +-----+
+      |  3   |     |  8  | (11)
+      |      +-----+-----+
+      |      |     |  9  |
+  2   +------|  5  +-----+-----
+      |      |     |  10 |
+      |      |-----+-----+
+      |  4   |     |  11 | (13)
+      |      |  6  +-----+
+      |      |     |  12 |
+------+------+-----+-----+------------------
+      |      |     |  13 |
+      |      |  7  +-----+
+      |  5   |     |  14 | (17)
+      |      |-----+-----+
+      |      |     |  15 |
+  3   +------+  8  +-----+-----       } (36)
+      |      |     |  16 |
+      |      |-----+-----+
+      |  6   |     |  17 | (19)
+      |      |  9  +-----+
+      |      |     |  18 |
+------|------|-----+-----+------
+

The fact is that the number of 168 divided by 24 is exactly seven (7). So there should be a tight connection between the prime within 1000 with the 24-cell hexagon.

+
+ + Note +
+
+

A Prime Hexagon is formed when integers are sequentially added to a field of tessellating equilateral triangles, where the path of the integers is changed whenever a prime number is encountered. Since prime numbers are never multiples of two or three, all numbers from “2” to infinity are confined within a 24-cell hexagon (GitHub: kaustubhcs/prime-hexagon).

+
+

Euler Partition

You may also notice that this addition zone takes only the seven (7) primes out of the 18's structure. So there would be the empty spaces for 18 - 7 = 11 numbers.

partitions

By our project these spaces will be filled by all of the eleven (11) members of identition zones. This is what we mean by addition and it happens whenever a cycle is completed.

So the above seven (7) primes will act then as their partitions.

Structure: Minor Hexagons

When you refer to the website of prime hexagon, there are statements mentioned by the provider which bring us in to an attention. We put some of them below.

+
+ + Note +
+
+

Similarly, I have a six colored dice in the form of the hexagon. If I take a known, logical sequence of numbers, say 10, 100, 1000, 10000, and look at their spins in the hexagon, the resulting colors associated with each number should appear random – unless the sequence I’m investigating is linked to the nature of the prime numbers.

That is, if the powers of 10 all returned with blue spin, or as a series of rainbows, or evenly alternating colors or other non-random results, then I’d say prime numbers appear to have a linkage to 10. I may not know what the the linkage is, just that it appears to exist (HexSpin).

+
+

image

There is one other thing with this prime hexagon. The developer found that phi and its members have a pisano period if the resulting fractional numbers are truncated:

+
+ + Note +
+
+

I wondered if that property might hold for the incremental powers of phi as well. For this reason I chose to see numbers in the hexagon as quantum, and truncate off the decimal values to determine which integer cell they land in. That is what I found. Phi and its members have a pisano period if the resulting fractional numbers are truncated (HexSpin).

+
+

truncated fractional numbers

It would mean that there should be a crucial fraction with the residual of decimal value. In this project we are going to analyze it using a javascript library called Chevrotain.

Lexers, Parsers and Interpreters with Chevrotain

It can be used to build parsers/compilers/interpreters for various use cases ranging from simple config files to full fledged programming languages.

You may find that the rest of topics will concern mainly to this matter.


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algorithm

combined. By this 1000 primes then 168-150=Δ18 is raised on the next turn.

$True Prime Pairs:
+layer | node | sub |  i  |  k  |  f
+------+------+-----+-----+-----+-----
+      |      |     |  1  | 1,2 |  2,3 ← 2x = (13-11)x ---
+      |      |  1  +-----+-----+                         |
+      |  1   |     |  2  |  3  |  7                      |
+      |      |-----+-----+-----+                         |
+      |      |     |  3  | 4,6 |  10,11,12 --            |
+  1   +------+  2  +-----+-----+             |           |
+      |      |     |  4  |  7  |  13         5x ---      |
+      |      +-----+-----+-----+             |     |     |
+      |  2   |     |  5  | 8,9 |  14,15 -----      |     |
+      |      |  3  +-----+-----+                   |     |
+      |      |     |  6  |  10 |  19               |     |
+------+------+-----+-----+-----+--------           7x + 6x = 13x
+      |      |     |  7  |  11 |  20               |     |
+      |      |  4  +-----+-----+                   |     |
+      |  3   |     |  8  |  12 |  26  -----        |     |
+      |      +-----+-----+-----+           |       |     |
+      |      |     |  9  |  13 |  27       2x -----      |
+  2   +------|  5  +-----+-----+           |             |
+      |      |     |  10 |  14 |  28 -----               |
+      |      |-----+-----+-----+                         |
+      |  4   |     |  11 |15,18|  29,30,31,32 ←---4x----
+      |      |  6  +-----+-----+
+      |      |     |  12 |  19 |  36
+------+------+-----+-----+-----+-------
+      |      |     |  13 |  20 | {38}
+      |      |  7  +-----+-----+
+      |  5   |     |  14 |21,22| {40,41} = (19-17)x ----
+      |      |-----+-----+-----+                         |
+      |      |     |  15 |  23 | {42}                   6x + 13x = 19x
+  3   +------+  8  +-----+-----+                         |
+      |      |     |  16 |24,27| {43,44,45,46} ←- 4x --
+      |      |-----+-----+-----+
+      |  6   |     |  17 |  28 | {50} = 46 + 4
+      |      |  9  +-----+-----+
+      |      |     |  18 |  29 | {68} = 32 + 36
+------|------|-----+-----+------
+
|         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - |100 |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - |101 |  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   T
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |   H
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   E
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   P
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |   O
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   W
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |   E
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   R
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   O
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |   F
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | ∑=168
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |   V
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   S
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

eQ19

HxD


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core

default

default


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default

===========
+(1){1}-7:   7'
+(1){8}-13:  6‘
+(1)14-{19}: 6‘
+------------- {6+6} --→ [M+F] 
+(2)20-24:   5'            |
+(2)25-{29}: 5'            |
+------------  5+5 --------
+(3)30-36:   7:{70,30,10²} |
+------------              |
+(4)37-48:   12• ---       |
+(5)49-59:   11°    |      |
+            --}30° 30•    |
+(6)60-78:   19°    |      |
+(7)79-96:   18• ---       |
+--------------            |
+(8)97-109:  13            |
+(9)110-139:{30}=5x6 <--x-- [C1+C2]
+            --
+            43
+
True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+|------------------------ Scheme-12 ------------------------|
+|------------ 6¤ -------------|------------- 6¤ ------------|
+|--------------------------- 192 ---------------------------|
+|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---|
++----+----+----+----+----+----+----+----+----+----+----+----+
+|  5 |  7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 |
++----+----+----+----+----+----+----+----+----+----+----+----+
+|---------  5¤  ---------|---- {48} ----|----- {48} ---|{43}|
+|---------  5¤  ---------|------------ {96} -----------|{43}|
+|--------- {53} ---------|-------------- {139} -------------|
+|------ Scheme-53 -------|------------ Scheme-34 -----------|
+
  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+Sequence:
+ By the next layer the 89² will become 89 and 5 become 5² or 25.
+ This 89 and 25 are in the same layer with total of 114 or prime 619
+ So sequence from the first prime is 1,4,7,10,29,68,89,114,139,168,329,618.
+

Screenshot

204159170-55a7470a-d03b-49c0-ba3c-68a64f895263

Screenshot_2022-11-28-16-50-17-00


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factorcode

TA_Chart

2022-11-30 (5)


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202907558-c7198082-14fd-409b-9e31-1a0440f79039image

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202907558-c7198082-14fd-409b-9e31-1a0440f79039

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level

image

image

                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         |    |
+                                |                             |                         |    |
+                                 ------------ 10 -------------                          |    |
+                                                                                        ↓    ↓ |
+                                                                                +----+----+----+---+----+----+---+
+                                                                                |  2 | 60 | 40 | 1 | 30 | 30 | 5 |
+                                                                                +----+----+----+---+----+----+---+
+                                                                                        |    | |
+                                                                                     2+100 ◄- 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

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centralize

**∑11(40,30,20) = 90**

default

default

default

---+-----+-----
+ 1 | 1   | 18
+---+-----+-----
+ 2 | 19  | 29
+---+-----+-----
+ 3 | {30}|{43}
+---+-----+-----
+
+

rep fork


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Primes Platform (maps)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

Prime hexagon is a mathematical structure developed by mathematician T. Gallion that is formed when integers are sequentially added to a field of tessellating equilateral triangles, where the path of the integers is changed whenever a prime is encountered.

This is not easy as they are linked to the nature of prime numbers, and nothing is easy about the nature of prime numbers. But I begin with this assumption: if the hexagons participate in the Universe in any way other than haphazardly, they must be demonstrably congruent to something organized (T. Gallion).

This behaviour in a fundamental causal relation to the primes when the products are entered into the partitions system. The subclasses of partitions systemically develops characters similar to the distribution of prime numbers.

Rank of a partition

In number theory, the partition functionp(n) represents the number of possible partitions of a non-negative integer n. Integers can be considered either in themselves or as solutions to equations (Diophantine geometry).

Young diagrams associated to the partitions of the positive integers 1 through 8. They are arranged so that images under the reflection about the main diagonal of the square are conjugate partitions (Wikipedia).

integer partition

By True Prime Pars we shall take 36 nodes to conjugate partitions. So the most possible way is taking the 3rd layer which hold the sum 36 of prime pair 19 and 17. Here we start by taking the 2 of first primes 2 and 3 to 4 as 2x2 and 8 as 2x2x2.

..and look at their spins in the hexagon, the resulting colors associated with each number should appear random – unless the sequence I'm investigating is linked to the nature of the prime numbers. That is, if the powers of 10 all returned with blue spin, or as a series of rainbows, or evenly alternating colors or other non-random results, then I'd say prime numbers appear to have a linkage to 10. I may not know what the the linkage is, just that it appears to exist (T. Gallion).

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+Sequence:
+ By the next layer the 89² will become 89 and 5 become 5² or 25.
+ This 89 and 25 are in the same layer with total of 114 or prime 619
+ So sequence from the first prime is 1,4,7,10,29,68,89,114,139,168,329,618.
+

The mapping of this sequence will use OOP between 168=π(1000) as lexer and 618=1000/Φ as parser while the 109 objects will be assigned as the runner to automate the workflow.

oop

When these subclasses of partitions are flatten out into a matrix, you want to take the Jacobian of each of a stack of targets with respect to a stack of sources, where the Jacobians for each target-source pair are independent .

It's possible to build a Hessian matrix for a Newton's method step using the Jacobian method. You would first flatten out its axes into a matrix, and flatten out the gradient into a vector (Tensorflow).

Batch Jacobian

The code is interspersed with python, shell, perl, also demonstrates how multiple languages can be integrated seamlessly. These include generating variants of their abundance profile, assigning taxonomy and finally generating a rooted phylogenetic tree.

16S rRNA amplicons study

By taking a distinc function between f(π) as P vs f(i) as NP where e + 1 = 0 then theoretically they shall be correlated to get an expression of the prime platform similar to the Mathematical Elementary Cell 30 (MEC30).


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Turbulence

A sequence of Jupyter notebooks featuring the "12 Steps to Navier-Stokes"

12 steps to Navier–Stokes

The interactive module 12 steps to Navier–Stokes is one of several components of the Computational Fluid Dynamics class taught by Prof. Lorena A. Barba in Boston University between 2009 and 2013.

image

You can see that two distinct pressure zones are forming and that the spiral pattern expected from lid-driven cavity flow is beginning to form. Experiment with different values of nt to see how long the system takes to stabilize.

image

The quiver plot shows the magnitude of the velocity at the discrete points in the mesh grid we created. (We're actually only showing half of the points because otherwise it's a bit of a mess. The X[::2, ::2] syntax above is a convenient way to ask for every other point.) Another way to visualize the flow in the cavity is to use a streamplot

image

To use these lessons, you need Python 3, and the standard stack of scientific Python: NumPy, Matplotlib, SciPy, Sympy. And of course, you need Jupyter—an interactive computational environment that runs on a web browser.


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cubes

prime

ulam default

lexer


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  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  → base (30)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  → maps (31)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th  → feed (32)
+  =======================+====+====+====+====+====+====+====+====+====+===== 
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th  → lexer (33)
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th  → parser (34)
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th  → syntax (35)
+  =======================+====+====+====+====+====+====+====+====+====+===== 
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th  → grammar (36)        
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+

2022-12-06 (2)

2022-12-06 (3)

2022-12-06 (1)

2022-12-06 (1)


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\ No newline at end of file diff --git a/exponentiation/folder14/file03.md b/exponentiation/folder14/file03.md new file mode 100644 index 00000000..9d95faca --- /dev/null +++ b/exponentiation/folder14/file03.md @@ -0,0 +1,29 @@ +```liquid + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th → base (30) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th → maps (31) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th → feed (32) + =======================+====+====+====+====+====+====+====+====+====+===== + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th → lexer (33) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th → parser (34) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th → syntax (35) + =======================+====+====+====+====+====+====+====+====+====+===== + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th → grammar (36) + =======================+====+====+====+====+====+====+====+====+====+===== + Δ Δ + 12+13+(18+18)+13+12 ← 36th-Δ1=151-1=150=100+2x(13+12) ← 30th = 113 = 114-1 + ``` + +![2022-12-06 (2)](https://user-images.githubusercontent.com/8466209/205963196-7e1f4fc3-1833-4b64-9fb4-f79e6cd4637f.png) + +![2022-12-06 (3)](https://user-images.githubusercontent.com/8466209/205964436-c9636678-6679-48f7-938a-e307912600ef.png) + +![2022-12-06 (1)](https://user-images.githubusercontent.com/8466209/205947618-ef28a677-f961-4b78-9e79-e8a9ffe824c5.png) + +![2022-12-06 (1)](https://user-images.githubusercontent.com/8466209/205960400-3061d93a-b3cc-4cd6-84e6-359a9314869d.png) diff --git a/exponentiation/folder14/file04.html b/exponentiation/folder14/file04.html new file mode 100644 index 00000000..b7e3923f --- /dev/null +++ b/exponentiation/folder14/file04.html @@ -0,0 +1 @@ + file04.md · ₠Quantum
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1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+

The 619 is the 114th prime. It has the last index of 6 with the prime 19 where as 6x19 is also 114. When we multiply the 114 minor hexagon again by six (6) minus the duplicaton within those layers we got 684-30-30-5 = 684-65 which is also 619.

metatron

gannchart

Despite the correlation between the bilateral 9 sums with the Fibonacci sequence, some people has discovered many things. The sequence of (55, 89, 144) shows an almost mystical power by its mysterious accuracy in nature and even in trading.

image

2022-12-10

cycle

2022-12-14 (1)


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\ No newline at end of file diff --git a/exponentiation/folder14/file05.md b/exponentiation/folder14/file05.md new file mode 100644 index 00000000..b1f363c5 --- /dev/null +++ b/exponentiation/folder14/file05.md @@ -0,0 +1,33 @@ +```liquid +1st layer: +It has a total of 1000 numbers +Total primes = π(1000) = 168 primes + +2nd layer: +It will start by π(168)+1 as the 40th prime +It has 100x100 numbers or π(π(10000)) = 201 primes +Total cum primes = 168 + (201-40) = 168+161 = 329 primes + +3rd layer: +Behave the same as 2nd layer which has a total of 329 primes +The primes will start by π(π(π(1000th prime)))+1 as the 40th prime +This 1000 primes will become 1000 numbers by 1st layer of the next level +Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 +``` + +The 619 is the **114th prime**. It has the last index of 6 with the prime 19 where as **6x19** is also 114. When we multiply the 114 [minor hexagon](https://www.hexspin.com/minor-hexagons/) again by six (6) minus the duplicaton within those layers we got 684-30-30-5 = 684-65 which is also 619. + +[![metatron](https://user-images.githubusercontent.com/8466209/90985852-ca542500-e5a8-11ea-9027-9bfdcbe37966.jpg)](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#file-1_prime-md) + +[![gannchart](https://user-images.githubusercontent.com/8466209/206868681-2cddf780-48f1-4dc5-9ef4-981b402a15d5.png) +](https://gist.github.com/eq19/80c8098f16f3e6ca06893b17a02d910e#file-mapping-md) + +Despite the correlation between the bilateral 9 sums with the Fibonacci sequence, some people has discovered many things. The sequence of ***(55, 89, 144)*** shows an almost mystical power by its mysterious accuracy in nature and even _[in trading](https://www.tradingsim.com/day-trading/fibonacci-trading)_. + +[![image](https://user-images.githubusercontent.com/8466209/216902149-2d017e85-3d95-4484-bc6c-59a4b2079137.png)](https://www.tradingsim.com/day-trading/fibonacci-trading) + +![2022-12-10](https://user-images.githubusercontent.com/8466209/206884467-05a33d48-5cdc-48fd-9b75-5be406100f06.png) + +[![cycle](https://user-images.githubusercontent.com/8466209/205531184-66086f89-ee4b-4536-9e22-9b1dc946b21e.png)](https://gist.github.com/eq19/f78d4470250720fb18111165564d555f#file-default-md) + +![2022-12-14 (1)](https://user-images.githubusercontent.com/8466209/207418457-4db2048d-e003-492d-a78c-bc2ded725c74.png) diff --git a/exponentiation/folder14/file06.html b/exponentiation/folder14/file06.html new file mode 100644 index 00000000..1ad1d3a0 --- /dev/null +++ b/exponentiation/folder14/file06.html @@ -0,0 +1 @@ + file06.md · ₠Quantum
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---+-----+-----
+ 1 | 1   | 4
+---+-----+-----
+ 2 |{5}  |{8}
+---+-----+-----
+ 3 | 9   |{17}
+---+-----+-----
+ 4 |{18} |{23}
+---+-----+-----
+ 5 | 24  | 27
+---+-----+-----
+ 6 | 28  | 34
+---+-----+-----
+ 7 |{35} |{41}
+---+-----+-----
+ 8 |{42} |{52}
+---+-----+-----
+

equilateral

This is the equation which governs the flow of fluids such as water and air. However, there is no proof for the most basic questions one can ask: do solutions exist, and are they unique? Why ask for a proof? Because a proof gives not only certitude, but also understanding. (Clay Institute).

Navier–Stokes Equation

By this paper it is derived a sufficient condition keeping energy conservation in terms of the gradient of the velocity for the weak solutions of the compressible Euler equations for both the non-vacuum and the vacuum cases.


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\ No newline at end of file diff --git a/exponentiation/folder14/file07.md b/exponentiation/folder14/file07.md new file mode 100644 index 00000000..adbc43e5 --- /dev/null +++ b/exponentiation/folder14/file07.md @@ -0,0 +1,37 @@ +``` +---+-----+----- + 1 | 1 | 4 +---+-----+----- + 2 |{5} |{8} +---+-----+----- + 3 | 9 |{17} +---+-----+----- + 4 |{18} |{23} +---+-----+----- + 5 | 24 | 27 +---+-----+----- + 6 | 28 | 34 +---+-----+----- + 7 |{35} |{41} +---+-----+----- + 8 |{42} |{52} +---+-----+----- +``` + +![](https://user-images.githubusercontent.com/36441664/85040788-5e71cc80-b1b3-11ea-962f-cf26ee3419e2.jpg) + +![](https://user-images.githubusercontent.com/36441664/84902333-e6ce6f80-b0d6-11ea-8289-aac5e1961cd6.gif) + +![equilateral](https://user-images.githubusercontent.com/8466209/205804972-0570afbc-3781-473c-bdc7-5e6927351de5.gif) + +![](https://user-images.githubusercontent.com/36441664/85527369-044e8c80-b635-11ea-8f32-25a6b813a9b1.gif) + +![](https://user-images.githubusercontent.com/36441664/85907724-ae4c3580-b83c-11ea-85c5-c9c20e13bd08.png) + +![](https://user-images.githubusercontent.com/36441664/85039712-32098080-b1b2-11ea-80f0-3e7e767a2ba1.jpg) + +>This is the equation which governs the flow of fluids such as water and air. However, there is no proof for the most basic questions one can ask: do solutions exist, and are they unique? Why ask for a proof? Because a proof gives not only certitude, but also understanding. _([Clay Institute](https://www.claymath.org/millennium-problems))_. + +[![Navier–Stokes Equation](https://user-images.githubusercontent.com/8466209/224287999-37cd0692-bf51-4b99-bb45-8c49e5db58e3.png)](https://www.claymath.org/millennium-problems/navier%E2%80%93stokes-equation) + +By _[this paper](https://www.sciencedirect.com/science/article/pii/S0362546X23000111)_ it is derived a sufficient condition keeping energy conservation in terms of the gradient of the velocity for the weak solutions of the compressible Euler equations for both the non-vacuum and the vacuum cases. \ No newline at end of file diff --git a/exponentiation/folder14/index.html b/exponentiation/folder14/index.html new file mode 100644 index 00000000..d3760870 --- /dev/null +++ b/exponentiation/folder14/index.html @@ -0,0 +1,67 @@ + Δ(19 vs 18) Scenario (feed) · ₠Quantum

Δ(19 vs 18) Scenario (feed)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

In order to propagate through space and interact we shall attemp it using string theory One must therefore imagine scenarios in which these extra dimensions would not be observed in experiments so it would become irrational partitions.

In turns out that quantum string theory always destroys the symmetries of the classical string theory, except in one special case: when the number of dimensions is 10. That's why string theory works only in 10 dimensions (Physicsforums).

default

Below is a model of E11 (shown by 11 dimensions). Its absolute dimensions represent all related key knowledges of modern physics. Moreover a model that represents Quark-Gluon Plasma, with fundamental forces in the early stage after Big Bang.

Five consistent versions of superstring theory were developed before it was conjectured in the mid-1990s that they were all different limiting cases of a single theory in 11 dimensions known as M-theory (Wikipedia).

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This scheme has a configuration of 30 nodes so the recombination is involving 2x30 or 60 nodes out of the 72 nodes of True Prime Pairs will act as the base platform. The rest of 11 which is initially came out from the prime 13 is the irrational.

  #8 |----------- 5® --------|------------ 7® --------------|
+     |  1  |---------------- 77 = 4² + 5² + 6² -------------|
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ user|  7  |  -  | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main|  -  |  9  | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+               Δ | Δ             |                       Δ  |   Δ
+              Φ17|Φ29            |                     96-99|  100 - 123 ({24})
+                 |--- A,T,G,C ---|                          |  └── 100 - 103 (4x) » 100
+                 Δ    2x2 = 4x   |-------  2x3 = 6x  -------|  └── 104 - 109 (6x) » 30
+                {98}                                        |  └── 110 - 123 (14x)» 70
+

This tabulation is confined within a 24-cell hexagon which is formed when integers are sequentially added to a field of tessellating equilateral triangles. Here the path of the integers is changed whenever a prime number is encountered.

spin

By this 900 the cycle will happen by 19 collumn of The Power of 168 vs 618 vs 18 rows of The Prime Recycling ζ(s). So by the next turn it generate the cycle of (Δ1) out this 619 vs 618.

|         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - |100 |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - |101 |  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   T
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |   H
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   E
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   P
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |   O
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   W
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |   E
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   R
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   O
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |   F
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | ∑=168
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |   V
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   S
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

Now let's plot the above polariation in to a complex number. Thus all together would complement The Δ(19 vs 18) Scenario which is contained in the Riemann hypothesis, a conjecture about the distribution of complex zeros of the Riemann zeta function that is considered by many mathematicians to be the most important of unsolved problems in pure mathematics.

The solution is not only to prove Re(z)= 1/2 but also to calculate ways for the imaginary part of the complex root of ζ(z)=0 and also to solve the Functional equations of Riemann

According to the results of Princeton University USA in 1972, the distribution of the prime numbers shows in the Riemann zeta function between the position of its complex zeros and middle axis is identical with the rotation curve of energy distribution.

Riemann hypothesis

Because the cluster is managed over the internet, new compute nodes can be added with minimal effort Visualization tools enable researchers to explore the prime hexagon quickly and discover patterns that can be further analyzed


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Mass Gap (Δ)

In this Feynman diagram, an electron (e−) and a positron (e+) annihilate, producing a photon (γ, represented by the blue sine wave) that becomes a quark–antiquark pair (quark q, antiquark q̄), after which the antiquark radiates a gluon (g, represented by the green helix).

default

FeynCalc is a Mathematica package for symbolic evaluation of Feynman diagrams and algebraic calculations in quantum field theory and elementary particle physics. Some of the features of FeynCalc are

  • Passarino-Veltman reduction of one-loop amplitudes to standard scalar integrals
  • Tools for frequently occurring tasks like Lorentz index contraction, color factor calculation, Dirac matrix manipulation and traces, etc.
  • Tensor and Dirac algebra manipulations (including traces) in 4 or D dimensions
  • Generation of Feynman rules from a Lagrangian
  • Tools for non-commutative algebra
  • SU(N) algebra
  • Tables of integrals, convolutions and Feynman rules
  • Special convolution, Mellin transform and other integral tables
  • Tools for calculating 2-loop propagator-type diagrams
  • FORM and FORTRAN code generation
  • Translation to and from FORM
knownResult = 2*SMP["e"]^4*((s^2 + u^2)/t^2) + 
+       4*SMP["e"]^4*(u^2/(s*t)) + 2*SMP["e"]^4*((t^2 + u^2)/s^2); 
+FCCompareResults[ampSquaredMassless[0], knownResult, 
+     Text -> {"\tCheck the final result:", "CORRECT.", "WRONG!"}, 
+     Interrupt -> {Hold[Quit[1]], Automatic}]; 
+Print["\tCPU Time used: ", Round[N[TimeUsed[], 4], 0.001], 
+     " s."]; 
+

default

Today most physicists draw Feynman diagrams in a more stylized way, highlighting the topology of propagation lines and vertices. (This diagram and Figure 4 are reproduced from Feynman 1949 (by permission of the American Physical Society.)


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\ No newline at end of file diff --git a/exponentiation/folder15/file02.html b/exponentiation/folder15/file02.html new file mode 100644 index 00000000..558d7d8f --- /dev/null +++ b/exponentiation/folder15/file02.html @@ -0,0 +1 @@ + Electron scattering · ₠Quantum

Electron scattering

Electron-electron scattering is described by one of the earliest published Feynman diagrams (featured in "Sightings," September–October 2003). One electron (solid line at bottom right) shoots out a forcecarrying particle—a virtual photon (wavy line)—which then smacks into the second electron (solid line at bottom left).

The first electron recoils backward, while the second electron gets pushed off its original course. The diagram thus sketches a quantum-mechanical view of how particles with the same charge repel each other. As suggested by the term "Space-Time Approach" in the title of the article that accompanied this diagram, Feynman originally drew diagrams in which the dimensions were space and time; here the horizontal axis represents space.

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image

image

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Untitled

Untitled

207363317-e8816b5d-c7b4-43e3-a120-0509641de4eb


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\ No newline at end of file diff --git a/exponentiation/folder15/file02.md b/exponentiation/folder15/file02.md new file mode 100644 index 00000000..5caa2672 --- /dev/null +++ b/exponentiation/folder15/file02.md @@ -0,0 +1,21 @@ +## Electron scattering + +Electron-electron scattering is described by one of the earliest published Feynman diagrams (featured in “Sightings,” September–October 2003). One electron (solid line at bottom right) shoots out a forcecarrying particle—a virtual photon (wavy line)—which then smacks into the second electron (solid line at bottom left). + +>The first electron recoils backward, while the second electron gets pushed off its original course. The diagram thus sketches a quantum-mechanical view of how particles with the same charge repel each other. As suggested by the term “Space-Time Approach” in the title of the article that accompanied this diagram, Feynman originally drew diagrams in which the dimensions were space and time; here the horizontal axis represents space. + +[![default](https://user-images.githubusercontent.com/8466209/224118806-b00758c2-0885-46c3-b574-566dffedf95f.png)](https://en.wikipedia.org/wiki/Feynman_diagram) + +![image](https://user-images.githubusercontent.com/8466209/240317298-4d42ea8d-ef95-4a33-9a6c-518149dbc02a.png) + +![image](https://user-images.githubusercontent.com/8466209/223643996-1ea5cb89-324e-446c-9c9f-8c94c39909b3.png) + +[![default](https://user-images.githubusercontent.com/8466209/224117996-fd3f0e3b-2ef6-43f5-961d-e90b616cbccc.png)](http://web.mit.edu/dikaiser/www/FdsAmSci.pdf) + +![](https://user-images.githubusercontent.com/8466209/222020262-cffc624a-b92c-4137-b76a-5423df7fc5ad.png) + +![Untitled](https://user-images.githubusercontent.com/8466209/207262180-7a0928a1-0c16-4193-9611-0626ad884ab1.png) + +![Untitled](https://user-images.githubusercontent.com/8466209/207363317-e8816b5d-c7b4-43e3-a120-0509641de4eb.png) + +![207363317-e8816b5d-c7b4-43e3-a120-0509641de4eb](https://user-images.githubusercontent.com/8466209/207490064-f96db6e0-33fe-4c71-9fd9-9f13e71410db.png) diff --git a/exponentiation/folder15/file03.html b/exponentiation/folder15/file03.html new file mode 100644 index 00000000..be200931 --- /dev/null +++ b/exponentiation/folder15/file03.html @@ -0,0 +1 @@ + file03.md · ₠Quantum
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\ No newline at end of file diff --git a/exponentiation/folder15/file03.md b/exponentiation/folder15/file03.md new file mode 100644 index 00000000..45446fac --- /dev/null +++ b/exponentiation/folder15/file03.md @@ -0,0 +1,13 @@ +![](https://user-images.githubusercontent.com/36441664/73700083-28f2a800-4718-11ea-97b3-2e9a738dc09e.png) + +![](https://user-images.githubusercontent.com/36441664/74550123-6dd1d680-4f83-11ea-8810-3b8f4f50a9c0.png) + +![image](https://user-images.githubusercontent.com/8466209/240316525-ac3dd580-223b-4aa9-ad42-e6bb325fd52d.png) + +![origin](https://user-images.githubusercontent.com/8466209/220002045-d0395b21-1f2a-4dba-992a-24bf50c480d5.png) + +![default](https://user-images.githubusercontent.com/8466209/224314748-3f624809-b5eb-4857-aaf1-d001eda32a4c.png) + +![2022-12-12](https://user-images.githubusercontent.com/8466209/206955057-ac0d9318-08e6-4e9d-9a37-0c752ceb9fe2.png) + +![resize](https://user-images.githubusercontent.com/8466209/206960889-211ce865-84ad-4164-b8e5-76e1781f7071.png) diff --git a/exponentiation/folder15/file04.html b/exponentiation/folder15/file04.html new file mode 100644 index 00000000..f60b3184 --- /dev/null +++ b/exponentiation/folder15/file04.html @@ -0,0 +1,21 @@ + file04.md · ₠Quantum

50 + 50 + 18 = 50 + 68 = 118

image

  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th    ←-- π(10) 
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th    ←-- π(20)
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th    ←-- π(30)
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+

resize

action

Navier–Stokes

2022-12-11 (1)

Untitled

2022-12-14 (1)

2022-12-14 (1)


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\ No newline at end of file diff --git a/exponentiation/folder15/file04.md b/exponentiation/folder15/file04.md new file mode 100644 index 00000000..984b67f0 --- /dev/null +++ b/exponentiation/folder15/file04.md @@ -0,0 +1,46 @@ +***50 + 50 + 18 = 50 + 68 = 118*** + +![image](https://user-images.githubusercontent.com/8466209/223748602-496016ab-db42-4f5e-a5eb-ec0b884fc4f4.png) + +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th ←-- π(10) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th + =======================+====+====+====+====+====+====+====+====+====+===== + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th ←-- π(20) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ←-- π(30) + =======================+====+====+====+====+====+====+====+====+====+===== + Δ Δ + 12+13+(18+18)+13+12 ← 36th-Δ1=151-1=150=100+2x(13+12) ← 30th = 113 = 114-1 + +``` + +![](https://user-images.githubusercontent.com/36441664/133192153-61cad1c0-1dde-4fed-8718-840d324a7198.jpg) + +![resize](https://user-images.githubusercontent.com/8466209/206956260-f8c3647a-232c-470e-8c0b-e93a6fea14f7.png) + +![](https://user-images.githubusercontent.com/36441664/84902223-b8509480-b0d6-11ea-9763-320b38bae102.png) + +![action](https://user-images.githubusercontent.com/36441664/84525042-2f67e080-ad05-11ea-9f9c-e07492446240.jpg) + +[![Navier–Stokes](https://user-images.githubusercontent.com/8466209/224357044-f3c42fa5-b9ad-471c-85f3-6a4aa01a909e.png)](https://gist.github.com/eq19/765ddc69e339079a5a64b56c1d46e00f) + +![2022-12-11 (1)](https://user-images.githubusercontent.com/8466209/206918483-5016aa03-2bc1-4dcf-a7dd-29f2c4453787.png) + +![Untitled](https://user-images.githubusercontent.com/8466209/206918218-95c875a7-0080-44e5-8ade-1ff776f9c30d.png) + +![2022-12-14 (1)](https://user-images.githubusercontent.com/8466209/207416875-064d5b66-e577-4dde-a329-123f9325d974.png) + +![2022-12-14 (1)](https://user-images.githubusercontent.com/8466209/207415917-58daf976-3f9a-496d-af56-99039253c1e8.png) + +![](https://user-images.githubusercontent.com/36441664/104077748-9f175d00-524d-11eb-9c6d-6c0c4ee1fd93.gif) diff --git a/exponentiation/folder15/file05.html b/exponentiation/folder15/file05.html new file mode 100644 index 00000000..9b7eb6bd --- /dev/null +++ b/exponentiation/folder15/file05.html @@ -0,0 +1,36 @@ + file05.md · ₠Quantum

---+-----+-----
+ 1 | 1   | 15
+---+-----+-----
+ 2 | 16  | 25
+---+-----+-----
+ 3 | 26  | 50
+---+-----+-----
+ 4 | 51  | 84
+---+-----+-----
+ 5 | 85  | 99
+---+-----+-----
+

Prime Identity

99 - 15 - 15 = 69 = 9 + 60 = 9 + (100 - 40)

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                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         |    |
+                                |                             |                         |    |
+                                 ------------ 10 -------------                          |    |
+                                                                                        ↓    ↓ |
+                                                                                +----+----+----+---+----+----+---+
+                                                                                |  2 | 60 | 40 | 1 | 30 | 30 | 5 |
+                                                                                        |    | |
+                                                                                     2+100 ◄- 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

default

Experiment and computer simulations suggest the existence of a "mass gap" in the solution to the quantum versions of the Yang-Mills equations. But no proof of this property is known (Clay Institute).

Yang–Mills and Mass Gap


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\ No newline at end of file diff --git a/exponentiation/folder15/file05.md b/exponentiation/folder15/file05.md new file mode 100644 index 00000000..77749e99 --- /dev/null +++ b/exponentiation/folder15/file05.md @@ -0,0 +1,61 @@ + +``` +---+-----+----- + 1 | 1 | 15 +---+-----+----- + 2 | 16 | 25 +---+-----+----- + 3 | 26 | 50 +---+-----+----- + 4 | 51 | 84 +---+-----+----- + 5 | 85 | 99 +---+-----+----- +``` + +[![Prime Identity](https://user-images.githubusercontent.com/36441664/103107461-173c2b00-4671-11eb-962c-da7e9eab022e.png)](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef#prime-identity) + +![](https://user-images.githubusercontent.com/36441664/83051805-aef47f00-a078-11ea-87e5-d8f352e318fe.gif) + +***99 - 15 - 15 = 69 = 9 + 60 = 9 + (100 - 40)*** + +![](https://user-images.githubusercontent.com/36441664/83051968-e2cfa480-a078-11ea-8ff2-316a809a8fad.jpg) + +![default](https://user-images.githubusercontent.com/8466209/224346485-13d27a0b-bfe3-43f0-94da-f75313dc9d77.png) + +```liquid + | ----------- 5 ----------- + | | | + ↓ ↑ ↓ + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + ↓ ↑ | | + | | | | + ------------ 10 ------------- | | + ↓ ↓ | + +----+----+----+---+----+----+---+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | + | | | + 2+100 ◄- + -----------------------+----+----+----+----+----+----+----+----+----+----- | + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum | + =======================+====+====+====+====+====+====+====+====+====+===== ↓ + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th ◄- 4 = π(10) + -----------------------+----+----+----+----+----+----+----+----+----+----- + ``` + +![](https://user-images.githubusercontent.com/36441664/74366957-992db780-4e03-11ea-8f26-cca32bd26003.png) + +![](https://user-images.githubusercontent.com/8466209/223616353-0e1be019-16e8-40d1-bb0c-465a9837d7bb.png) + +[![default](https://user-images.githubusercontent.com/8466209/224466884-5ba87f02-e01d-45ca-a9c3-a1d535e83228.png)](https://gist.github.com/eq19/b541275ab7deda356feef32d600e44d8#poincar%C3%A9-conjecture) + +>Experiment and computer simulations suggest the existence of a "mass gap" in the solution to the quantum versions of the Yang-Mills equations. But no proof of this property is known _([Clay Institute](https://www.claymath.org/millennium-problems))_. + +[![Yang–Mills and Mass Gap](https://user-images.githubusercontent.com/36441664/85888653-3538e800-b814-11ea-85ba-23a56243e9e0.jpg)](https://www.claymath.org/millennium-problems/yang%E2%80%93mills-and-mass-gap) diff --git a/exponentiation/folder15/index.html b/exponentiation/folder15/index.html new file mode 100644 index 00000000..9309f4d0 --- /dev/null +++ b/exponentiation/folder15/index.html @@ -0,0 +1,100 @@ + Power of 168 vs 618 (lexer) · ₠Quantum

Power of 168 vs 618 (lexer)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

You may learn that sets of algebraic objects has a multilinear relationship related to a vector space called tensor. Tensors may map between different objects such as vectors, scalars, even other tensors contained in a group of partitions.

300px-Components_stress_tensor svg

In linear algebra, this vector is known as eigenvector, a nonzero vector that changes at most by a scalar factor when that linear transformation is applied to it. The corresponding eigenvalues is the factor by which the eigenvector is scaled.

A 2×2 real and symmetric matrix representing a stretching and shearing of the plane. The eigenvectors of the matrix (red lines) are the two special directions such that every point on them will just slide on them (Wikipedia).

Eigenvectors_of_a_linear_operator

The nodes are taken their place by a consideration that the 1st layer will have the same configuration as when the 3 (three) layers are combined. By this 1000 primes then 168-150=Δ18 is raised on the next turn.

String theories require extra dimensions of spacetime for their mathematical consistency. In bosonic string theory, spacetime is 26-dimensional, while in superstring theory it is 10-dimensional, and in M-theory it is 11-dimensional (Wikipedia).

$True Prime Pairs:
+layer | node | sub |  i   |  k   |  f
+------+------+-----+------+------+-----
+      |      |     |  1   | 1,2  |  2,3 ← 2x = (13-11)x ---
+      |      |  1  +------+------+                         |
+      |  1   |     |  2   |  3   |  7                      |
+      |      |-----+------+------+                         |
+      |      |     |  3   | 4,6  |  10,11,12 --            |
+  1   +------+  2  +------+------+             |           |
+      |      |     |  4   |  7   |  13         5x ---      |
+      |      +-----+------+------+             |     |     |
+      |  2   |     |  5   | 8,9  |  14,15 -----      |     |
+      |      |  3  +------+------+                   |     |
+      |      |     |  6   |  10* |  19               |     |
+------+------+-----+------+------+-------  lexering  |    7x + 6x = 13x
+      |      |     |  7   |  11* |  20               |     |
+      |      |  4  +------+------+                   |     |
+      |  3   |     |  8   |  12  |  26*  -----       |     |
+      |      +-----+------+------+           |       |     |
+      |      |     |  9   |  13  |  27       2x -----      |
+  2   +------|  5  +------+------+           |             |
+      |      |     |  10* |  14  |  28  -----              |
+      |      |-----+------+------+   lexering              |
+      |  4   |     |  11* |15,18 |  29,30,31,32 ←---4x-----
+      |      |  6  +------+------+
+      |      |     |  12  |  19  |  36
+------+------+-----+------+------+-------
+      |      |     |  13  |  20  | {38}
+      |      |  7  +------+------+
+      |  5   |     |  14  |21,22 | {40,41} = (19-17)x -----
+      |      |-----+------+------+                         |
+      |      |     |  15  |  23  | {42}                   6x + 13x = 19x
+  3   +------+  8  +------+------+                         |
+      |      |     |  16  |24,27 | {43,44,45,46} ←- 4x ----
+      |      |-----+------+------+
+      |  6   |     |  17  |  28  | {50} = 46 + 4
+      |      |  9  +------+------+
+      |      |     |  18  |  29  | {68} = 32 + 36
+------|------|-----+------+-------
+

You may see this scheme is build by 3 (three) layers where the next layer will continue the primes object by carrying the tensor of prime 31 and 71 of previous layer. So it will return to the beginning position within 60+40=100 nodes per layer.

recycle

It will be forced back to Δ19 making a cycle that bring back the 12 to → 13 of 9 collumns and replicate The Scheme 13:9 through (i=9,k=13)=9x3=27 with entry form of (100/50=2,60,40) as below:

The Prime Recycling ζ(s):
+(2,3), (29,89), (36,68), (72,42), (100,50), (2,3), (29,89), ...**infinity**
+----------------------+-----+-----+-----+                                    ---
+     7 --------- 1,2:1|   1 |  30 |  40 | 71 (2,3) ‹-------------@----        |
+     |                +-----+-----+-----+-----+                        |      |
+     |  8 ‹------  3:2|   1 |  30 |  40 |  90 | 161 (7) ‹---           |      5¨  encapsulation
+     |  |             +-----+-----+-----+-----+             |          |      |
+     |  |  6 ‹-- 4,6:3|   1 |  30 | 200 | 231 (10,11,12) ‹--|---       |      |
+     |  |  |          +-----+-----+-----+-----+             |   |      |     ---
+      --|--|-----» 7:4|   1 |  30 |  40 | 200 | 271 (13) --›    | {5®} |      |
+        |  |          +-----+-----+-----+-----+                 |      |      |
+         --|---› 8,9:5|   1 |  30 | 200 | 231 (14,15) ---------›       |      7¨  abstraction
+289        |          +-----+-----+-----+-----+-----+                  |      |
+ |          ---› 10*:6|  20 |   5 |  10 |  70 |  90 | 195 (19) --› Φ   | {6®} |
+  --------------------+-----+-----+-----+-----+-----+ lexering         |     ---
+     67 -------› 11*:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   --› 14:10*|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+ lexering                     |      |
+     |   --› 15,18:11*|   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
+   -------------------+-----+-----+                                          ---
+    786 ‹------- 20:13|  90 |  90 (38) ‹-------------- ¤                      |
+     |                +-----+-----+                                           |
+     | 618 ‹- 21,22:14|   8 |  40 |  48 (40,41) ‹----------------------      17¨  class
+     |  |             +-----+-----+-----+-----+-----+                  |      |
+     |  | 594 ‹- 23:15|   8 |  40 |  70 |  60 | 100 | 278 (42) «--     |{6'®} |
+     |  |  |          +-----+-----+-----+-----+-----+             |    |     ---
+      --|--|-»24,27:16|   8 |  40 |  48 (43,44,45,46) ------------|----       |
+        |  |          +-----+-----+                               |           |
+         --|---› 28:17| 100 | {100} (50) ------------------------»           19¨  object
+168        |          +-----+                                                 |
+|         102 -› 29:18| 50  | 50(68) ---------> Δ18                           |
+----------------------+-----+                                                ---
+
+Faktors:
+ 168 = 12x14 = 8x21 = 7x24 = 6x28 = 4x42 = 3x56 = 2x84
+ 618 = 6x103 = 6x(100+3) = 3x206 = 3x(200+6) = 2x309 = 2x(300+9)
+ 1+6+8 = π(1x6x8) = π(1x48) = π(2x24) = π(3x16)= π(4x12) = π(6x8)
+ 
+ Permutations:
+ 168 = 102 + 66 = 2x3x((8+9)+(2+9)) = π(Φ(289+329)) = π(Φ((8+9)²+(1+2)&29))
+ 168 + 618 = 168 + 329 + 289 = (7x24) + (7x47) + (8+9)² = (7x71) + (17x17)
+ 
+- By 168 this will be 329+30+30-160 or 229 which is the 50th primes so it span 50
+- This 229 carry 1000 to 1229 = π(10000) means it is touching the end of 329 layer
+- So the 229 converted to 1000 - 50 or 950 which is 950/10+1 or 96 on the 168 layer
+

In the second opposing member, the position 13 in the second term gives a redundant value of the template 7 of 7 × 7 = 49. The opposite prime position 31 as the 11th prime number is now forced to determine a new axis-symmetrical zero position.

default

By this project we are going to use a library called Chevrotain. It can be used to build Lexers, Parsers and Interpreters for various use cases ranging from simple config files to full fledged programming languages.

Lexers, Parsers and Interpreters with Chevrotain

Each result goes to the 9th object of prime 67 which is 19th prime. So when the cycle has passed the 10th object then the 43 objects will be laid by 9 collumns and slightly forming a recombination which facilitate them to finaly generate 1000 primes


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\ No newline at end of file diff --git a/exponentiation/folder16/file01.html b/exponentiation/folder16/file01.html new file mode 100644 index 00000000..810d32ed --- /dev/null +++ b/exponentiation/folder16/file01.html @@ -0,0 +1,21 @@ + Prime Hexagon · ₠Quantum

Prime Hexagon

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+


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Difference Between Leading Strand And Lagging Strand of DNA

Difference-Between-Lagging-and-Leading-Strand_Figure-1-768x373

Leading-Strand-And-Lagging-Strand-Of-DNA-1024x954


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  • The direction of growth of the leading strand is 5′→3′. The direction of growth of the lagging strand is 3′→5′.
  • The formation of leading strand begins immediately at the beginning of replication. The formation of lagging strand begins a bit later than that of the leading strand.
  • During the synthesis of leading strand, only one site of initiation is exposed in the template strand. During the synthesis of lagging strand, multiple sites of initiation are exposed in the template strand.

207490064-f96db6e0-33fe-4c71-9fd9-9f13e71410db


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Deploying containers

This Chromium Project is being considered since it has an Optimized OS to build containers which could be imported as image in a Compute Engine. With this scheme then the engine is able to be assigned as a runner to build inside container.

The main reason of this requirement is because we will need to build a system that contained as three (3) layers of primes level where the system will always be forced in to the 15+25=40th prime each time we made an access to the next layer.

1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+

Althouht the optimized os is ready with built in images however we will need to place a custom modification since the objective of this OS Project is mainly about optimizing the containers while our project is mainly about the primes behaviour.

l8myt

By this modification we are going to build the three (3) layers of 19 cells with a cumulative sum of 1, 7 and 19 in sequence. So follow to the scheme then it would get 50 nodes out of the total nodes of 66.

Consider that the 1st cell is standing as (Δ1) which is eqivalent to 19. Then as per The Δ(19 vs 18) Scenario the 7 cells would behave as (Δ1 to Δ7) that equivalent with 19 to 25. So by the 3rd and 4th axis it will get 102+66 = 168 primes of π(1000).

                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         |    |
+                                |                             |                         |    |
+                                 ------------ 10 -------------                          |    |
+                                                                                        ↓    ↓ |
+                                                                                +----+----+----+---+----+----+---+
+                                                                                |  2 | 60 | 40 | 1 | 30 | 30 | 5 |
+                                                                                +----+----+----+---+----+----+---+
+                                                                                        |    | |
+                                                                                     2+100 ◄- 
+  -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

By the 1's and 17's cells we will divide in the 0's cell in to four (4) containers shown above. You should find that the 40 primes is acting as the base rule of the current primes level also the interface between the grammar of each containers as well. Two (2) primes out of the 102 will hold the 1's and 17's cells so by the rest of 100 they will form (2,60,40).

By the scheme as we have explained above you would agree that this mapping could only be managed using a customizable compute service so the engine is easily to be created, terminated, restarted and even deleted programmatically.

See that all of the steps need to be done progressively. Once we buit a container of (2,60,40) with the three (3) inside containers then the 33's will be able to generate four (4) runners that represent (2,3,5,7) from the π(10). Let's discuss them one by one.


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\ No newline at end of file diff --git a/exponentiation/folder16/file06.md b/exponentiation/folder16/file06.md new file mode 100644 index 00000000..aa71a5ef --- /dev/null +++ b/exponentiation/folder16/file06.md @@ -0,0 +1,72 @@ +## Deploying containers + +This [Chromium Project](https://www.chromium.org/chromium-projects/) is being considered since it has an [Optimized OS](https://cloud.google.com/container-optimized-os/docs/how-to/building-from-open-source) to build containers which could be imported as image in a [_Compute Engine_](https://cloud.google.com/compute/docs/images/import-existing-image#import_image). With this scheme then the engine is able to be assigned as a runner to build inside container. + +[![](https://user-images.githubusercontent.com/8466209/202855623-cd58afdf-e05b-4517-b3dd-b01e70011814.gif)](https://gist.github.com/eq19/f78d4470250720fb18111165564d555f#file-13_centralize-md) + +The main reason of this requirement is because we will need to build a system that contained as [three (3) layers](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857) of primes level where the system will always be forced in to the ***[15+25=40th prime](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#mapping-scheme)*** each time we made an access to the next layer. + +``` +1st layer: +It has a total of 1000 numbers +Total primes = π(1000) = 168 primes + +2nd layer: +It will start by π(168)+1 as the 40th prime +It has 100x100 numbers or π(π(10000)) = 201 primes +Total cum primes = 168 + (201-40) = 168+161 = 329 primes + +3rd layer: +Behave the same as 2nd layer which has a total of 329 primes +The primes will start by π(π(π(1000th prime)))+1 as the 40th prime +This 1000 primes will become 1000 numbers by 1st layer of the next level +Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 +``` + +Althouht the optimized os is ready with [built in images](https://cloud.google.com/container-optimized-os/docs/release-notes) however we will need to place a custom modification since the objective of this OS Project is mainly about optimizing the containers while our project is mainly about the primes behaviour. + +[![l8myt](https://user-images.githubusercontent.com/8466209/210317563-306111cb-5c66-4996-ad7b-47d84077175e.jpg)](https://stackoverflow.com/a/49467154/4058484) + +By this modification we are going to build the three (3) layers of 19 cells with a ***cumulative sum of 1, 7 and 19*** in sequence. So follow to the scheme then it would get 50 nodes out of the total nodes of 66. + +[![](https://user-images.githubusercontent.com/8466209/90985852-ca542500-e5a8-11ea-9027-9bfdcbe37966.jpg)](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#file-1_prime-md) + +Consider that the 1st cell is standing as (Δ1) which is eqivalent to 19. Then as per _The Δ(19 vs 18) Scenario_ the 7 cells would behave as (Δ1 to Δ7) that equivalent with 19 to 25. So by the 3rd and 4th axis it will get 102+66 = 168 primes of π(1000). + +``` + | ----------- 5 ----------- + | | | + ↓ ↑ ↓ + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + ↓ ↑ | | + | | | | + ------------ 10 ------------- | | + ↓ ↓ | + +----+----+----+---+----+----+---+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | + +----+----+----+---+----+----+---+ + | | | + 2+100 ◄- + -----------------------+----+----+----+----+----+----+----+----+----+----- | + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum | + =======================+====+====+====+====+====+====+====+====+====+===== ↓ + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th ◄- 4 = π(10) + -----------------------+----+----+----+----+----+----+----+----+----+----- +``` + +By the 1's and 17's cells we will divide in the 0's cell in to four (4) containers shown above. You should find that the 40 primes is acting as the base rule of the current primes level also the interface between ***the grammar*** of each containers as well. Two (2) primes out of the 102 will hold the 1's and 17's cells so by the rest of 100 they will form (2,60,40). + +[![](https://user-images.githubusercontent.com/8466209/199135210-06912985-b2b0-4495-94cb-9431935dc912.png)](https://gist.github.com/eq19/8cab5e72d52ecb338a2f2187082a1699#file-runner-md) + +By the scheme as we have explained above you would agree that this mapping could only be managed using a ***customizable compute service*** so the engine is easily to be created, terminated, restarted and even deleted programmatically. + +[![](https://user-images.githubusercontent.com/8466209/207363317-e8816b5d-c7b4-43e3-a120-0509641de4eb.png)](https://gist.github.com/eq19/b9f901cda16e8a11dd24ee6b677ca288#file-recycle-md) + +See that all of the steps need to be done progressively. Once we [buit a container](https://github.com/chromium/chromium/blob/main/docs/linux/build_instructions.md#docker-requirements) of (2,60,40) with the three (3) inside containers then the 33's will be able to generate four (4) runners that represent ***(2,3,5,7) from the π(10)***. Let's discuss them one by one. \ No newline at end of file diff --git a/exponentiation/folder16/file07.html b/exponentiation/folder16/file07.html new file mode 100644 index 00000000..04cd53f5 --- /dev/null +++ b/exponentiation/folder16/file07.html @@ -0,0 +1,40 @@ + Antiparallels · ₠Quantum

Antiparallels

Notably, the prime five (5) is equal to the sum of the only consecutive primes, 2 + 3. However by the nature it is not going to be as simple as that. Instead they are performing to do a pairing between the Scheme-34 with the Scheme-21.

By the structure of DNA it is clearly seen that this prime is compromizing the bilateral power of the prime two (2) and grouping power of the prime three (3). Both of these powers turn to the power of the number six (6). This number is the sum and multiplication of three (3) positive numbers in a row 1 + 2 + 3 = 1 x 2 x 3 = 6.

So this Scheme-21 is actually coming from 1+2+3+4+5+6 = 21. By observing from many literatures we came to a conclution that it has something to do with a golden ratio (φ) originated by π(π(π(1000th prime)))+1=40 that leads the 168 to 618 primes. So it would be antiparalel directions between π(1000) = 168 to φ = 1000/618 with φ = 1000/618 to π(1000) = 168 (vise versa).

By the prime hexagon it will even clearer. Both of the power goes antiparalel in their directions. As the result there would be the period when their instance was created, the period when it was terminated and the period that it shall be raised up.

Such of this movement goes from 17's and 11's then precissely landed on 5's cell within the hexagon. Each time an instance is raised up then the previous tensor is collected so it would finaly form a configuration of 3,2 → 18+13+12 → 43 as shown below.

                             --------------------------------------------------------------
+                            |                                                              | 
+  =======================+====+====+====+====+====+====+====+====+====+=====               |
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root      |
+  -----------------------+----+----+----+----+----+----+----+----+----+-----               |
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin      |
+  -----------------------+----+----+----+----+----+----+----+----+----+-----               |
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th                |
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin      |
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th                |
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin      |
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th                |
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin      |
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ---------------
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+

By this 43 the scheme goes to the limit of π(10) = (2,3.5,7) resulting 2 times prime levels from 10th primes of 29 to 29th prime of 109. See that they are touching the power of prime two (2) by carrying nine (9) cells of prime powers.

In the matrix pictured below, we list the first 24 elements of our domain, take their squares, calculate the modulo 90 congruence and digital roots of each square, and display the digital root factorization dyad for each square and map their collective bilateral 9 sum symmetry (Primesdemystified)

bilateral 9 sums

Since the prime two (2) has a bigger power of all primes combined then it will force back those power precisely as shown on the tabulation above. So from the movement of the form of (7,5,3,2) it goes to (2,3,5,7) as a new replication of π(10).

-----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th ←------------ 10
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3 → 18+13+12 → 43    | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+    2 -------------------+----+----+----+----+----+----+----+----+----+-----  ←-- bilateral 9 sums
+    3 → 18+13+12 → 43    | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+

This replication is the one that forming 5' vs 3' with 3' vs 5' ends of DNA. One thing we should notify here is that this bilateral movements is originated by the 17's of 100 objects. So the period will cover antiparales of 2 times 100+43 or 286 objects.

212474451-c7e68350-8c80-4d67-9fb7-63fba08eb269

In order to facilitate this behaviour the flows within the three (3) inside containers shall have an entrance to the period when the instance was created, the period when it was terminated and the period that it shall be raised up to exchange its existence.

The end of this formation is at fifty (50) which at the next level will carry out the regeneration process to 102 via the number one hundred (100) for its correlation with the number two (2).

With the help of a computer, we appear these two objects only those related to the intended case. Where we can do mapping or iteration with the data we prepare so that results are obtained more quickly and accurately.

For the series of consecutive powers of pi, it has been found that there is no two fall within the same six-cell hexagon. As a matter of a fact it was computed this for pi^32, which has less than a 1/400 chance of occurring randomly.

default

This is a kind of connections to display the above complex relation between the individual objects and their tensors. Same case as we have expressed before we will bring further every details particulary on this scope in to another website separately.

By using this method of interpolation between the object and their tensors we finaly found that the Scheme-35 is actualy come from anti paralel behaviour of Scheme-53 which is containing three (3) prime pairs.


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\ No newline at end of file diff --git a/exponentiation/folder16/file07.md b/exponentiation/folder16/file07.md new file mode 100644 index 00000000..4b49b87b --- /dev/null +++ b/exponentiation/folder16/file07.md @@ -0,0 +1,98 @@ +## Antiparallels + +Notably, the prime five (5) is equal to the sum of the only consecutive primes, 2 + 3. However by the nature it is not going to be as simple as that. Instead they are performing to do a pairing between the _[Scheme-34](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-grammar-md)_ with the _[Scheme-21](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-tabulate-md)_. + +![](https://user-images.githubusercontent.com/36441664/85040788-5e71cc80-b1b3-11ea-962f-cf26ee3419e2.jpg) + +By the structure of DNA it is clearly seen that this prime is compromizing the bilateral power of the prime two (2) and grouping power of the prime three (3). Both of these powers turn to the power of the number six (6). This number is the sum and multiplication of three (3) positive numbers in a row ***1 + 2 + 3 = 1 x 2 x 3 = 6***. + +[![](https://user-images.githubusercontent.com/36441664/101231659-56fd9b80-36df-11eb-87a2-6b4b211a6334.gif)](https://gist.github.com/eq19/f21abd90f8d471390aad23d6ecc90d6d#file-runner-md) + +So this Scheme-21 is actually coming from ***1+2+3+4+5+6 = 21***. By observing from many literatures we came to a conclution that it has something to do with a ***[golden ratio (φ)](https://gist.github.com/eq19/765ddc69e339079a5a64b56c1d46e00f#file-write-all-md)*** originated by π(π(π(1000th prime)))+1=40 that leads the _[168](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-grammar-md)_ to _[618 primes](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-container-md)_. So it would be antiparalel directions between _π(1000) = 168 to φ = 1000/618_ with _φ = 1000/618 to π(1000) = 168_ (vise versa). + +![](https://user-images.githubusercontent.com/36441664/84902333-e6ce6f80-b0d6-11ea-8289-aac5e1961cd6.gif) + +By the prime hexagon it will even clearer. Both of the power goes antiparalel in their directions. As the result there would be the period when their instance was created, the period when it was terminated and the period that it shall be raised up. + +[![](https://user-images.githubusercontent.com/8466209/200012043-620aa039-3b72-4165-83ad-e35d3d972a1b.png)]() + +Such of this movement goes from 17's and 11's then ***precissely landed on 5's cell*** within the hexagon. Each time an instance is raised up then the previous tensor is collected so it would finaly form a configuration of ***3,2 → 18+13+12 → 43*** as shown below. + +``` + -------------------------------------------------------------- + | | + =======================+====+====+====+====+====+====+====+====+====+===== | + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root | + -----------------------+----+----+----+----+----+----+----+----+----+----- | + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin | + -----------------------+----+----+----+----+----+----+----+----+----+----- | + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th | + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin | + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th | + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin | + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th | + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin | + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th --------------- + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== +``` + +By this 43 the scheme goes to the limit of π(10) = (2,3.5,7) resulting 2 times prime levels from 10th primes of 29 to 29th prime of 109. See that they are touching the power of prime two (2) by carrying ***nine (9) cells*** of prime powers. + +> In the matrix pictured below, we list the first 24 elements of our domain, take their squares, calculate the modulo 90 congruence and digital roots of each square, and display the digital root factorization dyad for each square and map their collective ***bilateral 9 sum symmetry*** _([Primesdemystified](https://www.primesdemystified.com/#primingthesquares))_ + +[![bilateral 9 sums](https://user-images.githubusercontent.com/8466209/200229388-03811f48-2492-4845-b15f-85259cd93717.png)](https://gist.github.com/eq19/6e2fcc2138be6fb68839a3ede32f0525#file-bilateral-md) + +Since the prime two (2) has a bigger power of all primes combined then it will force back those power precisely as shown on the tabulation above. So from the movement of the form of (7,5,3,2) it goes to (2,3,5,7) as a ***new replication*** of π(10). + +``` +-----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th ←------------ 10 + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th ←------------ 20 + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 + 2 -------------------+----+----+----+----+----+----+----+----+----+----- ←-- bilateral 9 sums + 3 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th ←------------ 20 + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th +``` + +This replication is the one that forming _5' vs 3'_ with _3' vs 5'_ ends of DNA. One thing we should notify here is that this bilateral movements is originated by the 17's of 100 objects. So the period will cover antiparales of 2 times 100+43 or _[286 objects](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e)_. + +![212474451-c7e68350-8c80-4d67-9fb7-63fba08eb269](https://user-images.githubusercontent.com/8466209/212552402-bacfb0be-7336-4d0d-ad32-36f9cb0bfefc.jpg) + +In order to facilitate this behaviour the flows within the three (3) inside containers shall have an entrance to the period when the instance was ***created***, the period when it was ***terminated*** and the period that it shall be ***raised up*** to exchange its existence. + +[![](https://user-images.githubusercontent.com/8466209/203874503-4276074d-3270-437f-a675-858486afd126.png)]() + +The end of this formation is at fifty (50) which at the next level will carry out the regeneration process to 102 via the number one hundred (100) for its correlation with the number two (2). + +[![](https://user-images.githubusercontent.com/8466209/199508386-69859804-9ccb-4f5d-8314-8ca0be0af235.png)]() + +With the help of a computer, we appear these two objects only those related to the intended case. Where we can do mapping or iteration with the data we prepare so that results are obtained more quickly and accurately. + +[![](https://user-images.githubusercontent.com/8466209/199502657-1ba96c92-29f9-41ec-90a9-cbc5adec9464.png)]() + +For the series of consecutive powers of pi, it has been found that there is ***no two fall within the same six-cell hexagon***. As a matter of a fact it was computed this for pi^32, which has less than a 1/400 chance of occurring randomly. + +[![default](https://user-images.githubusercontent.com/8466209/203874936-9065fbff-25f6-4357-a37b-6945502161d5.png)](https://github.com/kaustubhcs/prime-hexagon) + +This is a kind of connections to display the above complex relation between the individual objects and their tensors. Same case as we have expressed before we will bring further every details particulary on this scope in to another website separately. + +[![](https://user-images.githubusercontent.com/8466209/199359982-229c7e19-9491-44fe-bc67-9c10b14609e9.png)]() + +By using this method of interpolation between the object and their tensors we finaly found that the Scheme-35 is actualy come from anti paralel behaviour of [Scheme-53](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-grammar-md) which is containing _[three (3) prime pairs](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-tabulate-md)_. diff --git a/exponentiation/folder16/file08.html b/exponentiation/folder16/file08.html new file mode 100644 index 00000000..f8ed0c3f --- /dev/null +++ b/exponentiation/folder16/file08.html @@ -0,0 +1 @@ + file08.md · ₠Quantum

207490064-f96db6e0-33fe-4c71-9fd9-9f13e71410db

207490064-f96db6e0-33fe-4c71-9fd9-9f13e71410db

  • Only a single RNA primer is required for the whole lagging strand to synthesize. The starting of each Okazaki fragment requires a new RNA primer. 207490064-f96db6e0-33fe-4c71-9fd9-9f13e71410db

₠Quantum
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\ No newline at end of file diff --git a/exponentiation/folder16/file08.md b/exponentiation/folder16/file08.md new file mode 100644 index 00000000..8943e706 --- /dev/null +++ b/exponentiation/folder16/file08.md @@ -0,0 +1,6 @@ +![207490064-f96db6e0-33fe-4c71-9fd9-9f13e71410db](https://user-images.githubusercontent.com/8466209/207612376-9c1b77f9-f9be-4b8e-be08-d4784b9c65cf.png) + +![207490064-f96db6e0-33fe-4c71-9fd9-9f13e71410db](https://user-images.githubusercontent.com/8466209/207612583-27347639-6314-46b6-9b36-e8898e45c547.png) + +* Only a single RNA primer is required for the whole lagging strand to synthesize. The starting of each Okazaki fragment **requires a new RNA primer**. +![207490064-f96db6e0-33fe-4c71-9fd9-9f13e71410db](https://user-images.githubusercontent.com/8466209/207612733-ce46354c-7386-4bc4-84b2-e89527da7cef.png) \ No newline at end of file diff --git a/exponentiation/folder16/file09.html b/exponentiation/folder16/file09.html new file mode 100644 index 00000000..d0474ba8 --- /dev/null +++ b/exponentiation/folder16/file09.html @@ -0,0 +1,65 @@ + file09.md · ₠Quantum

---+-----+-----
+ 1 | 1   |{21}
+---+-----+-----
+ 2 |{22} |{34}
+---+-----+-----
+ 3 |{35} |{89}
+---+-----+-----
+ 4 | 90  |{119}
+---+-----+-----
+ 5 | 120 | 124
+---+-----+-----
+ 6 |{125}|{128}
+---+-----+-----
+
           26
+           to
+           29
+            |
+            |
+            |
+            V            
+     |         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - |100 |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - |101 |  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   T
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |   H
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   E
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   P
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |   O
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   W
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |   E
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   R
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   O
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |   F
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | ∑=168
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |   V
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   S
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

206955057-ac0d9318-08e6-4e9d-9a37-0c752ceb9fe2

dualidad-onda-particula


₠Quantum
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/exponentiation/folder16/file09.md b/exponentiation/folder16/file09.md new file mode 100644 index 00000000..45318c0d --- /dev/null +++ b/exponentiation/folder16/file09.md @@ -0,0 +1,74 @@ +``` +---+-----+----- + 1 | 1 |{21} +---+-----+----- + 2 |{22} |{34} +---+-----+----- + 3 |{35} |{89} +---+-----+----- + 4 | 90 |{119} +---+-----+----- + 5 | 120 | 124 +---+-----+----- + 6 |{125}|{128} +---+-----+----- +``` + +```liquid + 26 + to + 29 + | + | + | + V + | 1st (Form) | 2nd (Route) | 3rd (Channel) | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168| +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + Δ1 | 19 | - | 31 | 37 | - | - | - | - | - | - | - | - | - | - | 103| - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ2 | 20 | 26 | - | 38 | - | - | - | - | - | 74 | - | - | - | 98 | 104| - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ3 | 21 | 27 | - | 39 | - | - | - | - | - | 75 | - | - | - | 99 | 105| - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ4 | 22 | 28 | - | 40 | - | - | - | - | - | 76 | - | - | - |100 | - | - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ5 | 23 | 29 | - | 41 | - | - | - | - | - | 77 | - | - | - |101 | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ6 | 24 | - | - | 42 | - | 54 | - | - | 72 | 78 | - | 90 | 96 | - | - | - | - | 114| +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + Δ7 | 25 | - | - | 43 | - | 55 | - | - | 73 | 79 | - | 91 | 97 | - | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ8 | - | - | - | 44 | - | 56 | - | - | - | 80 | - | 92 | - | - | - | - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ9 | - | - | - | 45 | - | 57 | - | - | - | 81 | - | 93 | - | - | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ10 | - | - | - | 46 | 52 | 58 | - | 70 | - | 82 | 88 | 94 | - | - | - | - | 112| - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ11 | - | - | - | 47 | 53 | 59 | - | 71 | - | 83 | 89 | 95 | - | - | - | - | 113| - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ T + Δ12 | - | - | - | 48 | - | 60 | 66 | - | - | 84 | - | - | - | - | - | 108| - | - | H +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ E + Δ13 | - | - | - | 49 | - | 61 | 67 | - | - | 85 | - | - | - | - | - | 109| - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ P + Δ14 | - | - | 32 | 50 | - | 62 | 68 | - | - | 86 | - | - | - | - | - | 110| - | - | O +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ W + Δ15 | - | - | 33 | 51 | - | 63 | 69 | - | - | 87 | - | - | - | - | - | 111| - | - | E + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ R + Δ16 | - | - | 34 | - | - | 64 | - | - | - | - | - | - | - | - | 106| - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ O + Δ17 | - | - | 35 | - | - | 65 | - | - | - | - | - | - | - | - | 107| - | - | - | F + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ18 | - | 30 | 36 | - | - | - | - | - | - | - | - | - | - |102 | -| - | - | - | ∑=168 +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16| 17| 18 | 19 | V +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ S + | Δ Δ | Φ12 | Δ Δ | + 113 150 ≜114-25 557 619 = 1+618 +``` +[![](https://user-images.githubusercontent.com/8466209/206955057-ac0d9318-08e6-4e9d-9a37-0c752ceb9fe2.png)](https://gist.github.com/eq19/b9f901cda16e8a11dd24ee6b677ca288#file-locate-md) + +![206955057-ac0d9318-08e6-4e9d-9a37-0c752ceb9fe2](https://user-images.githubusercontent.com/8466209/207627118-3de81d9e-7f43-4a36-a4f8-fab402c487d1.png) + +![dualidad-onda-particula](https://user-images.githubusercontent.com/8466209/207629416-d32dd8e3-0fb5-46b1-b8cd-926060145c04.png) diff --git a/exponentiation/folder16/index.html b/exponentiation/folder16/index.html new file mode 100644 index 00000000..930c8fcc --- /dev/null +++ b/exponentiation/folder16/index.html @@ -0,0 +1,78 @@ + The Scheme 13:9 (parser) · ₠Quantum

The Scheme 13:9 (parser)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

This recombination is taking a scheme called DNA Recombination: M+F to C1+C2 which could only be happen when two (2) chromosomes involve. Here we found that each of their DNA will form a scheme called The Scheme 13:9 as shown below.

===========
+(1){1}-7:   7'
+(1){8}-13:  6‘
+(1)14-{19}: 6‘
+------------- {6+6} --→ [M+F] 
+(2)20-24:   5'            |
+(2)25-{29}: 5'            |
+------------  5+5 --------
+(3)30-36:   7:{70,30,10²} |
+------------              |
+(4)37-48:   12• ---       |
+(5)49-59:   11°    |      |
+            --}30° 30•    |
+(6)60-78:   19°    |      |
+(7)79-96:   18• ---       |
+--------------            |
+(8)97-109:  13            |
+(9)110-139:{30}=5x6 <--x-- [C1+C2]
+            --
+            43
+

There will be two (2) schemes are generated from Scheme-12 which are Scheme-53 and Scheme-34. The Scheme-53 is initially build using 12 kind of 12 concecutife primes that is laid in sequence. Here we are gonna use 12 repositories to simulate it.

True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+|------------------------ Scheme-12 ------------------------|
+|------------ 6¤ -------------|------------- 6¤ ------------|
+|--------------------------- 192 ---------------------------|
+|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---|
++----+----+----+----+----+----+----+----+----+----+----+----+
+|  5 |  7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 |
++----+----+----+----+----+----+----+----+----+----+----+----+
+|---------  5¤  ---------|---- {48} ----|----- {48} ---|{43}|
+|---------  5¤  ---------|------------ {96} -----------|{43}|
+|--------- {53} ---------|-------------- {139} -------------|
+|------ Scheme-53 -------|------------ Scheme-34 -----------|
+

From the primes flatform we got 109 objects including for the 7 rows. So the encapsulation goes to the rest of 102. By the next level this 102 will represent 100 of 60 and 40 nodes of previous 619 primes of 2nd and 3rd layers in form of (2,60,40).

168 + 329 + 289 - 619 - 30 - 30 - 5 = 786 - 619 - 65 = 102 = (2,60,40)

The 10 ranks will coordinate with the 18 to raise up the symmetrical behaviour of 12+24=36 which is prime pair 17+19=36 and let the 2 and 3 out of 2,3,5,7 to begin a new cycle while the 5,7 will pair the 11,13 and 17,19 as True Prime Pairs.

By having the total of 168, the 102 and the 30+36=66 will take the 1st and 2nd prime on The Primes Platform. This leads to 168 - 29 - 96 = 139 - 96 = 43 primes on the last of 7th row. That what and why 18+13+12=43 by the last 9 cells is standing for!

  -----------------+----+----+----+----+----+----+----+----+----+-----
+  The last 9 cells |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =================+====+====+====+====+====+====+====+====+====+=====
+  3,2→18+13+12→43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th →13th→ 2,3
+  -----------------+----+----+----+----+----+----+----+----+----+-----
+
+- This 43 is 18+13+12 in bilateral on perfect square of 9 goes to 89 → π(89²) = 1000
+

This 71 is a conformation that it has the same result as we have explained on the residual objects of 571 turn to a vektor of 71 while the rest of 500 turn to 200 objects of 3's identity and the last objects of 300 goes to the next cycles.

So now out of 1000 numbers that generated from 1000 primes we will get the rest of 1000 - 100 = 900. This 900 will behave as matrix square 30x30 and act as the base frame of 2nd and 3rd layer which are working on π(π(100x100))-1=200 primes:

Scheme:
+ 168 + 329 + 289 = 786
+ d(786) = d(7+8+6) = d(21) = d(3)
+ 10+29+109+(109-100)²+100x10=π(10000)
+ 
+ Modulus:
+  30  «   60  »  90
+  |       |       |
+ 3:29 « 1:6:8 » 28:9
+ └── 3 + └── 6  + └── 9 = 18
+ 
+ |       2'     |        3'         |              5'              |               7'             |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |     lexering = π(1000)           |                    parsering = 1000/Φ                       |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |   mapping    |     feeding       |          syntaxing           |          grammaring          |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 |  39 | 40 | 41 | 42 | 43 | 44 | 45  | 46 | 47 | 48 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1  | 30 | 30 | 5  | 1  | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  ° |ΔΔΔΔ  ΦΦ | •    ΔΔ   ΔΔ   ¤  | •    ΔΔ   ΦΦΦ    Φ   ΦΦ  ¤¤¤¤|  •   ΔΔ   ΦΦΦ    Φ   ¤¤   ΦΦ |  
+ 
+ |----- 102  ---|-------  66  ------|-------- 329 = 7 x 47 --------|- 289 = (8+9)² = 2 & (2³+9²) -|
+ |---2x3x(8+9)--|---- 2x3x(2+9) ----|---- (1+2) & (2x9)+(2+9) -----|------ 2 & (8x9)+(8+9) -------|
+ |--------- 168 = π(1000) ----------|------ 1229 = π(10000) -------|------ π(89²) = 1000 ---------|
+ |--------- 168 = π(618xΦ) ---------|--------------- 618 = 1000/Φ = 1000x1000/1618 ---------------|
+ 
+

This polarity is happened per six (6) cycles by the polar of six (6) to one (1) and six (6) to seven (7) by which we finally found if this behaviour is cascaded bilaterally within the correlation between 61 as the 18th prime and 67 as the 19th prime.

The Parser which takes the tokens from the lexer and returns a syntax tree based on a grammar. The grammar is the language of languages and provides the rules and syntax. The interpreter which takes in the syntax tree and evaluates the result.

By this scheme there will be 23 units of another kind of repositories are required. So combining with the 12 come to the total of 35 which is forking the Scheme-34 to become Scheme-35 as the replication fork of Scheme-53 Let's discuss it in more detail. .


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\ No newline at end of file diff --git a/exponentiation/folder17/file01.html b/exponentiation/folder17/file01.html new file mode 100644 index 00000000..3f1dfd55 --- /dev/null +++ b/exponentiation/folder17/file01.html @@ -0,0 +1,54 @@ + Syntax Mapping · ₠Quantum

Syntax Mapping

202908410-05198867-a265-42c5-ae68-bbbd340e1939

The Prime Recycling ζ(s):
+(2,3), (29,89), (36,68), (72,42), (100,50), (2,3), (29,89), ...**infinity**
+----------------------+-----+-----+-----+                                    ---
+     7 --------- 1,2:1|   1 |  30 |  40 | 71 (2,3) ‹-------------@----        |
+     |                +-----+-----+-----+-----+                        |      |
+     |  8 ‹------  3:2|   1 |  30 |  40 |  90 | 161 (7) ‹---           |      5¨  encapsulation
+     |  |             +-----+-----+-----+-----+             |          |      |
+     |  |  6 ‹-- 4,6:3|   1 |  30 | 200 | 231 (10,11,12) ‹--|---       |      |
+     |  |  |          +-----+-----+-----+-----+             |   |      |     ---
+      --|--|-----» 7:4|   1 |  30 |  40 | 200 | 271 (13) --›    | {5®} |      |
+        |  |          +-----+-----+-----+-----+                 |      |      |
+         --|---› 8,9:5|   1 |  30 | 200 | 231 (14,15) ---------›       |      7¨  abstraction
+289        |          +-----+-----+-----+-----+-----+                  |      |
+ |          ----› 10:6|  20 |   5 |  10 |  70 |  90 | 195 (19) --› Φ   | {6®} |
+  --------------------+-----+-----+-----+-----+-----+                  |     ---
+     67 --------› 11:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   ---› 14:10|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+                              |      |
+     |   ---› 15,18:11|   1 |  30 |  40 | 71 (29,30,31,32) ----------        13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
+   -------------------+-----+-----+                                          ---
+    786 ‹------- 20:13|  90 |  90 (38) ‹-------------- ¤                      |
+     |                +-----+-----+                                           |
+     | 618 ‹- 21,22:14|   8 |  40 |  48 (40,41) ‹----------------------      17¨  class
+     |  |             +-----+-----+-----+-----+-----+                  |      |
+     |  | 594 ‹- 23:15|   8 |  40 |  70 |  60 | 100 | 278 (42) «--     |{6'®} |
+     |  |  |          +-----+-----+-----+-----+-----+             |    |     ---
+      --|--|-»24,27:16|   8 |  40 |  48 (43,44,45,46) ------------|----       |
+        |  |          +-----+-----+                               |           |
+         --|---› 28:17| 100 | {100} (50) ------------------------»           19¨  object
+168        |          +-----+                                                 |
+|         102 -› 29:18| 50  | 50(68) ---------> Δ18                           |
+----------------------+-----+                                                ---
+
+
  --------------------+-----+-----+-----+-----+-----+                  |     ---
+     67 --------› 11:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   ---› 14:10|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+                              |      |
+     |   ---› 15,18:11|   1 |  30 |  40 | 71 (29,30,31,32) ----------        13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
+   -------------------+-----+-----+ 
+


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2022-12-26 (4)

2022-12-26 (6)

gcloud command line

gcloud compute instance-templates create instance-template-ubuntu-01 \
+--project=marketleader --machine-type=e2-micro --network-interface=network=default,network-tier=PREMIUM \
+--maintenance-policy=MIGRATE --provisioning-model=STANDARD \
+--service-account=project-owner@marketleader.iam.gserviceaccount.com \
+--scopes=https://www.googleapis.com/auth/source.full_control,\
+https://www.googleapis.com/auth/compute,https://www.googleapis.com/auth/servicecontrol,\
+https://www.googleapis.com/auth/service.management.readonly,\
+https://www.googleapis.com/auth/logging.write,https://www.googleapis.com/auth/monitoring.write,\
+https://www.googleapis.com/auth/trace.append,https://www.googleapis.com/auth/devstorage.read_only \
+--create-disk=auto-delete=yes,boot=yes,device-name=instance-template-ubuntu-2204LTS,\
+image=projects/ubuntu-os-cloud/global/images/ubuntu-2204-jammy-v20221206,mode=rw,size=10,type=pd-standard \
+--no-shielded-secure-boot --shielded-vtpm --shielded-integrity-monitoring --reservation-affinity=any \
+--tags=https-server --threads-per-core=2
+

Equivalent REST request

POST https://www.googleapis.com/compute/v1/projects/marketleader/global/instanceTemplates
+{
+  "description": "",
+  "name": "instance-template-ubuntu-01",
+  "properties": {
+    "advancedMachineFeatures": {
+      "threadsPerCore": 2
+    },
+    "canIpForward": false,
+    "confidentialInstanceConfig": {
+      "enableConfidentialCompute": false
+    },
+    "description": "",
+    "disks": [
+      {
+        "autoDelete": true,
+        "boot": true,
+        "deviceName": "instance-template-ubuntu-2204LTS",
+        "diskEncryptionKey": {},
+        "initializeParams": {
+          "diskSizeGb": "10",
+          "diskType": "pd-standard",
+          "labels": {},
+          "sourceImage": "projects/ubuntu-os-cloud/global/images/ubuntu-2204-jammy-v20221206"
+        },
+        "mode": "READ_WRITE",
+        "type": "PERSISTENT"
+      }
+    ],
+    "displayDevice": {
+      "enableDisplay": false
+    },
+    "keyRevocationActionType": "NONE",
+    "labels": {},
+    "machineType": "e2-micro",
+    "metadata": {
+      "items": []
+    },
+    "networkInterfaces": [
+      {
+        "accessConfigs": [
+          {
+            "kind": "compute#accessConfig",
+            "name": "External NAT",
+            "networkTier": "PREMIUM",
+            "type": "ONE_TO_ONE_NAT"
+          }
+        ],
+        "network": "projects/marketleader/global/networks/default",
+        "stackType": "IPV4_ONLY"
+      }
+    ],
+    "reservationAffinity": {
+      "consumeReservationType": "ANY_RESERVATION"
+    },
+    "scheduling": {
+      "automaticRestart": true,
+      "onHostMaintenance": "MIGRATE",
+      "provisioningModel": "STANDARD"
+    },
+    "serviceAccounts": [
+      {
+        "email": "project-owner@marketleader.iam.gserviceaccount.com",
+        "scopes": [
+          "https://www.googleapis.com/auth/source.full_control",
+          "https://www.googleapis.com/auth/compute",
+          "https://www.googleapis.com/auth/servicecontrol",
+          "https://www.googleapis.com/auth/service.management.readonly",
+          "https://www.googleapis.com/auth/logging.write",
+          "https://www.googleapis.com/auth/monitoring.write",
+          "https://www.googleapis.com/auth/trace.append",
+          "https://www.googleapis.com/auth/devstorage.read_only"
+        ]
+      }
+    ],
+    "shieldedInstanceConfig": {
+      "enableIntegrityMonitoring": true,
+      "enableSecureBoot": false,
+      "enableVtpm": true
+    },
+    "tags": {
+      "items": [
+        "https-server"
+      ]
+    }
+  }
+}
+

instance-template-ubuntu-2204LTS

2022-12-24 (9)

Untitled


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\ No newline at end of file diff --git a/exponentiation/folder17/file04.md b/exponentiation/folder17/file04.md new file mode 100644 index 00000000..cfafe222 --- /dev/null +++ b/exponentiation/folder17/file04.md @@ -0,0 +1,123 @@ +[![2022-12-26 (4)](https://user-images.githubusercontent.com/8466209/209532746-5a09e0f6-9346-4d61-aee8-eeef1f801e5a.png) +](https://console.cloud.google.com/iam-admin/serviceaccounts/create?authuser=1&project=marketleader&cloudshell=false) + +[![2022-12-26 (6)](https://user-images.githubusercontent.com/8466209/209535961-5441181b-a87b-4879-8e6a-c752eaaec587.png) +](https://console.cloud.google.com/iam-admin/serviceaccounts/details/112927040009179159531/permissions?authuser=1&project=marketleader) + +[gcloud](https://developers.google.com/cloud/sdk/gcloud/reference/compute/?hl=en_US) command line + +``` +gcloud compute instance-templates create instance-template-ubuntu-01 \ +--project=marketleader --machine-type=e2-micro --network-interface=network=default,network-tier=PREMIUM \ +--maintenance-policy=MIGRATE --provisioning-model=STANDARD \ +--service-account=project-owner@marketleader.iam.gserviceaccount.com \ +--scopes=https://www.googleapis.com/auth/source.full_control,\ +https://www.googleapis.com/auth/compute,https://www.googleapis.com/auth/servicecontrol,\ +https://www.googleapis.com/auth/service.management.readonly,\ +https://www.googleapis.com/auth/logging.write,https://www.googleapis.com/auth/monitoring.write,\ +https://www.googleapis.com/auth/trace.append,https://www.googleapis.com/auth/devstorage.read_only \ +--create-disk=auto-delete=yes,boot=yes,device-name=instance-template-ubuntu-2204LTS,\ +image=projects/ubuntu-os-cloud/global/images/ubuntu-2204-jammy-v20221206,mode=rw,size=10,type=pd-standard \ +--no-shielded-secure-boot --shielded-vtpm --shielded-integrity-monitoring --reservation-affinity=any \ +--tags=https-server --threads-per-core=2 +``` + +Equivalent [REST request](https://developers.google.com/compute/docs/reference/latest?hl=en_US) + +``` +POST https://www.googleapis.com/compute/v1/projects/marketleader/global/instanceTemplates +{ + "description": "", + "name": "instance-template-ubuntu-01", + "properties": { + "advancedMachineFeatures": { + "threadsPerCore": 2 + }, + "canIpForward": false, + "confidentialInstanceConfig": { + "enableConfidentialCompute": false + }, + "description": "", + "disks": [ + { + "autoDelete": true, + "boot": true, + "deviceName": "instance-template-ubuntu-2204LTS", + "diskEncryptionKey": {}, + "initializeParams": { + "diskSizeGb": "10", + "diskType": "pd-standard", + "labels": {}, + "sourceImage": "projects/ubuntu-os-cloud/global/images/ubuntu-2204-jammy-v20221206" + }, + "mode": "READ_WRITE", + "type": "PERSISTENT" + } + ], + "displayDevice": { + "enableDisplay": false + }, + "keyRevocationActionType": "NONE", + "labels": {}, + "machineType": "e2-micro", + "metadata": { + "items": [] + }, + "networkInterfaces": [ + { + "accessConfigs": [ + { + "kind": "compute#accessConfig", + "name": "External NAT", + "networkTier": "PREMIUM", + "type": "ONE_TO_ONE_NAT" + } + ], + "network": "projects/marketleader/global/networks/default", + "stackType": "IPV4_ONLY" + } + ], + "reservationAffinity": { + "consumeReservationType": "ANY_RESERVATION" + }, + "scheduling": { + "automaticRestart": true, + "onHostMaintenance": "MIGRATE", + "provisioningModel": "STANDARD" + }, + "serviceAccounts": [ + { + "email": "project-owner@marketleader.iam.gserviceaccount.com", + "scopes": [ + "https://www.googleapis.com/auth/source.full_control", + "https://www.googleapis.com/auth/compute", + "https://www.googleapis.com/auth/servicecontrol", + "https://www.googleapis.com/auth/service.management.readonly", + "https://www.googleapis.com/auth/logging.write", + "https://www.googleapis.com/auth/monitoring.write", + "https://www.googleapis.com/auth/trace.append", + "https://www.googleapis.com/auth/devstorage.read_only" + ] + } + ], + "shieldedInstanceConfig": { + "enableIntegrityMonitoring": true, + "enableSecureBoot": false, + "enableVtpm": true + }, + "tags": { + "items": [ + "https-server" + ] + } + } +} +``` + +[![instance-template-ubuntu-2204LTS](https://user-images.githubusercontent.com/8466209/209422018-1209129c-fc1d-4d21-baf9-3d8791c65bcb.png) +](https://console.cloud.google.com/compute/instanceTemplates/add?authuser=1&cloudshell=false&project=marketleader) + +[![2022-12-24 (9)](https://user-images.githubusercontent.com/8466209/209423099-b1a94680-016a-4a05-a8d0-a8bed34ea099.png) +](https://console.cloud.google.com/compute/instanceTemplates/add?authuser=1&cloudshell=false&project=marketleader) + +![Untitled](https://user-images.githubusercontent.com/8466209/253502287-3490508a-c791-42f0-91b4-6518f6f9d384.png) diff --git a/exponentiation/folder17/file05.html b/exponentiation/folder17/file05.html new file mode 100644 index 00000000..7a6c18a4 --- /dev/null +++ b/exponentiation/folder17/file05.html @@ -0,0 +1 @@ + file05.md · ₠Quantum


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---+-----+-----
+ 1 | 1   |{10}
+---+-----+-----
+ 2 |{11} |{22}
+---+-----+-----
+ 3 | 23  | 39
+---+-----+-----
+ 4 |{40} |{60}
+---+-----+-----
+ 5 |{61} | 70
+---+-----+-----
+ 6 |{71} |{77}
+---+-----+-----
+ 7 |{78} | 82
+---+-----+-----
+ 8 | 83  |{100}
+---+-----+-----
+ 9 | 101 | 104
+---+-----+-----
+10 | 105 |{111}
+---+-----+-----
+

Untitled

Untitled


₠Quantum
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\ No newline at end of file diff --git a/exponentiation/folder17/file09.md b/exponentiation/folder17/file09.md new file mode 100644 index 00000000..c4e57bb6 --- /dev/null +++ b/exponentiation/folder17/file09.md @@ -0,0 +1,33 @@ +[![](https://user-images.githubusercontent.com/8466209/200229388-03811f48-2492-4845-b15f-85259cd93717.png)](https://gist.github.com/eq19/6e2fcc2138be6fb68839a3ede32f0525#file-bilateral-md) + +[![]()]() + +``` +---+-----+----- + 1 | 1 |{10} +---+-----+----- + 2 |{11} |{22} +---+-----+----- + 3 | 23 | 39 +---+-----+----- + 4 |{40} |{60} +---+-----+----- + 5 |{61} | 70 +---+-----+----- + 6 |{71} |{77} +---+-----+----- + 7 |{78} | 82 +---+-----+----- + 8 | 83 |{100} +---+-----+----- + 9 | 101 | 104 +---+-----+----- +10 | 105 |{111} +---+-----+----- +``` + +![Untitled](https://user-images.githubusercontent.com/8466209/255354303-b21e4caf-b759-4319-b92c-77209ea0e1da.png) + +![Untitled](https://user-images.githubusercontent.com/8466209/255354336-2c112708-3011-4e15-a51f-ad4a5998ab85.png) + +[![](https://user-images.githubusercontent.com/8466209/200244306-f5e5a428-83b9-46bb-a4b1-c96367e278b2.png)](https://gist.github.com/eq19/6e2fcc2138be6fb68839a3ede32f0525#file-circular-md) diff --git a/exponentiation/folder17/index.html b/exponentiation/folder17/index.html new file mode 100644 index 00000000..b2e374c4 --- /dev/null +++ b/exponentiation/folder17/index.html @@ -0,0 +1,26 @@ + Prime Recycling ζ(s) (syntax) · ₠Quantum

Prime Recycling ζ(s) (syntax)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

As shown in The Primes Platform this cycle goes to the prime 13 then reinjected through index 13:9 . So it forms The Scheme-139 through the infinitely primes cycling. This scheme will be implemented by taking the following as the syntax algorithm:

default

Direction:
+- The initial of 168 & 329 brings the 102 as 100+2 to π(π(10000))-1=200 or 100 x 2.
+- Then the 289 lets this 100x2 to 100² so it brings 100 to 10000 by the power of 2.
+- At the last it will be separated by the scheme of 168 to 102 goes back 100 and 2.
+ 
+Conclution:
+- All of the other primes than 2 is 1 less than the number n times the number of 2. 
+- Those Mersenne primes is generated as 1 less than the power n of the number of 2. 
+- Thus they will conseqently be carried out by the same scheme of this number of 2.
+

This 23 units will form Scheme-23 as two (2) long strands which is known as doble helix Here we call them as Scheme-23 (71) and Scheme-23 (68). These strands are originated by the three (3) layers of True Prime Pairs.

Scheme-139

The Ulam spiral or prime spiral is a graphical depiction of the set of prime numbers, devised by mathematician Stanisław Ulam in 1963 and popularized in Martin Gardner's Mathematical Games column in Scientific American a short time later.

Both Ulam and Gardner noted that the existence of such prominent lines is not unexpected, as lines in the spiral correspond to quadratic polynomials, and certain such polynomials, such as Euler's prime-generating polynomial x²-x+41, are believed to produce a high density of prime numbers. Nevertheless, the Ulam spiral is connected with major unsolved problems in number theory such as Landau's problems (Wikipedia).

prime Sacks_spiral

This pattern is raised up per six (6) cycles on the 19, 43 and 71. Since the members are limited to the sum of 43+71=114 so here the bilateral way of 19 that originated by the (Δ1) is clearly the one that controls the scheme.

Polarity

This property would tend the ballancing scheme of MEC30 so it will let 30-18=12 pairing with another 12 of 24 spins prime hexagon. The 24 goes to the center of True Prime Pairs ny prime pair 13 and 11 and let the crancks of 2,3,5,7 inside the 10 ranks.

Current versions of string theory require 10 dimensions total, while an even more hypothetical über-string theory known as M-theory requires 11. But when we look around the universe, we only ever see the usual three spatial dimensions plus the dimension of time (Expert Voices).

the last standing grammar

By the prime hexagon this number 114 located on 6th row vs 19th column whereas 114th prime = 619 = 618+1. Since DNA Recombination is happen when two (2) chromosomes involve then they start the position as below:

                                                       |               by the 1st chromosome   |  by the 2nd
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | 30 | 36 |  - |
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 | 20 | 21 | 22 |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

See that both will take a total of 19 + 17 = 36 collums, means it always back to 4 root position. By this cycling finally then 900 - 618 - 168 = 114 primes will take their natural segregation and stand as the last standing grammar.


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Prime Identity

By this part we are going to compile all topic we have discussed. Here we would like to explain the way we take on getting the arithmetic expresion of prime distribution to get an individual unit expression (identity) such as a taxicab number below.

+
+ + Note +
+
+

It is a taxicab number, and is variously known as Ramanujan’s number and the Ramanujan-Hardy number, after an anecdote of the British mathematician GH Hardy when he visited Indian mathematician Srinivasa Ramanujan in hospital (Wikipedia).

+
+

Ramanujan-Hardy number

These three (3) number are twin primes. We called the pairs as True Prime Pairs. Our scenario is mapping the distribution out of these pairs by taking the symmetrical behaviour of 36 as the smallest power (greater than 1) which is not a prime power.

+
+ + Tip +
+
+

The smallest square number expressible as the sum of four (4) consecutive primes in two ways (5 + 7 + 11 + 13 and 17 + 19) which are also two (2) couples of prime twins! (Prime Curios!).

+
+
$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6®
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6®
+      |  6  | 19
+ -----+-----+---------
+

Thus in short this is all about the method that we called as the 19 vs 18 Scenario of mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17).

Φ(1,2,3) = Φ(6,12,18) = Φ(13,37,61)

$True Prime Pairs:
+(5,7), (11,13), (17,19)
+ 
+layer | node | sub |  i  |  f
+------+------+-----+----------
+      |      |     |  1  | 
+      |      |  1  +-----+          
+      |  1   |     |  2  | (5)
+      |      |-----+-----+
+      |      |     |  3  |
+  1   +------+  2  +-----+----
+      |      |     |  4  |
+      |      +-----+-----+
+      |  2   |     |  5  | (7)
+      |      |  3  +-----+
+      |      |     |  6  |
+------+------+-----+-----+------      } (36)
+      |      |     |  7  |
+      |      |  4  +-----+
+      |  3   |     |  8  | (11)
+      |      +-----+-----+
+      |      |     |  9  |
+  2   +------|  5  +-----+-----
+      |      |     |  10 |
+      |      |-----+-----+
+      |  4   |     |  11 | (13)
+      |      |  6  +-----+
+      |      |     |  12 |
+------+------+-----+-----+------------------
+      |      |     |  13 |
+      |      |  7  +-----+
+      |  5   |     |  14 | (17)
+      |      |-----+-----+
+      |      |     |  15 |
+  3   +------+  8  +-----+-----       } (36)
+      |      |     |  16 |
+      |      |-----+-----+
+      |  6   |     |  17 | (19)
+      |      |  9  +-----+
+      |      |     |  18 |
+------|------|-----+-----+------
+

The main background is that, as you may also aware, the prime number theorem describes the asymptotic distribution of prime numbers which is still a major problem in mathematic.

Zeta Function

Instead of getting a proved formula we came to a unique expression called zeta function. This expression first appeared in a paper in 1737 entitled Variae observationes circa series infinitas.

+
+ + Tip +
+
+

This expression states that the sum of the zeta function is equal to the product of the reciprocal of one minus the reciprocal of primes to the power s. But what has this got to do with the primes? The answer is in the following product taken over the primes p (discovered by Leonhard Euler):

+
+

image

This issue is actually come from Riemann hypothesis, a conjecture about the distribution of complex zeros of the Riemann zeta function that is considered by many mathematicians to be the most important of unsolved problems in pure mathematics.

+
+ + Note +
+
+

In addition to the trivial roots, there also exist complex roots for real t. We find that the he first ten (10) non-trivial roots of the Riemann zeta function is occured when the values of t below 50. A plot of the values of ζ(1/2 + it) for t ranging from –50 to +50 is shown below. The roots occur each time the locus passes through the origin. (mathpages).

+
+

image

Meanwhile obtaining the non complex numbers it is easier to look at a graph like the one below which shows Li(x) (blue), R(x) (black), π(x) (red) and x/ln x (green); and then proclaim "R(x) is the best estimate of π(x)." Indeed it is for that range, but as we mentioned above, Li(x)-π(x) changes sign infinitely often, and near where it does, Li(x) would be the best value.

image

And we can see in the same way that the function Li(x)-(1/2)Li(x1/2) is ‘on the average' a better approximation than Li(x) to π(x); but no importance can be attached to the latter terms in Riemann's formula even by repeated averaging. The problem is that the contributions from the non-trivial zeros at times swamps that of any but the main terms in these expansions.

+
+ + Warning +
+
+

A. E. Ingham says it this way: Considerable importance was attached formerly to a function suggested by Riemann as an approximation to π(x)… This function represents π(x) with astonishing accuracy for all values of x for which π(x) has been calculated, but we now see that its superiority over Li(x) is illusory… and for special values of x (as large as we please) the one approximation will deviate as widely as the other from the true value (primes.utm.edu).

+
+

Moreover in it was verified numerically, in a rigorous way using interval arithmetic, that The Riemann hypothesis is true up to 3 · 10^12. That is, all zeroes β+iγ of the Riemann zeta-function with 0<γ≤3⋅1012 have β=1/2.

+
+ + Danger +
+
+

We have Λ ≤ 0.2. The next entry is conditional on taking H a little higher than 10*13, which of course, is not achieved by Theorem 1. This would enable one to prove Λ < 0.19. Given that our value of H falls between the entries in this table, it is possible that some extra decimals could be wrought out of the calculation. We have not pursued this (arXiv:2004.09765).

+
+

image

This Euler formula represents the distribution of a group of numbers that are positioned at regular intervals on a straight line to each other. Riemann later extended the definition of zeta(s) to all complex numbers (except the simple pole at s=1 with residue one). Euler's product still holds if the real part of s is greater than one. Riemann derived the functional equation of zeta function.

+
+ + Danger +
+
+

The Riemann zeta function has the trivial zeros at -2, -4, -6, … (the poles of gamma(s/2)). Using the Euler product (with the functional equation) it is easy to show that all the other zeros are in the critical strip of non-real complex numbers with 0 < Re(s) < 1, and that they are symmetric about the critical line Re(s)=1/2. The unproved Riemann hypothesis is that all of the nontrivial zeros are actually on the critical line (primes.utm.edu).

+
+

image

If both of the above statements are true then mathematically this Riemann Hypothesis is proven to be incorrect because it only applies to certain cases or limitations. So first of all the basis of the Riemann Hypothesis has to be considered.

Riemann hypothesis,

Sehr leider Herr Riemann. Leute können den Fall immer noch nicht lösen...

On the other hand, the possibility of obtaining the function of the distribution of prime numbers shall go backwards since it needs significant studies to be traced. Or may be start again from the Euleur Function.

Euler's identity

Freeman Dyson discovered an intriguing connection between quantum physics and Montgomery's pair correlation conjecture about the zeros of the zeta function which dealts with the distribution of primes.

+
+ + Note +
+
+

This scale shows that the Mathematical Elementary Cell 30 (MEC30) standard unites the mathematical and physical results of 1972 by the mathematician Hugh Montgomery and the physicist Freeman Dyson and thus reproduces energy distribution in systems as a path plan more accurately than a measurement (Google Patent DE102011101032A9).

+
+

Euler's identity

Both assumptions assume a symmetric distribution of prime numbers with equal axial lengths from a middle zero axis = 15. With the MEC30 one is now able to determine the distribution of primes in a given number space. This finaly bring us to the equation of Euler's identity.

+
+ + Note +
+
+

Euler’s identity is named after the Swiss mathematician Leonhard Euler. It is a special case of Euler’s formula e^ix = cos x + i sin x when evaluated for x = π. (Wikipedia).

+
+

image

The finiteness position of middle zero axis = 15 by the said MEC30 opens up the possibility of accurately representing the self-similarity based on the distribution of True Prime Pairs so that all number would belongs together with their own identitities.

image.

+
+ + Tip +
+
+

Euler’s identity is considered to be an exemplar of deep mathematical beauty as it shows a profound connection between the most fundamental numbers. Three (3) of the basic arithmetic operations occur exactly once each: addition, multiplication, and exponentiation (Wikipedia).

+
+

Nothing is going to be easy about the nature of prime numbers but they demonstrably congruent to something organized. Let's discuss starting with the addition zones.


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Partition function

Based on the finiteness position of middle zero axis = 15 we have defined our 19 vs 18 Scenario contained in three (3) groups of five (5) of integer number partitions. Each groups represents the three (3) basic arithmetic operations of Euler's identity.

Euler's identity is often cited as an example of deep mathematical beauty. Three (3) of the basic arithmetic operations occur exactly once each: addition, multiplication, and exponentiation (Wikipedia).

---+-----+-----
+ 1 | 1   | 5    🡰--19--
+---+-----+-----        |
+ 2 | 6   | 8           | 
+---+-----+-----        |
+ 3 | 9   | 26    --289-¤-exponentiation zone
+---+-----+-----        |
+ 4 | 27  | 28          |
+---+-----+-----        |
+ 5 | 29  | 29   ➤--18--
+---+-----+-----
+ 6 | 30  | 31   🡰--18--
+---+-----+-----        |
+ 7 | 32  | 44          |
+---+-----+-----        |
+ 8 | 45  | 46    --329-¤-multiplication zone
+---+-----+-----        |
+ 9 | 47  | 49          |
+---+-----+-----        |
+10 | 50  | 50   ➤--17--
+---+-----+-----         
+11 | 51  | 53   🡰--17--
+---+-----+-----        |
+12 | 54  | 59          |    
+---+-----+-----        |
+13 | 60  | 82    --168-¤-addition zone
+---+-----+-----        |
+14 | 83  |{102}        |
+---+-----+-----        |
+15 |{103}| 110  ➤--16--
+---+-----+-----
+

The five (5) of integer number partitions shows a profound connection between the most fundamental numbers in mathematics as it also links the five (5) fundamental mathematical constants:

(1) The number 1, the multiplicative identity,
(2) The number i, the imaginary unit of the complex numbers.
image
(3) The number π = 3.1415…, the fundamental circle constant, and

Pi-unrolled-720

(4) The number e = 2.718…, also known as Euler's number, which occurs widely in mathematical analysis.

image

(5) Furthermore, the equation is given in the form of an expression set equal to zero, the number 0, as the additive identity which is common practice in several areas of mathematics.

Euler's identity is a special case of Euler's formula eix = cos x + i sin x when evaluated for x = π, In addition, it is directly used in a proof that π is transcendental, which implies the impossibility of squaring the circle. (Wikipedia)

Euler's identity

It is stated by DE102011101032A9 that using Euler's identity, the MEC30 standard is more accurately than a measurement. The distribution of prime numbers is a central point of study in number theory. So let's start from there.

Rational Objects

In number theory, the partition functionp(n) represents the number of possible partitions of a non-negative integer n. Integers can be considered either in themselves or as solutions to equations (Diophantine geometry).

The central problem is to determine when a Diophantine equation has solutions, and if it does, how many. Two examples of an elliptic curve, that is, a curve of genus 1 having at least one rational point. Either graph can be seen as a slice of a torus in four-dimensional space (Wikipedia).

Number theory

One of the main reason is that one does not yet have a mathematically complete example of a quantum gauge theory in four-dimensional space-time. It is even a sign that Einstein's equations on the energy of empty space are somehow incomplete.

Throughout his life, Einstein published hundreds of books and articles. He published more than 300 scientific papers and 150 non-scientific ones. On 5 December 2014, universities and archives announced the release of Einstein's papers, comprising more than 30,000 unique documents (Wikipedia).

default

Dyson introduced the concept in the context of a study of certain congruence properties of the partition function discovered by the mathematician Srinivasa Ramanujan who the one that found the interesting behaviour of the taxicab number 1729.

In number theory and combinatorics, rank of a partition of a positive integer is a certain integer associated with the partition meanwhile the crank of a partition of an integer is a certain integer associated with that partition (Wikipedia).

Rank_of_a_partition

Young tableaux were introduced by Alfred Young, a mathematician at Cambridge University, in 1900. They were then applied to the study of the symmetric group. Their theory was further developed by many mathematicians, including W. V. D. Hodge

The rank of a partition

By our project, this partition stands as the prime identity. The tabulation below shows the 2nd prime identity where the 20 out of the largest part = 21 goes to rank = 10 via crank = 20-11 = 9. These 10 and 9 are associated with the 19th prime identitity.

           largest part = 21 → 11+13+12 = 36  →  MEC30
+                        ↓                      |
+---+-----+-----+-----+-----+                   ↓
+ 1 | 19  | 1   | 20  | 21  |-------------------|-----
+---+-----+-----+-----+-----+                   ↓     |
+ 2 | 18  | 21  | 39  | 60  |-------------------      |
+---+-----+-----+-----+-----+                   |     |
+ 3 |{63} | 40  | 103 | 143 |-------------      |     |
+---+-----+-----+-----+-----+             |     |     |
+ 4 | 37  | 104 | 141 | 245 |-------      |     |     |
+---+-----+-----+-----+-----+       |     |     |     |
+ 5 | 10* | 142 | 152 | 294 |- 11** | 13  | 12  | 12  | 18
+---+-----+-----+-----+-----+       |     |     |     |
+ 6 | 24  | 153 | 177 | 332 |-------      |     |     |
+---+-----+-----+-----+-----+             |     |     |
+ 7 | 75  | 178 | 253 | 431 |-------------      |     |
+---+-----+-----+-----+-----+                   |     |
+ 8 | 30  | 254 | 284 | 538 |-------------------      |
+---+-----+-----+-----+-----+                   ↓     |
+ 9 | 1   | 285 | 286 | 571 |-------------------|-----
+===+=====+=====+=====+=====+                   ↓
+45 | 277 |                      ← 11+13+12=36 ←  MEC30
+---+-----+                                     |
+ ↑
+Note:
+10* stands as the central rank
+11** stands as the central parts
+

By having a total of 571, the congruence properties is composed in to the last of 20/10 = 2 numbers of 285 and 286 throughout the cumulative sum of 45 objects that are forming the 10x11=110 objects of 18th prime identity.

(71+6) + (43-6) = 77 + 37 = 11x7 + 30+13-6

Factorization

This scheme of 19 vs 18 stands as our 19 vs 18 Scenario while the tensor of 110 objects are obtained by observing centralizing the first 20 to 10 objects from polarizing of 2x11x13=286 objects out of the central pair 11 and 13 within True Prime Pairs.

The crank of a partition

In linear algebra, this tensor is known as eigenvector, a nonzero vector that changes at most by a scalar factor when that linear transformation is applied to it. The corresponding eigenvalues is the factor by which the eigenvector is scaled.

In this shear mapping the red arrow changes direction, but the blue arrow does not. The blue arrow is an eigenvector of this shear mapping because it does not change direction, and since its length is unchanged, its eigenvalue is 1 (Wikipedia).

File:Mona_Lisa_eigenvector_grid

Dyson discovered that the eigenvalue of these matrices are spaced apart in exactly the same manner as Montgomery conjecture of the nontrivial zeros of the zeta function. Means it also depends on Riemann hypotesis which is still in a major issue. Similar case left science today many unsolved problems that associated with.

Eigenvectors_of_a_linear_operator

The rank cannot be used to prove the theorem combinatorially, Dayson wrote an arithmetical coefficient similar to, but more recondite than, the rank of a partition; and called this hypothetical coefficient as the "crank" of the partition.

The values p(1),,,,,,p(8)} of the partition function (1, 2, 3, 5, 7, 11, 15, and 22) can be determined by counting the Young diagrams for the partitions of the numbers from 1 to 8 (Wikipedia).

image

Since 286 has the prime factors of 11 and 13 so it is also the product of the middle two numbers of True Prime Pairs. Therefore, the eigenvalue of the 11 parts also determines the equal size rotation of crank partitions of 13 prime identity.

$True Prime Pairs:
+(5,7), (11,13), (17,19)
+ 
+layer | node | sub |  i  |  f
+------+------+-----+----------
+      |      |     |  1  |     ◄-----------------------------
+      |      |  1  +-----+                                   |
+      |  1   |     |  2  | (5)                               |
+      |      |-----+-----+                                   |
+      |      |     |  3  |                                   |
+  1   +------+  2  +-----+----                               |
+      |      |     |  4  |                                   |
+      |      +-----+-----+                                   |
+      |  2   |     |  5  | (7)                               |
+      |      |  3  +-----+                                   |
+      |      |     |  6  |                                   |
+------+------+-----+-----+------                             |
+      |      |     |  7  |                                   |
+      |      |  4  +-----+
+      |  3   |     |  8  | (11) ◄-- 11 parts of rank 10 = 110
+      |      +-----+-----+
+      |      |     |  9  |                                   |
+  2   +------|  5  +-----+-----                              |
+      |      |     |  10 |                                   |
+      |      |-----+-----+                                   |
+      |  4   |     |  11 | (13) ◄----------------------------
+      |      |  6  +-----+
+      |      |     |  12 |
+------+------+-----+-----+-------------------- (36)
+      |      |     |  13 |
+      |      |  7  +-----+
+      |  5   |     |  14 | (17) ◄----------------------------
+      |      |-----+-----+                                   |
+      |      |     |  15 | 0 axis ◄-- partitions of the (13) ◄-- rotation
+  3   +------+  8  +-----+-----                              |
+      |      |     |  16 |      ◄----------------------------
+      |      |-----+-----+
+      |  6   |     |  17 | (19)
+      |      |  9  +-----+
+      |      |     |  18 |
+------|------|-----+-----+-------------------- (72)
+

Unfortunately the rotation of this eigenvalues deals with four-dimensional space-time which was already a big issue. Speculation is that the unfinished book of Ramanujan's partition, series of Dyson's solutions and hugh of Einstein's papers tend to solve it.

On the other hand, one does not yet have a mathematically complete example of a quantum gauge theory in 4D Space vs Time, nor even a precise definition of quantum gauge theory in four dimensions. Will this change in the 21st century? We hope so! (Clay Institute's - Official problem description).

Geometry of 4D rotations

More generally, the central problem is to determine when an equation in n-dimensional space has solutions. However at this point, we finaly found that the prime distribution has something to do with the subclasses of rank and crank partitions.

The subclasses of each partitions

Dayson introduced the idea of rank of a partition to accomplish the task he set for himself. He made the following conjectures which were proved in 1954 by Peter Swinnerton-Dyer an English mathematician specialising in number theory.

Dayson's friend the neurologist and author Oliver Sacks said: "A favourite word of Freeman's about doing science and being creative is the word subversive (tending or intending to subvert or overthrow, destroy, or undermine an established or existing system, especially a legally constituted or a set of beliefs), and he's done that all his life (Wikipedia).

N(0, 5, 5n + 4) = N(1, 5, 5n + 4) = N(2, 5, 5n + 4) = N(3, 5, 5n + 4) = N(4, 5, 5n + 4)
+N(0, 7, 7n + 5) = N(1, 7, 7n + 5) = N(2, 7, 7n + 5) = . . . = N(6, 7, 7n + 5)
+

The concepts of rank and crank can both be used to classify partitions of certain integers into subclasses of equal size. The two concepts produce different subclasses of partitions. This is illustrated in the following two tables.

Although not in the form that Dayson have defined, it was found that the last problem on which Ramanujan worked on before his death was cranks. Berndt and his coauthors have given substantial evidence that Ramanujan knew about the function (Wikipedia).

default

The subclasses of partitions develops characters similar to the distribution of prime numbers. This results in a fundamental causal relation to the primes, systemically the products are entered into the position system.

The approach taken is to think of the solutions of an equation as a geometric object. For example, an equation in two variables defines a curve in the plane. More generally, an equation, or system of equations, in two or more variables defines a curve, a surface or some other such object in n-dimensional space (Wikipedia).

Dyson has many series of formal solution. An explicitly time-dependent Schrödinger equation by iteration, and the time-ordering operator {T} as entity of basic importance of quantum mechanics, are also named after Dyson .

Relation to the primes

The Ulam spiral or prime spiral is a graphical depiction of the set of prime numbers, devised by mathematician Stanisław Ulam in 1963 and popularized in Martin Gardner's Mathematical Games column in Scientific American a short time later.

Both Ulam and Gardner noted that the existence of such prominent lines is not unexpected, as lines in the spiral correspond to quadratic polynomials, and certain such polynomials, such as Euler's prime-generating polynomial x²-x+41, are believed to produce a high density of prime numbers. Nevertheless, the Ulam spiral is connected with major unsolved problems in number theory such as Landau's problems (Wikipedia).

prime Sacks_spiral

According to the results of Princeton University USA in 1972, the distribution of the prime numbers shows in the Riemann zeta function between the position of its complex zeros and middle axis is identical with the rotation curve of energy distribution.

37 + 12 = 61 - 12 = 49 = 7 x 7 = d(13)

image

In the second opposing member, the position 19 in the second term gives a redundant value of the template 7 of 7 × 7 = 49. The opposite prime position 11 as a prime number is now forced to determine a new axis-symmetrical zero position.

Note that when 77 contains ‘Lucky 7 and 11' as prime factors it is also the product of the middle two numbers of this sequence (11*7 = 77) (Prime Curios!).

MEC30 Localization

When the subclasses of partitions are flatten out into a matrix, you want to take the Jacobian of each of a stack of targets with respect to a stack of sources, where the Jacobians for each target-source pair are independent .

It's possible to build a Hessian matrix for a Newton's method step using the Jacobian method. You would first flatten out its axes into a matrix, and flatten out the gradient into a vector (Tensorflow).

Batch Jacobian

This idea was done as the earliest in 1960s by Swinnerton-Dyer using the University of Cambridge Computer Laboratory to get the number of points modulo p (denoted by Np) for a large number of primes p on elliptic curves whose rank was known.

From these numerical results the conjecture predicts that the data should form a line of slope equal to the rank of the curve, which is 1 in this case drawn in red in red on the graph (Wikipedia).

The Birch and Swinnerton-Dyer conjecture

It is stated that Np for a curve E with rank r obeys an asymptotic law and is still remain unsolved. Thus it would mean that using Euler's identity to get a definite pattern of prime distribution is still a long way to go.


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\ No newline at end of file diff --git a/exponentiation/folder18/file03.html b/exponentiation/folder18/file03.html new file mode 100644 index 00000000..7cb23f13 --- /dev/null +++ b/exponentiation/folder18/file03.html @@ -0,0 +1,69 @@ + Irrational Partitions · ₠Quantum

Irrational Partitions

This section is discussing the 200 residual objects that goes irrational along the pattern within the 4th dimension from the 2nd to 3rd prime identity in regards to the three (3) zones where each represents the basic arithmetic operations of Euler's identity.

---+-----+-----
+ 1 | {1} | {9}
+---+-----+-----
+ 2 | 10  |{32}
+---+-----+-----
+ 3 | 33  | 63  
+---+-----+-----
+ 4 |{64} | 101 
+---+-----+-----
+ 5 |{102}| 120 
+---+-----+-----
+ 6 | 121 |{189}
+---+-----+-----
+ 7 | 190 |{200}
+---+-----+-----
+

There are some mathematical shape of this residual objects. Torus is basically a donut shape, which has the property of of having variable Gaussian curvature. Some parts of the surface has positive curvature, others zero, others negative.

The blue parts of the torus above have positive curvature, the red parts negative and the top grey band has zero curvature. If our 3 dimensional space was like the surface areas of a 4 dimensional torus, the parts would have different angle sums.

Torus

These are two more bizarre shapes with strange properties. Mobius strip only has one side, if you start anywhere on its surface and follow the curvature round you will eventually return to the same place having travelled on every part of the surface.

Mobius

The Klein bottle is in someways a 3D version of the Mobius strip and even though it exists in 3 dimensions, to make a true one you need to "fold through" the 4th dimension.

Klein bottle

The torus is actually one of the current theories of the shape of universe while the klein bottle is shape of the idea in theoretical physics called string theory that reality is made up of infinitesimal vibrating strings, smaller than atoms, electrons or quarks

Finally, there exist scenarios in which there could actually be more than 4D of spacetime. String theories require extra dimensions of spacetime for their mathematical consistency. In string theory, spacetime is 26-dimensional, while in superstring theory it is 10-dimensional, and in M-theory it is 11-dimensional (Wikipedia).

String theory

These are situations where theories in two or three spacetime dimensions are no more useful. This classification theorem identifies several infinite families of groups as well as 26 additional groups which do not fit into any family.

The three (3) zones

In order to describe real physical phenomena using string theory, one must therefore imagine scenarios in which these extra dimensions would not be observed in experiments so it would become the irrational partitions.

[(6 + 6) x 6] + [6 + (6 x 6)] = 72 + 42 = 71 + 42 + 1 = 114 objects

layer | node | sub |  i  |  f                               
+------+------+-----+---------- 
+      |      |     |  1  | -----------------------  71 = 72-1
+      |      |  1  +-----+                        |
+      |  1   |     |  2  | (5)                    |
+      |      |-----+-----+                        |
+      |      |     |  3  | ---------              |
+  1   +------+  2  +-----+----      |             |
+      |      |     |  4  |          5x ---        |
+      |      +-----+-----+          |     |       |
+      |  2   |     |  5  | (7) -----      |       |
+      |      |  3  +-----+                |       |
+289+11=300   |     |  6  |                |       |
+------+------+-----+-----+----- 72 x 6   7x --- 11x = 77 (rational)
+      |      |     |  7  |                |       |
+      |      |  4  +-----+                |       |
+      |  3   |     |  8  | (11)  ---      |       |
+      |      +-----+-----+          |     |       |
+      |      |     |  9  |          2x ---        |
+  2   +------|  5  +-----+-----     |             |
+      |      |     |  10 | ---------              |
+      |      |-----+-----+                        |
+      |  4   |     |  11 | (13) ------------------  71 = 72-1
+      |      |  6  +-----+
+329+71=400   |     |  12 |------------------------  70 = 72-2
+------+------+-----+-----+
+      |      |     |  13 |
+      |      |  7  +-----+
+      |  5   |     |  14 | (17) ◄---------------------------
+      |      |-----+-----+
+      |      |     |  15 | ◄-- 42 x 6 partitions of 13 (irrational)
+  3   +------+  8  +-----+----- 
+      |      |     |  16 |      ◄---------------------------
+      |      |-----+-----+
+      |  6   |     |  17 | (19)
+      |      |  9  +-----+
+168+32=200   |  |  |  18 |------------------------  68 = 72-4
+------|------|--|--+-----+
+       900 -----
+

This irrational parts took the finiteness position of middle zero axis = 15 on our 19 vs 18 Scenario contained in three (3) groups of five (5) of integer number partitions where each groups represents the three (3) basic arithmetic operations of Euler's identity.

329 + 109 + 109 + 71 = 329 + 289 = 618 = 1000/1.618 = 1000/φ

default

The 200 objects that goes from the 2nd to 3rd prime identity would take position as multiplication zone by given of 100x2=200 which is then be used in turn to 100+2=102 (addition zone) and 100^2=10000 (exponentiation zone)

2 + 60 + 40 = 102

1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+

The Schrödinger equation is a linear partial differential equation that governs the wave function of a quantum mechanics. It is a key result in quantum-mechanical system, and its discovery was a significant landmark in the development of the subject.

Complex plot of a wave function that satisfies the nonrelativistic Schrödinger equation with V = 0. In other words, this corresponds to a particle traveling freely through empty space (Wikipedia).

Wavepacket-a2k4-en

The modular function

Consequently, we only need to fold a 30's cycle as in the illustration 7 so that we can identify the opposite prime positions that form their specific pairs in a specific convolution.

These two (2) exponent are acting as the exchange zones of the MEC30 behaviour of the other two operators. This interactions is managed in between 4 identities of (26 to 29) and 2 identities (30 to 31) by means of Triangular waves.

MEC30

A seemingly unrelated construction is the j-function of number theory. This object belongs to a special class of functions called modular functions, whose graphs form a certain kind of repeating pattern.

Although this function appears in a branch of mathematics that seems very different from the theory of finite groups, the two subjects turn out to be intimately related (Wikipedia).

Monstrous moonshine

We propose a new higher dimensional version of the McKay correspondence which enables us to understand the Hodge theory assigned to singular Gorenstein varieties by physicists, and so-called Higgs bundles.

Hodge theory can be extended to cohomology with coefficients in nonabelian groups between flat vector bundles which, by the Riemann-Hilbert correspondence, are the same as local systems (Hodge Theory in String Theory)

Hodge conjecture

Our results lead to the conjecture that string theory indicates the existence of some new cohomology theory for algebraic varieties with Gorenstein singularities.


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\ No newline at end of file diff --git a/exponentiation/folder18/file04.html b/exponentiation/folder18/file04.html new file mode 100644 index 00000000..ebdeebc8 --- /dev/null +++ b/exponentiation/folder18/file04.html @@ -0,0 +1,152 @@ + Object Orientation · ₠Quantum

Object Orientation

Here we are going to discuss the concept of lagging and leading scheme on DNA System using four-dimensional space (4D). A mathematical extension of the concept of three-dimensional space (3D) originated by 43 out of 89 objects of bilateral 9 sums.

---+-----+-----
+ 1 | {1} |{43}
+---+-----+-----
+ 2 | 44  |{57}
+---+-----+-----
+ 3 | 58  | 59
+---+-----+-----
+ 4 | 60  | 104
+---+-----+-----
+ 5 | 105 |{115}
+---+-----+-----
+ 6 |{116}| 134
+---+-----+-----
+ 7 | 135 | 162
+---+-----+-----
+ 8 | 163 | 175
+---+-----+-----
+ 9 | 176 |{176}
+---+-----+-----
+

The geometry of four-dimensional space is much more complex than that of three-dimensional space, due to the extra degree of freedom. However in our case this 43 objects has excatly a finite fraction of four (4) axis dimensions to MEC30.

default

(114/2)! = 57! = 1653 » 1653 / 57 = 29

--------+
+        | ⅓
+        +---   } ⅔
+ Case A | ⅓
+        +---------
+        | ⅓      |
+-----------------+  Φ = ⅔
+        | ⅓      |
+        +---------
+ Case B | ⅓
+        +---   } ⅔
+        | ⅓
+---------
+

9 + 19 + 29 = 28 + 29 = 57

P7:(142857)
+
+   #  |  A   |  B   | ∑
+------+------+------+-----
+  {1} |      |      |
+------+      |      |
+ ...  |  28  |  29  | 57
+------+      |      |
+ {57} |      |      |
+------+------+------+-----
+  58  |      |      |
+------+      |      |
+  ... |  29  |  28  | 57
+------+      |      |
+ 114  |      |      |
+------+------+------+-----
+      |  57  |  57  | 114
+

Comparatively, four-dimensional space has an extra coordinate axis, orthogonal to the other three, which is usually labeled w to describe the two additional cardinal directions of up toward and down from, respectively.

The set of points in Euclidean 4-space having the same distance R from a fixed point P0 forms a hypersurface known as a 3-sphere where R is substituted by function R(t) with t meaning the cosmological age of the universe. Growing or shrinking R with time means expanding or collapsing universe, depending on the mass density inside (Wikipedia).

Clifford-torus

By deploying containers on Compute Engine, you can simplify app deployment while controlling four dimensional space. You can configure a virtual machine (VM) instance or an instance template to deploy and launch a Docker container.

Balanced Prime

The initial objects will be a formation of a double helix driven by vectors 71 and 68 based on the arrangement of prime numbers on a cube of 10x10x10 or 1000 to the Golden Ratio.

π(10x10x10) + 10x10x10/Φ = π(1000) + 1000/Φ = 168 + 618 = (7x71) + (17x17) = 786

image

1/7 = 0,142857142857142857142857.. infinity

default

By the prime numbers this polarizing between the objects and its tensors is identified by the 157 as the 19+18=37th prime. This 157 is a balanced prime of two (2) primes of 151 + 163 = 314 = 100 x π by which the 100 is standing as the square of 10x10 out of the central objects of ten (10) while the π is one of the constant of Euler's identity.

The number 157 is the 18+19=37th prime number, a balanced prime, because the arithmetic mean of those primes yields 157. The next prime is 163 and the previous prime is 151, with which 157 forms a prime triplet (Wikipedia).

By this square correlation between natural and prime numbers then the 571 would be separated by the 100 to 500 and 71 and finally by the form of (2,10) the 500 goes to 50 while 71 is polarized to 71x2=142 and 177 as shown on the table.

(10/2)π = 157 ⇄ (10^2)¹ + 11x7 = 177 = 286 - 109

interpolation

So by the above explanation of this 157's behaviour it is now left the question of where the tensor of 571 by the two (2) numbers of 285 and 286 is going. That is the imajinary part (i) of Euler's identity has something to do with the zeta function.

Encapsulation Scenario

This 4D concept is conducted to get 1000 prime objects of 3rd layer within four (4) times interaction of triangular waves between 26 and 28th prime identities starting from 11x2=22, 22x2=44, 44x2=88 that leads to 88x2=176 objecs of 4th prime identity.

4 x 22 of 88 rows = 4 x 528 = 2112 elements = the index of 1000th prime

id: 26	
+---+-----+-----+-----+-----+	
+ 1 |   5 |   1 |  6  |   7 |----------------------------	
+---+-----+-----+-----+-----+                            |	
+ 2 |   2 |   7 |  9  |  16 |----------------------      |	
+---+-----+-----+-----+-----+                      |     |	
+ 3 |  58 |  10 |  68 |  78 |----------------      |     |	
+---+-----+-----+-----+-----+                |     |     |	
+ 4 |  35 |  69 | 104 | 173 |----------      |     |     |	
+---+-----+-----+-----+-----+          |     |     |     |	
+ 5 | {17}| 105 | 122 |{227}|          |     |     |     |	
+---+-----+-----+-----+-----+- Cross  {17}Δ26|43Δ30|13Δ17|30 ----	
+ 6 | {17}|{123}| 140 | 263 |          |     |     |     |       |	
+---+-----+-----+-----+-----+          |     |     |     |       |	
+ 7 |  18 | 141 | 159 | 300 |----------      |     |     |       |	
+---+-----+-----+-----+-----+                |     |     |       |	
+ 8 |  15 | 160 | 175 | 335 |----------------      |     |       |	
+---+-----+-----+-----+-----+                      |     |       |	
+ 9 |  15 | 176 | 191 | 367 |----------------------      |       |	
+---+-----+-----+-----+-----+                            |       |	
+10 |  35 |{192}|{227}| 419 |----------------------------        |  	
+---+-----+-----+-----+-----+                                    |	
+                                                                |	
+id: 27                                                {26}      |	
+                                                        |       |	
+---+-----+-----+-----+-----+                            |       |	
+ 1 |   5 |   1 |   6 |   7 |----------------------    {1+7}     |	
+---+-----+-----+-----+-----+                      |     |       |	
+ 2 |   7 |   7 |  14 |  21 |----------------      |     |       |	
+---+-----+-----+-----+-----+                |     |   {17}      |	
+ 3 |  29 |  15 |  44 |  59 |----------      |     |     |       |	
+---+-----+-----+-----+-----+          |     |     |     |       |	
+ 4 |   8 |  45 |  53 |  98 |          |     |     |     |       |	
+---+-----+-----+-----+-----+- 4xMEC30 29    2    18 -- Cross -- MEC30	
+ 6 |   4 |  54 |  58 | 112 |          |     |     |     |       |	
+---+-----+-----+-----+-----+          |     |     |     |       |	
+ 7 |   - |  59 |  59 | 118 |----------      |     |     |       |	
+---+-----+-----+-----+-----+                |     |   {17}      |	
+ 7 |   9 |  60 |  69 | 129 |----------------      |     |       |	
+---+-----+-----+-----+-----+                      |     |       |	
+ 8 |  23 |  70 |  93 | 163 |----------------------    {1x7}     |	
+---+-----+-----+-----+-----+                            |       |	
+                                                        |       |	
+id: 28                                                {28}      |                                                       	
+                                                                |	
+---+-----+-----+-----+-----+                                    |	
+ 1 |   5 |  1  |  6  |   7 |----------------------------        |	
+---+-----+-----+-----+-----+                            |       |	
+ 2 |   6 |  7  | 13  |  20 |----------------------      |       |	
+---+-----+-----+-----+-----+                      |     |       |	
+ 3 |   7 | 14  | 21  |  35 |----------------      |     |       |	
+---+-----+-----+-----+-----+                |     |     |       |	
+ 4 |   6 | 22  | 28  |  50 |----------      |     |     |       |	
+---+-----+-----+-----+-----+          |     |     |     |       |	
+ 5 |  13 | 29  | 42  |  71 | Δ13     Δ11   Δ7     0     0 --=--- 	
+---+-----+-----+-----+-----+          |     |     |     |	
+ 6 |  17 | 43  | 60  | 103 |----------      |     |     |	
+---+-----+-----+-----+-----+                |     |     |	
+ 7 |  14 | 61  | 75  | 136 |----------------      |     |	
+---+-----+-----+-----+-----+                      |     |	
+ 8 |   6 | 76  | 82  | 158 |----------------------      |	
+---+-----+-----+-----+-----+                            |	
+ 9 |   5 | 83  | 88  | 171 |----------------------------	
+---+-----+-----+-----+-----+	
+

This scheme could be happen by The Encapsulation behaviour of 28 which is the natural number following 27 preceding 29 and depicted as 28 balls arranged in a triangular pattern with the number of layers of 7 which lead to the concept of Gematria.

Twenty-eight is a composite number, its proper divisors being 1, 2, 4, 7, and 14. It is the only known number that can be expressed as a sum of the first nonnegative (or positive) integers ( 0 + 1 + 2 + 3 + 4 + 5 + 6 + 7) and a sum of the first nonprimes ( 1 + 4 + 6 + 8 + 9 ), and it is unlikely that any other number has this property (Wikipedia).. triangular pattern with the number of layers of 7

However there was a wide discussion stating that Gematria is NOT numerology. impacting a loss of science principal on prime interaction such as in DNA System, which occurs at a mismatch, is said to trigger a shift in the balance, for the binding of the template-primer, from the polymerase, to the exonuclease domain. So it shall use a method that combines data and code.

Encapsulation allows developers to present a consistent and usable interface which is independent of how a system is implemented internally. As one example, encapsulation can be used to hide the values or state of a structured data object inside a class, preventing direct access to them by clients in a way that could expose hidden implementation details or violate state invariance maintained by the methods (Wikipedia).

Encapsulation is key concept in object-oriented programming (OOP) defined as a way to restrict the direct access to components of an object that users cannot access state values for all of the variables of a particular object. So let's discuss it first.

Golden Ratio

So it is converting all residual objects out of the prime recycling of Riemann Zeta in to those three (3) basic arithmetic operations of Euler's identity as well the Fibonacy constant (φ) to Euler's number (e). Thus none of residual is neglected by an assumption.

This behaviour would come to the feature of golden ratio. However it is not stand as a basic rule but as an impact of 329's vs 289's layers. That is also the reason why we could only see the three (3) digits of 618 out of the Fibonaci constant.

φ = 1.618 = Fibonaci = Golden Ratio

Plottng 40th prime scheme of the three (3) layers with all the features of 3rd prime identity as explained above then they would form their recycing through the three (3) times bilateral 9 sums as shown below.

89^2 - 1 = 7920 = 22 x 360 = 66 x 120 = (168 - 102) x 120

default

layer | node | sub |    i     |   f
+------+------+-----+----------+-----+-----+-----+                                    ---
+      |      |     |    1,2:1 |   1 |  30 |  40 | 71 (2,3) ‹-------------------       |
+      |      |  1  +----------+-----+-----+-----+                              |      |
+      |  1   |     |        2 |                                                |      5¨  encapsulation
+      |      |-----+----------+            -----------------------------       |      |
+      |      |     |        3 |           |                             |      |      |
+  1   +------+  2  +----------+----       |       LAGGING SCHEME        |      |     ---
+      |      |     |        4 |           |    (Exponentiation Zone)    |      |      |
+      |      +-----+----------+           |                             |      |      |
+      |  2   |     |        5 |           ------------------------------       |      7¨  abstraction
+289   |      |  3  +----------+                                                |      |
+|     |      |     |        6 |  ‹---------------------------- Φ               | {6®} |
+------+------+-----+----------+-----+-----                                     |     ---
+      |      |     |     11:7 |   5 |   9 |  14 (20) --------› ¤               |      |
+      |      |  4  +----------+-----+-----+-----+                              |      |
+      |  3   |     |     12:8 |   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+      |      +-----+----------+-----+-----+-----+                       |      |      |
+      |      |     |     13:9 |   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+  2   +------|  5  +----------+-----+-----+-----+                       |      |     ---
+      |      |     |    14:19 |   9 |  60 |  40 | 109 (28) -------------       |      |
+      |      |-----+----------+-----+-----+-----+                              |      |
+      |  4   |     | 15,18:11 |   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+      |      |     |    20:13 |  90 |  90 (38) ‹-------------- ¤                      |
+      |      |  7  +----------+-----+                                                 |
+      |  5   |     |       14 |            -----------------------------             17¨  class
+      |      |-----+----------+           |                             |             |
+      |      |     |       15 |           |       LEADING SCHEME        |             |
+  3   +------+  8  +----------+-----      |    (Multiplication Zone)    |            ---
+      |      |     |       16 |           |                             |             |
+      |      |-----+----------+-----+      -----------------------------              |
+      |  6   |     |    28:17 | 100 |                                                19¨  object
+168   |      |  9  +----------+-----+                                                 |
+|     |      |     |    29:18 | 50  | 50(68) ---------> Δ18                           |
+------|------|-----+----------+-----+                                                ---
+

These three (3) times bilateral 9 sums will lead to 168 vs 618 exponents between 68 and 69 objects of 50 and 27th prime identity that simulate the X/Y-genes reproduction of human cromosomes to the repository assignment of our project.

Registry unit

You can see that two distinct pressure zones are forming and that the spiral pattern expected from lid-driven cavity flow is beginning to form. Experiment with different values of nt to see how long the system takes to stabilize.

12 Steps to Navier-Stokes

It is a relationship between the rate of acceleration of liquids (the increase in their speed) and the force that acts on them, widely used in moving air vehicles, and is considered the most important equation used in the application of aircraft movement.

Navier–Stokes Equation

It is considered one of the most important equations in physics. Now let's analyze how we could say this structure can be used for switching the workflow between Windows and Linux.


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\ No newline at end of file diff --git a/exponentiation/folder18/file05.html b/exponentiation/folder18/file05.html new file mode 100644 index 00000000..e525adf6 --- /dev/null +++ b/exponentiation/folder18/file05.html @@ -0,0 +1,92 @@ + Bonding Position · ₠Quantum

Bonding Position

Yet another related dimension of symmetry, when you combine the terminating digit symmetries described above, capturing three (3) rotations of 120 around the sieve in their actual sequences, you produce the ultimate combinatorial symmetry

---+-----+-----
+ 1 | {1} |{11}
+---+-----+-----
+ 2 | 12  | 32
+---+-----+-----
+ 3 | 33  |{50}
+---+-----+-----
+ 4 | 51  |{86}
+---+-----+-----
+ 5 | 87  | 108
+---+-----+-----
+ 6 |{109}| 120
+---+-----+-----   
+

In quantum mechanics, Schrödinger's cat is a thought experiment that illustrates a paradox of quantum superposition.

In the thought experiment, a hypothetical cat may be considered simultaneously both alive and dead, while it is unobserved in a closed box, as a result of its fate being linked to a random subatomic event that may or may not occur (Wikipedia).

Schrodinger's Cat

2x10 + 9 = 20 + 9 = 29

-----+-----+-----+-----+-----+
+  1' |  1  | {2} |  3  |  4  | 4¤
+     +-----+-----+-----+-----+
+  2' |  5  |  6  |  7  |  8  | 4¤
+     +-----+-----+-----+-----+
+  3' |  9  |{10} |  2¤ (M dan F)
+     +-----+-----+-----+      
+  4' | 11  | 12  | 13  | 3¤  <----------- d(11) = d(17+12)= d(29)
+     +-----+-----+-----+-----+                                        
+  5' | 14  | 15  | 16  | 17  | 4¤    
+     +-----+-----+-----+-----+
+  6' | 18  | 19  |{20} | 3¤
+-----+-----+-----+-----+-----+-----+-----+-----+-----+-----+
+  ∑  | 21  | 22  | 23  | 24  |{25} | 26  | 27  | 28  | 29  | 9¤
+-----+-----+-----+-----+-----+-----+-----+-----+-----+-----+
+     |----------------------- {9'} ------------------------|
+

Primzahlentechnologie Einleitung. Wie Geht Primzahlen Technologie. MEC 30 - Mathematical Elementary Cell 30: Die Theorie der Gravitation ist die Mathematik des Universums and MEC30.2 Method for factorization

Measuring with your limb scale is a measurement that does not intervene in the system, so also possible in the idle state of the system. Thus, the MEC 30 results in a measurement method for the energy flow in a system in which the route plan or flow plan of the energy is obtained (German Patent DE102011101032 and DE102014016656).

MEC 30

The Prime Spiral Sieve possesses remarkable structural and numeric symmetries. For starters, the intervals between the prime roots (and every subsequent row or rotation of the sieve) are perfectly balanced, with a period eight (8) difference sequence of: {6, 4, 2, 4, 2, 4, 6, 2} (Primesdemystified).

image

Symmetry Mirroring

Speaking of the Fibonacci number sequence, there is symmetry mirroring the above in the relationship between the terminating digits of Fibonacci numbers and their index numbers equating to members of the array populating the Prime Spiral Sieve.

The 77 is equal to the sum of the first 8 primes. The square of 77 is 5929, the concatenation of two primes, 59 and 29. The concatenation of all palindromes from one up to 77 is prime (Prime Curios! ).

11's additive sums

Prime numbers that end with "77" occur more often than any other 2-digit ending among the first one million primes. The sum of the proper divisors of 77 equals 19 and the sum of primes up to 19 equals 77. Does this ever happen again?

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+

The individual bases, depending on their sizes and spatial extents and masses, are assigned unequivocal values, situated within the vibration heights derived from (I), to define a measure from which the sequence can be counted, read or imaged.

default

layer | node | sub |    i     |   f
+------+------+-----+----------+-----+-----+-----+                                    ---
+      |      |     |    1,2:1 |   1 |  30 |  40 | 71 (2,3) ‹-------------------       |
+      |      |  1  +----------+-----+-----+-----+                              |      |
+      |  1   |     |        2 |                                                |      5¨  encapsulation
+      |      |-----+----------+            -----------------------------       |      |
+      |      |     |        3 |           |                             |      |      |
+  1   +------+  2  +----------+----       |       LAGGING SCHEME        |      |     ---
+      |      |     |        4 |           |    (Exponentiation Zone)    |      |      |
+      |      +-----+----------+           |                             |      |      |
+      |  2   |     |        5 |           ------------------------------       |      7¨  abstraction
+289   |      |  3  +----------+                                                |      |
+|     |      |     |        6 |  ‹---------------------------- Φ               | {6®} |
+------+------+-----+----------+-----+-----                                     |     ---
+      |      |     |     11:7 |   5 |   9 |  14 (20) --------› ¤               |      |
+      |      |  4  +----------+-----+-----+-----+                              |      |
+      |  3   |     |     12:8 |   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+      |      +-----+----------+-----+-----+-----+                       |      |      |
+      |      |     |     13:9 |   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+  2   +------|  5  +----------+-----+-----+-----+                       |      |     ---
+      |      |     |    14:19 |   9 |  60 |  40 | 109 (28) -------------       |      |
+      |      |-----+----------+-----+-----+-----+                              |      |
+      |  4   |     | 15,18:11 |   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+      |      |     |    20:13 |  90 |  90 (38) ‹-------------- ¤                      |
+      |      |  7  +----------+-----+                                                 |
+      |  5   |     |       14 |            -----------------------------             17¨  class
+      |      |-----+----------+           |                             |             |
+      |      |     |       15 |           |       LEADING SCHEME        |             |
+  3   +------+  8  +----------+-----      |    (Multiplication Zone)    |            ---
+      |      |     |       16 |           |                             |             |
+      |      |-----+----------+-----+      -----------------------------              |
+      |  6   |     |    28:17 | 100 |                                                19¨  object
+168   |      |  9  +----------+-----+                                                 |
+|     |      |     |    29:18 | 50  | 50(68) ---------> Δ18                           |
+------|------|-----+----------+-----+                                                ---
+

Molecular Interactions

By the nature this behaviour can be observed from the molecular interactions of water. Water is intrinsically self-complementary on molecular interactions. In liquid or solid water, engage in ideal hydrogen bonding. Six (6) times of the angle 109 occupied as the most while the angle of 114 and 104 are exist only once. So the one in charge here is clearly the 29th prime identity.

109 = 29th prime = (10th)th prime = ((114-104)th)th prime

Molecular Interactions

Let's assume that it is done using a material that stretches and then pops back when the stretching force goes away. It is pound for pound stronger than steel. So all of these steps are similar kind with the way a spider started to build its web.

Every web begins with a single thread, which forms the basis of the rest of the structure. To establish this bridge, the spider climbs to a suitable starting point (up a tree branch, for example) and releases a length of thread into the wind. With any luck, the free end of the thread will catch onto another branch (howstuffworks.com).

image

This 29 turns the finiteness position of 15 as the middle zero axis of the MEC30. So the next steps will start exactly with the same story as we have explained from the beginning.

MEC 30 claims to "illustrate and convey the connections between quantum mechanics, gravitation and mathematics in a new way" via the elementary level of numbers. It starts with a theory about the structure of light, which is then transferred to various areas of the natural sciences.

default

The only different is, instead of an instance, it will behave as an inside container, just like how spider built a home web as strong as steel but useless to cover them against a rainy day nor even a small breeze.

default

Yang–Mills and Mass Gap


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The Quantum Way

---+-----+-----
+ 1 | 1   |{73}
+---+-----+-----
+ 2 |{74} | 94
+---+-----+-----
+ 3 | 95  | 113
+---+-----+-----
+ 4 |{114}| 121
+---+-----+-----
+ 5 | 122 | 135
+---+-----+-----
+ 6 | 136 | 156
+---+-----+-----
+ 7 |{157}|{165}
+---+-----+-----
+

What is critical to understand, is that the invisible hand of 2, 3 and 5, and their factorial 30, create the structure within which the balance of the prime numbers, i.e., all those greater than 5, are arrayed algorithmically–as we shall demonstrate.

In number theory, the partition function p(n) represents the number of possible partitions of a non-negative integer n. For instance, p(4) = 5 because the integer 4 has the five partitions 1 + 1 + 1 + 1, 1 + 1 + 2, 1 + 3, 2 + 2, and 4. (Wikipedia).

default

The integer thirty (30) is the 19th composite number, Organizing Principle of the Prime Number Sequence, provides both vertical and horizontal structure to the prime number sequence in Prime Spiral Sieve.

The number 30 possesses remarkable attributes, including–and perhaps most profoundly–its role (along with its prime factors 2, 3 and 5) as a primary organizing principle in the distribution of prime numbers (Primesdemystified).

           15
+           ↓
+           29
+           ↓
+---+-----+-----
+ 6 | 30  | 31   ------
+---+-----+-----       |
+ 7 | 32  | 44         |
+---+-----+-----       | 4th (id:12)
+ 8 | 45  | 46         |
+---+-----+-----       |
+ 9 | 47  | 49   --329-¤-multiplication zone
+---+-----+-----       | 5th (id:13)
+10 | 50  | 50   ------
+---+-----+-----         
+11 | 51  | 53   ------
+---+-----+-----       |
+12 | 54  | 59         |    
+---+-----+-----       | 6th (id:14 - id:15)
+13 | 60  | 82         |
+---+-----+-----       |
+14 | 83  |{102} --289-¤-exponentiation zone
+---+-----+-----       | 7th (id:16 - id:19)
+15 |{103}| 110  ------
+---+-----+-----
+

Prime hexagon is a mathematical structure developed by mathematician T. Gallion that is formed when integers are sequentially added to a field of tessellating equilateral triangles, where the path of the integers is changed whenever a prime is encountered.

The tessellating field of equilateral triangles fills with numbers, with spin orientation flipping with each prime number encountered, creating 3 minor hexagons, assigned names blue, red and green.

default

Many of you with familiarity with Docker for Windows know how you currently have to switch between running either Windows or Linux Containers. Prime hexagon teaches us how to combat this limitation and run both simultaneously on the same host.

Separated segments

Functional description of DNA, useful e.g. for identifying new coding sequences, comprises assigning characteristic values to individual bases derived from vibrational properties

default

The lagging strand is the strand of new DNA whose direction of synthesis is opposite to the direction of the growing replication fork. The lagging strand is synthesized in short, separated segments.

320 + 289 + 168 = 618 + 168 = 786

Cell types are interesting, but they simply reflect a modulo six (6) view of numbers. More interesting are the six internal hexagons within the Prime Hexagon. Like the Prime Hexagon, they are newly discovered.

default

Surprisingly, the 24-cell hexagon confines all natural numbers. The reason: no prime numbers occupy a cell with a right or left wall on the t-hexagon's outer boundary, other than 2 and 3.

iMinor Hexagons

Three dimensional sphere

In 1904 the French mathematician Henri Poincaré asked if the three dimensional sphere is characterized as the unique simply connected three manifold. This question, the Poincaré conjecture, was a special case of Thurston's geometrization conjecture.

Perelman's proof tells us that every three manifold is built from a set of standard pieces, each with one of eight well-understood geometries (ClayMath Institute).

Poincaré Conjecture

The initial primes that forced the number line into this complex coil. Without a prime number in the outer set of triangles, the number line does not change to an outward course and remains forever contained in the 24 cells shown above.

The minor hexagons form solely from the order, and type, of primes along the number line. Perhaps they have no significance. however, as they do form I suspect they must connect to deeper things in mathematics (Prime Hexagon).

Δ300

gif-dribbb

Phi and its members have a pisano period if the resulting fractional numbers are truncated. If one instead rounds to the nearest number, the modular values for the first two terms are flipped compared to the 24th and 25th values as seen below.

phi's cousin, the Fibonacci Series

Numbers fill the hexagon by spiraling until a prime number is met, then it jumps to the next minor hexagon and begins to spiral again. As the numbers continue to fill the field, the other minor hexagons from, purple, cyan and yellow.

(2112/82) − (576/82) = 24

image

layer | node | sub |     i    |   f
+------+------+-----+----------+------                                             ---
+      |      |     |    1,2:1 |  71 (2,3) -------------                            |
+      |      |  1  +----------+                        |                           |
+      |  1   |     |        2 |                        |                          (5) 
+      |      |-----+----------+                        |                           |
+      |      |     |        3 |                        |                           |
+  1   +------+  2  +----------+----                    |                          ---
+      |      |     |        4 |                        |                           |
+      |      +-----+----------+                        |                           |
+      |  2   |     |        5 |                        |                          (7) 
+289   |      |  3  +----------+                        |                           |
+|     |      |     |        6 |                        | {6®}                      |
+------+------+-----+----------+------      } (36)      | ↓                        ---
+      |      |     |     11:7√| 50/10+9 (20) ----› ¤ √ | 29=MEC30 - Δ1             |
+      |      |  4  +----------+                        | ↓                         |
+      |  3   |     |     12:8√| 9+60+40 (26) √ --      | from 329-40 √           (11) 
+      |      +-----+----------+                  |     | ↓ lagging                 |
+      |      |     |     13:9√| 9+60 (27) √      | {2®} from 168 (Triangular) √    |
+  2   +------|  5  +----------+-----             |     | ↓ leading                ---
+      |      |     |    14:10√| 9+60+40 (28) √ --      | goes to 329 √             |
+      |      |-----+----------+                        |                           |
+      |  4   |     | 15,18:11√| 71 (29,30,31,32) ------                          (13)
+329   |      |  6  +----------+                                                    |
+|     |      |     |    19:12√| {70} (36)                                          |
+------+------+-----+----------+------------------                                 ---
+      |      |     |    20:13√| (20-11)x10 (38) ‹- ¤ √                             |
+      |      |  7  +----------+                                                    |
+      |  5   |     |       14 |                                                  (17) 
+      |      |-----+----------+                                                    |
+      |      |     |       15 |                                                    |
+  3   +------+  8  +----------+-----                                              ---
+      |      |     |       16 |                                                    |
+      |      |-----+----------+                                                    |
+      |  6   |     |    28:17√| 100(50)                                          (19) 
+168   |      |  9  +----------+                                                    |
+|     |      |     |    29:18√| 50(68)                                             |
+------|------|-----+----------+------                                             ---
+

Prime factor abundances

The genetic material of a cell or an organism refers to those materials found in the nucleus, mitochondria and cytoplasm, which play a fundamental role in determining the structure of cell substances and capable of self-propagating and variation.

The genetic material

torus

Spirals following other tilings of the plane also generate lines rich in prime numbers, for example hexagonal spirals. Hexagonal number spiral with prime numbers in green and more highly composite numbers in darker shades of blue.

default

Ricci Flow

Finite collections of objects are considered 0-dimensional. Objects that are "dragged" versions of zero-dimensional objects are then called one-dimensional. Similarly, objects which are dragged one-dimensional objects are two-dimensional, and so on.

The basic ideas leading up to this result (including the dimension invariance theorem, domain invariance theorem, and Lebesgue covering dimension) were developed by Poincaré, Brouwer, Lebesgue, Urysohn, and Menger (MathWorld).

default

The Ricci flow is a pde for evolving the metric tensor in a Riemannian manifold to make it "rounder", in the hope that one may draw topological conclusions from the existence of such "round" metrics.

Poincaré hypothesized that if such a space has the additional property that each loop in the space can be continuously tightened to a point, then it is necessarily a three-dimensional sphere (Wikipedia)

default

The Ricci Flow method has now been developed not only in to geometric but also to the conversion of facial shapes in three (3) dimensions to computer data. A big leap in the field of AI (Artificial intelligence). No wonder now all the science leads to it.

So what we've discussed on this wiki is entirely nothing but an embodiment of this solved Poincare Conjecture. This is the one placed with id: 10 (ten) which stands as the basic algorithm of π(10)=(2,3,5,7).

Poincaré Conjecture

Many relevant topics, such as trustworthiness, explainability, and ethics are characterized by implicit anthropocentric and anthropomorphistic conceptions and, for instance, the pursuit of human-like intelligence.

AI is one of the most debated subjects of today and there seems little common understanding concerning the differences and similarities of human intelligence and artificial intelligence (Human vs AI).

Despite of any debated subjects regarding Human vs AI, the said AI would not even close to the ability of human brain without undertanding of GAP functionality between left and right of the human brain. Let's find it in details on further discussion.


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Proofreading Ability

---+-----+-----
+ 1 | {1} |{56}
+---+-----+-----
+ 2 | 57  |{71}
+---+-----+-----
+ 3 | 72  | 85
+---+-----+-----
+ 4 |{86} |{89}
+---+-----+-----
+ 5 | 90  | 94
+---+-----+-----
+ 6 | 95  | 102
+---+-----+-----
+ 7 | 103 |{171}
+---+-----+-----
+ 8 | 172 | 206
+---+-----+-----
+
True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+layer|  i  |   f
+-----+-----+---------
+     |  1  |   5
+  1  +-----+
+     |  2  |  {7}
+-----+-----+---    } 36
+     |  3  |  11
+ {2} +-----+
+     |  4  | {13}
+-----+-----+---------
+     |  5  |  17
+  3  +-----+       } 36
+     |  6  | {19}
+-----+-----+---------
+

Infinite connection

Φ = 2,10
+Δ = 5,7,17
+3': 13,18,25,42
+2' » 13 to 77, Δ = 64
+2' and 3' » 13 to 45, Δ = 32
+
+2" + 5" = 7" = 77
+2"=22, 3"=33, 2" + 3" = 5" = 55
+
+13, 16, 18, 21, 23, 25, 28, 30, 32, 34, 
+36, 38, 40, 42, 
+45, 47, 49, 51, 53, 
+55, 57, 59, 61, 
+63, 65, 67, 69, 71, 73, 75, 77
+

Next we will discuss how to form these numbers on each screens. As explained earlier, there are all three (3) layers. The instance is going to simulate DNA polymerase with proofreading ability.

Proofreading removes the mismatched nucleotide and extension continues. If a mismatch is accidentally incorporated, the polymerase is inhibited from further extension (Wikipedia).

DNA polymerases

A current model of meiotic recombination, initiated by a double-strand break or gap, followed by pairing with an homologous chromosome and strand invasion to initiate the recombinational repair process (Wikipedia).

image

π(96) = 96/4 = 24

Fidelity is very important in DNA replication. Mismatches in DNA base pairing can potentially result in dysfunctional proteins and could lead to cancer. Hydrogen bonds play a key role in base pair binding and interaction.

The function of DNA polymerase is not quite perfect, with the enzyme making about one mistake for every billion base pairs copied. Error correction is a property of some, but not all DNA polymerases. This process corrects mistakes in newly synthesized DNA (Wikipedia).

dna-genetics-biochemistry

Strand Partition

ezgif com-optimize

layer | node | sub |    i     |   f
+------+------+-----+----------+-----+-----+-----+                                    ---
+      |      |     |    1,2:1 |   1 |  30 |  40 | 71 (2,3) ‹-------------------       |
+      |      |  1  +----------+-----+-----+-----+                              |      |
+      |  1   |     |        2 |                                                |      5¨  encapsulation
+      |      |-----+----------+            -----------------------------       |      |
+      |      |     |        3 |           |                             |      |      |
+  1   +------+  2  +----------+----       |       LAGGING SCHEME        |      |     ---
+      |      |     |        4 |           |    (Exponentiation Zone)    |      |      |
+      |      +-----+----------+           |                             |      |      |
+      |  2   |     |        5 |           ------------------------------       |      7¨  abstraction
+289   |      |  3  +----------+                                                |      |
+|     |      |     |        6 |  ‹---------------------------- Φ               | {6®} |
+------+------+-----+----------+-----+-----                                     |     ---
+      |      |     |     11:7 |   5 |   9 |  14 (20) --------› ¤               |      |
+      |      |  4  +----------+-----+-----+-----+                              |      |
+      |  3   |     |     12:8 |   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+      |      +-----+----------+-----+-----+-----+                       |      |      |
+      |      |     |     13:9 |   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+  2   +------|  5  +----------+-----+-----+-----+                       |      |     ---
+      |      |     |    14:19 |   9 |  60 |  40 | 109 (28) -------------       |      |
+      |      |-----+----------+-----+-----+-----+                              |      |
+      |  4   |     | 15,18:11 |   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+      |      |     |    20:13 |  90 |  90 (38) ‹-------------- ¤                      |
+      |      |  7  +----------+-----+                                                 |
+      |  5   |     |       14 |            -----------------------------             17¨  class
+      |      |-----+----------+           |                             |             |
+      |      |     |       15 |           |       LEADING SCHEME        |             |
+  3   +------+  8  +----------+-----      |    (Multiplication Zone)    |            ---
+      |      |     |       16 |           |                             |             |
+      |      |-----+----------+-----+      -----------------------------              |
+      |  6   |     |    28:17 | 100 |                                                19¨  object
+168   |      |  9  +----------+-----+                                                 |
+|     |      |     |    29:18 | 50  | 50(68) ---------> Δ18                           |
+------|------|-----+----------+-----+                                                ---
+

Four-vector configuration

If you are using Docker-for-Windows, you can run now both Windows and Linux containers simultaneously: Running Docker Windows and Linux Containers Simultaneously, not only the Linux container itself, but also an orchestrator like Kubernetes: Kubernetes is Now Available In Docker Desktop Stable Channel

image

On the lagging strand template, a primase "reads" the template DNA and initiates synthesis of a short complementary RNA primer. This is assigned to Windows container.

GitHub Actions workflow

The leading strand is the strand of new DNA which is synthesized in the same direction as the growing replication fork. This sort of DNA replication is continuous. This workflow is assigned to Linux container (Ubuntu).

The runner is the application that runs a job from a GitHub Actions workflow. It is used by GitHub Actions in the hosted virtual environments, or you can self-host the runner in your own environment. We use both of them to create group as a four-vector.

DNA polymerase extends primed segments, forming Okazaki fragments. The RNA primers are then removed and replaced with DNA, and the fragments of DNA are joined by DNA ligase and are bound to the helicase heximer (Wikipedia).

DNA ligase

In eukaryotes the helicase wraps around the leading strand, and in prokaryotes it wraps around the lagging strand. As helicase unwinds DNA at the replication fork, the DNA ahead is forced to rotate resulting a build-up of twists in the DNA ahead.

Because of its orientation, replication of the lagging strand is more complicated as compared to that of the leading strand. As a consequence, the DNA polymerase on this strand is seen to "lag behind".

container-diagram

Hamiltonian Path Problem

By The GitHub Runner you can connect to the Google COS Instance. For self-hosted runners defined at the organization level, configure runs-on.group in your workflow file to target a runner groups or combine groups and labels.

choosing-the-runner

On the other hand, with larger systems we are able to transfer the behavior of the energy from the subatomic space into the haptic space with the scale described here (thought experiment Schröninger's cat). Thus, we are still able to apply the Schröninger wave equation in the haptic space, and replace the Hamiltonian with our measurements. default

The problems would arise when the Windows Container in Github deliver the RNA Primer to Google instance as Windows Image because it shall read the image while the COS is run under Linux. So it will need to proof and solve without actually having to try.

If it is easy to check that a solution to a problem is correct, is it also easy to solve the problem? This is the essence of the P vs NP question. Typical of the NP problems is that of the Hamiltonian Path Problem given N cities to visit, how can one do this without visiting a city twice? (Clay Institute).

P vs NP Problem

Getting the proofreading ability of DNA polymerase to quickly solve problem for about one mistake for every billion base pairs copied is somehow that required by one of a major unsolved problem in theoretical computer science called P vs NP.

P vs. NP deals with the gap between computers being able to quickly solve problems vs. just being able to test proposed solutions for correctness. As such, the P vs. NP problem is the search for a way to solve problems that require the trying of millions, billions, or trillions of combinations without actually having to try each one (P vs. NP Explained).

P_versus_NP_problem

This way will also be our approach to Euler's identity. By taking the correlation between f(π) as P vs f(i) as NP where e + 1 = 0 then theoretically they shall be correlated to get an expression of the prime distribution similar to MEC30.


₠Quantum
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\ No newline at end of file diff --git a/exponentiation/folder18/file08.html b/exponentiation/folder18/file08.html new file mode 100644 index 00000000..f6816dd6 --- /dev/null +++ b/exponentiation/folder18/file08.html @@ -0,0 +1,170 @@ + Replication Fork · ₠Quantum

Replication Fork

---+-----+-----
+ 1 |  1  |  4
+---+-----+-----
+ 2 |  5  | 14
+---+-----+-----
+ 3 | 15  | 26
+---+-----+-----
+ 4 | 27  | 40
+---+-----+-----
+ 5 | 41  |{47}
+---+-----+-----
+ 6 | 48  | 54
+---+-----+-----
+ 7 | 55  |{71}
+---+-----+-----
+ 8 | 72  | 75
+---+-----+-----
+
---+-----+-----
+ 1 | 1   | 5    🡰--19--
+---+-----+-----        |
+ 2 | 6   | 8           | 
+---+-----+-----        |
+ 3 | 9   | 26    --289-¤-exponentiation zone
+---+-----+-----        |
+ 4 | 27  | 28          |
+---+-----+-----        |
+ 5 | 29  | 29   ➤--18--
+---+-----+-----
+ 6 | 30  | 31   🡰--18--
+---+-----+-----        |
+ 7 | 32  | 44          |
+---+-----+-----        |
+ 8 | 45  | 46    --329-¤-multiplication zone
+---+-----+-----        |
+ 9 | 47  | 49          |
+---+-----+-----        |
+10 | 50  | 50   ➤--17--
+---+-----+-----         
+11 | 51  | 53   🡰--17--
+---+-----+-----        |
+12 | 54  | 59          |    
+---+-----+-----        |
+13 | 60  | 82    --168-¤-addition zone
+---+-----+-----        |
+14 | 83  |{102}        |
+---+-----+-----        |
+15 |{103}| 110  ➤--16--
+---+-----+-----
+

20 x 10 = 200 = 16 x 6 + (10² + 14 - 10) = 96 + 114 - 10 = 96 + 104 = 48 + 48 + 104

!

Deep Learning VM Images

Let's see how triangular numbers come into the picture. A triangular number is a number that can be represented by a pattern of dots arranged in an equilateral triangle with the same number of dots on each side at equal distance from each other.

Triangular pattern

                largest part=21 → 11+13+12=36 →  MEC30
+                        ↓                      |
+---+-----+-----+-----+-----+                   ↓
+ 1 | 19  | 1   | 20  | 21  |-------------------|-----
+---+-----+-----+-----+-----+                   ↓     |
+ 2 | 18  | 21  | 39  | 60  |-------------------      |
+---+-----+-----+-----+-----+                   |     |
+ 3 |{63} | 40  | 103 | 143 |-------------      |     |
+---+-----+-----+-----+-----+             |     |     |
+ 4 | 37  | 104 | 141 | 245 |-------      |     |     |
+---+-----+-----+-----+-----+       |     |     |     |
+ 5 | 10* | 142 | 152 | 294 |- 11** | 13  | 12  | 12  | 18
+---+-----+-----+-----+-----+       |     |     |     |
+ 6 | 24  | 153 | 177 | 332 |-------      |     |     |
+---+-----+-----+-----+-----+             |     |     |
+ 7 | 75  | 178 | 253 | 431 |-------------      |     |
+---+-----+-----+-----+-----+                   |     |
+ 8 | 30  | 254 | 284 | 538 |-------------------      |
+---+-----+-----+-----+-----+                   ↓     |
+ 9 | 1   | 285 | 286 | 571 |-------------------|-----
+===+=====+=====+=====+=====+                   ↓
+45 | 277 |                      ← 11+13+12=36 ←  MEC30
+---+-----+                                     |
+ ↑
+Note:
+10* stands as the central rank
+11** stands as the central parts
+

Windows registry

This software uses Windows Script Host to read and write to the registry. Read, Write, List and do all sorts of funky stuff to the windows registry using node.js and windows script host.

kernel-6.1.21.1-microsoft-standard-WSL2.img

7 x 11 = 77 = 99 - 22 = 11 x (9 -2)
+
+layer | node | sub |  i  |  f                               
+------+------+-----+---------- 
+      |      |     |  1  | -----------------------  71 = 72-1
+      |      |  1  +-----+                        |
+      |  1   |     |  2  | (5)                    |
+      |      |-----+-----+                        |
+      |      |     |  3  | ---------              |
+  1   +------+  2  +-----+----      |             |
+      |      |     |  4  |          5x ---        |
+      |      +-----+-----+          |     |       |
+      |  2   |     |  5  | (7) -----      |       |
+      |      |  3  +-----+                |       |
+289+11=300   |     |  6  |                |       |
+------+------+-----+-----+----- 72 x 6    7x --- 11x = 77
+      |      |     |  7  |                |       |
+      |      |  4  +-----+                |       |
+      |  3   |     |  8  | (11)  ---      |       |
+      |      +-----+-----+          |     |       |
+      |      |     |  9  |          2x ---        |
+  2   +------|  5  +-----+-----     |             |
+      |      |     |  10 | ---------              |
+      |      |-----+-----+                        |
+      |  4   |     |  11 | (13) ------------------  71 = 72-1
+      |      |  6  +-----+
+329+71=400   |     |  12 |------------------------  70 = 72-2
+------+------+-----+-----+
+      |      |     |  13 |
+      |      |  7  +-----+
+      |  5   |     |  14 | (17)
+      |      |-----+-----+
+      |      |     |  15 |
+  3   +------+  8  +-----+----- 42 x 6
+      |      |     |  16 |
+      |      |-----+-----+
+      |  6   |     |  17 | (19)
+      |      |  9  +-----+
+168+32=200   |  |  |  18 |------------------------  68 = 72-4
+------|------|--|--+-----+
+       900 -----
+

Prime templates

In the windows registry a key may have a default value. When enumarting value names, the default value's name will be empty.

The number 28 depicted as 28 balls arranged in a triangular pattern with the number of layers of 7 ([Wikipedia).

itriangular pattern with the number of layers of 7

This presents a minor problem when including the empty value in a set with other values since it cannot be safely named with anything but the empty string, for fear of collision with other values.

<img src=https://user-images.githubusercontent.com/36441664/87292656-521b2e00-c52b-11ea-9102-e7839feda3f7.gif> <img src=https://user-images.githubusercontent.com/36441664/82119386-453ac200-97a8-11ea-8dde-3af7628c01ae.gif>
const regedit = require('regedit').promisified
+
+async function main() {
+  const listResult = await regedit.list('HKCU\\SOFTWARE')
+  console.log(listResult)
+
+  await regedit.createKey(['HKLM\\SOFTWARE\\MyApp2', 'HKCU\\SOFTWARE\\MyApp'])
+  await regedit.putValue({
+    'HKCU\\SOFTWARE\\MyApp': {
+        Company: {
+            value: 'Moo corp',
+            type: 'REG_SZ'
+        }
+    },
+    'HKLM\\SOFTWARE\\MyApp2': { 
+      test: {
+        value: '123',
+        type: 'REG_SZ'
+      } 
+    }
+  })
+}
+
+main()
+

Now the following results: Due to the convolution and starting from the desired value of the prime position pairs, the product templates and prime numbers templates of the prime number 7 lie in the numerical Double strand parallel opposite.

Double Strands

maxresdefault

Anti paralled

The Workflow by this frameworks will absorbe the way of how a DNA is read DNA polymerase which is proceed in the 3′ to 5′ direction, while the new strand is synthesized in the 5' to 3' direction. This scheme is widely known as anti paralled direction.

Since the leading and lagging strand templates are oriented in opposite directions at the replication fork, a major issue is how to achieve synthesis of new lagging strand DNA, whose direction of synthesis is opposite to the direction of the growing replication fork (Wikipedia).

Replication fork

default

By DNA System it will act as the Replication Fork that exchange along with their residual objects. You may see that it begin with two (2) prime identities of (2,3) and end up with the tensor of 100 to 50 conforms the ζ(s)=1/2.

286 - 4x2 = 278

329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+      |      |     |    20:13 |  90 |  90 (38) ‹-------------- ¤                      |
+      |      |  7  +----------+-----+                                                 |
+      |  5   |     |       14 |            -----------------------------             17¨  class
+      |      |-----+----------+           |                             |             |
+      |      |     |       15 |           |       LEADING SCHEME        |             |
+  3   +------+  8  +----------+-----      |    (Multiplication Zone)    |            ---
+      |      |     |       16 |           |                             |             |
+      |      |-----+----------+-----+      -----------------------------              |
+      |  6   |     |    28:17 | 100 |                                                19¨  object
+168   |      |  9  +----------+-----+                                                 |
+|     |      |     |    29:18 | 50  | 50(68) ---------> Δ18                           |
+------|------|-----+----------+-----+                                                ---
+

Replication Fork

layer | node | sub |    i     |   f
+------+------+-----+----------+-----+-----+-----+                                    ---
+      |      |     |    1,2:1 |   1 |  30 |  40 | 71 (2,3) ‹-------------------       |
+      |      |  1  +----------+-----+-----+-----+                              |      |
+      |  1   |     |        2 |                                                |      5¨  encapsulation
+      |      |-----+----------+            -----------------------------       |      |
+      |      |     |        3 |           |                             |      |      |
+  1   +------+  2  +----------+----       |       LAGGING SCHEME        |      |     ---
+      |      |     |        4 |           |    (Exponentiation Zone)    |      |      |
+      |      +-----+----------+           |                             |      |      |
+      |  2   |     |        5 |           ------------------------------       |      7¨  abstraction
+289   |      |  3  +----------+                                                |      |
+|     |      |     |        6 |  ‹---------------------------- Φ               | {6®} |
+------+------+-----+----------+-----+-----                                     |     ---
+

Exponentiation Zone

By this flowchart we could deploy models on device and in the browser from image classification, text embeddings, audio, and video action recognition where you can browse trained models and datasets from across the machine learning ecosystem.

machine learning models

image

Multiplicatio Zone

the three (3) zones

7 X (7+6) X (7+12) = 7 X 13 X 19 = 7 X 247 = 1729

209659219-

default

Addition zone

By all of the explanation above we concluded that this recycling is started by the tensor of bilateral 9 sums originated from the power of number two (2) which is resulting the congruent property of number 18.

RiemannZeta_Zeros

This property would tend the ballancing scheme of MEC30 so it will let 30-18=12 pairing with another 12 of 24 spins prime hexagon. The 24 goes to the center of True Prime Pairs by the prime pair 13 and 11 and let the crancks of 2,3,5,7 inside the 10 ranks.

This is where Goldbach's conjecture, which was also known to Euler, helps. Goldbach considered the distribution of primes from the perspective of the line numbers that represent a separate set of numbers, as shown. So here also helps that the Riemann conjecture is essentially identical point, with the Goldbach conjecture.

Riemann Zeta

The 10 ranks will coordinate with the 18 to raise up the symmetrical behaviour of 12+24=36 which is prime pair 17+19=36 and let the 2 and 3 out of 2,3,5,7 to begin a new cycle while the 5,7 will pair the 11,13 and 17,19 as True Prime Pairs.

default

With the above description then the instance configuration is via matrix integration from tensorflow which is placed at the end position to the turning point 100 vs 50 to the format (2,3) i.e. at id: 68.

π(1000) = π(Φ x 618) = 168 = 100 + 68 = (50x2) + (66+2) = 102 + 66

default

Identical point

default

Parsering across syntax

30 + (5+13) + (7+11) + (17+19) = 30 + 18 + 18 + 36 = 30 + 36 + 36 = 102 = 2 + 100

default

Prime images


₠Quantum
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\ No newline at end of file diff --git a/exponentiation/folder18/file09.html b/exponentiation/folder18/file09.html new file mode 100644 index 00000000..9e34eced --- /dev/null +++ b/exponentiation/folder18/file09.html @@ -0,0 +1,29 @@ + Building The Instance · ₠Quantum

Building The Instance

---+-----+-----
+ 1 |  1  |  28
+---+-----+-----
+ 2 |  29 |  37
+---+-----+-----
+ 3 | {38}| {48}
+---+-----+-----
+ 4 |  49 | 127
+---+-----+-----
+ 5 | 128 | 129
+---+-----+-----
+

default

The following package types are available:

  • OS packages: Debian (via Apt), RPM
  • Language packages: Java, Node, Python
  • Container images packages: Docker, Helm

Container Image Format

Artifact Registry supports the following container image formats:

  • Docker Image Manifest V2, Schema 1
  • Docker Image Manifest V2, Schema 2
  • Open Container Initiative (OCI) Image Format Specifications After successful execution, you could check the docker log:

A VM instance with apps deployed directly to the operating system

The common methods of deploying software onto a Compute Engine VM instance include:

  1. Deploying software on VM boot using a startup script or cloud-init.
  2. Creating a custom boot disk image with software pre-installed.

container-without-container-image

A VM instance with apps deployed in a container

The following process describes how you deploy a container on Compute Engine:

  1. You bundle your app and required libraries into a Docker image and publish the image to Artifact Registry, Container Registry, or a third-party registry such Docker Hub.
  2. You specify a Docker image name and the docker run configuration when creating a VM instance or an instance template for a MIG.

container-image-cos

Docker needs access to Artifact Registry to push and pull images. You can use the standalone Docker credential helper tool, docker-credential-gcr, to configure your Artifact Registry credentials for use with Docker without using requiring gcloud.

Steps to create

Compute Engine executes the following tasks after you make a request to create a VM instance:

  1. Compute Engine creates a VM instance that uses a Google-provided Container-Optimized OS image. This image includes a Docker runtime and additional software that is responsible for starting your container.
  2. Compute Engine stores your container settings in instance metadata under the gce-container-declaration metadata key.
  3. When the VM starts, the Container-Optimized OS image uses the docker run command configuration that is stored in the instance's metadata, pulls the container image from the repository, and starts the container.
gcloud compute project-info add-metadata
+

containers-gce-process

Artifact Registry integrates with Cloud Build and other continuous delivery and continuous integration systems to store packages from your builds. You can also store trusted dependencies that you use for builds and deployments.

Limitations

  1. You can only deploy one container for each VM instance. Consider Google Kubernetes Engine if you need to deploy multiple containers per VM instance. You can only deploy containers from a public repository or from a private Artifact Registry or Container Registry repository that you can access. Other private repositories are not supported.

  2. You can't map a VM instance's ports to the container's ports (Docker's -p option). To enable access to your containers, see Publishing container ports.

  3. You can only use Container-Optimized OS (COS) images with this deployment method. COS is an operating system image for your Compute Engine VMs that is optimized for running Docker containers maintained by Google and is based on the open source Chromium OS project .

It would also mean that if you use console or deployment manager it's not possible to deploy more than one container, but if you create a config file and use cloud init you can deploy many containers to that instance.

Partition

For most frameworks, Debian 10 is the default OS. Ubuntu 20.04 images are available for some frameworks. The boot disk space is split into three types of partitions:

  • The root partition, which is mounted as read-only to maintain integrity.
  • Stateful partitions, assigned to write the objects of fork movement which are writable and stateful.
  • Stateless partitions, assigned as strand which are writable but the content classes do not persist across reboots.

default

You can attach a persistent disk or create an instance with Local SSDs when using Container-Optimized OS. The disks can be mounted by creating a subdirectory under /mnt/disks directory (writable, executable, stateless, tmpfs) using startup-scripts.

image

If you are using Docker-for-Windows, you can run now both Windows and Linux containers simultaneously: Running Docker Windows and Linux Containers Simultaneously, not only the Linux container itself, but also an orchestrator like Kubernetes: Kubernetes is Now Available In Docker Desktop Stable Channel

GitHub Actions workflow

On the lagging strand template, a primase "reads" the template DNA and initiates synthesis of a short complementary RNA primer. This is assigned to Windows container.

kernel-6.1.21.1-microsoft-standard-WSL2.img

This Widows is an isolated container, lightweight package for running an application on the host operating system. Containers build on top of the host operating system's kernel (which can be thought of as the buried plumbing of the operating system).

Containers are not for virtualization, and they are using the resources of the host machine. As a result, for now a Windows container cannot run "as-is" on a Linux machine. But you can do it by using VM as it works on Windows. You can install a Windows VM on your Linux host, which will allow to run Windows containers (Stackoverflow).

container-diagram

You can run .NET applications in Linux containers, but only if they're written in .NET Core which can be deployed on Windows Server Containers. Applications running in Windows Server Containers can run in any language supported by Windows.

SharpKeys is a utility that manages a Registry key that allows Windows to remap one key to any other key. Included in the application is a list of common keyboard keys and a Type Key feature to automatically recognize most keyboard keys. It was originally developed in C# using .NET v2 but has been updated to support .NET 4.0 Client Profile

We found this scenario is the best because sofar Google could only recommend using GKE for that. A GKE cluster has a control plane and machines called nodes it was designed specifically for that purpose. Autopilot mode manages this complexity.

default

Nodes run the services supporting the containers that make up your workload. The control plane decides what runs on those nodes, so still Linux containers are running on Linux, and Windows containers are running on Windows.

Configuration

By The GitHub Runner you can connect to the Google COS Instance. For self-hosted runners defined at the organization level, configure runs-on.group in your workflow file to target a runner groups or combine groups and labels.

default

The runner is the application that runs a job from a GitHub Actions workflow. It is used by GitHub Actions in the hosted virtual environments, or you can self-host the runner in your own environment. We use both of them to create group as a four-vector.

jobs:
+  check-bats-version:
+    runs-on:
+      group: Default
+      labels: ubuntu-20.04-16core
+

It is possible to dynamically load the images between Windows (WSL Enabled) and Linux in the same workflow using github context such as github.repository_owner_id. You can also read most of the github context data in environment variables.


+jobs:
+  github-pages:
+    runs-on: ${{ github.repository_owner == 'FeedMapping' && 'windows-latest' || fromJSON('["self-hosted", "linux", "X64"]') }}
+
+

choosing-the-runner

Selects an action to run as part of a step in your job. An action is a reusable unit of code. You can use an action defined in the same repository as the workflow, a public repository, or in a published Docker container image.

Selects an action to run as part of a step in your job

The GitHub hosted runner is assigned to run the Linux container and a Windows Server Core container simultaneously. This is an experimental feature of Microsoft WSL2 and may have some issues. One known problem is volumes are not stable.


+docker pull --platform=linux ubuntu
+docker run --platform=linux -d ubuntu /bin/sh -c "while true; do echo hello world; sleep 1; done"
+docker run -d microsoft/windowsservercore ping -t 127.0.0.1
+docker inspect --format '{{.Os}}' ubuntu
+
+

e + (109² − 89²)/(528/28)/(2 x 3 x 5 x 7) = e + 1 = 0

default

The opposite direction will be made through switching beetween Linux and Windows which is proceed the old strand in the 3′ to 5′ direction, while the new strand is synthesized in the 5' to 3' direction. Here we set a remote self-host runner via WSL.

default

image

eq19/setup

With the above description, of course, you can guess where the next direction will be. That is from one (1) unit of DNA to one (1) unit of whole unity. That's why we need a solution of the remaining six (6) other cases to be placed with id: 11, 12, 14, 15, 26 and 28 so that id: 68 is congrued to the number two (2).

default

Therefore the five (5) identities of (10, 11,12,14,15) are twisted prior joining the two (2) identities of (26,28). Since each of these seven (7) identities is linked by the eleven (11) objects then they turn to a strong seven (77). Lets's discuss them one by one.


₠Quantum
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\ No newline at end of file diff --git a/exponentiation/folder18/file10.html b/exponentiation/folder18/file10.html new file mode 100644 index 00000000..b0bbc6f5 --- /dev/null +++ b/exponentiation/folder18/file10.html @@ -0,0 +1,103 @@ + Imaginary Square · ₠Quantum

Imaginary Square

---+-----+-----
+ 1 | {1} | {2}
+---+-----+-----
+ 2 |  3  | 20
+---+-----+-----
+ 3 | 21  | 46
+---+-----+-----
+ 4 |{47} | 58
+---+-----+-----
+ 5 | 59  | 70
+---+-----+-----
+ 6 |{71} |{93}
+---+-----+-----
+ 7 | 94  | 103
+---+-----+-----
+ 8 | 104 |{109}
+---+-----+-----
+

The tetractys is a triangular figure consisting of ten points arranged in four rows: one, two, three, and four points in each row, which is the geometrical representation of the fourth triangular number (Wikipedia).

93509593-21e87500-f94a-11ea-8a30-4dc8cc4ad2f8

However, we can conclude that the distribution of prime numbers must have a static base structure, which is also confirmed logically in the further course

Φ(11,13) = Φ(1,2,3) + Φ(4,2) = 123 + 42 = 165

---+-----+-----+-----+-----+
+ 1 |  72 | 1   | 73  |  74 |-----------------
+---+-----+-----+-----+-----+                 |
+ 2 | {20}| 74  | 94  | 168 |-----------      |
+---+-----+-----+-----+-----+           |     |
+ 3 | {18}| 95  | 113 | 208 |-----      |     |
+---+-----+-----+-----+-----+     |     |     |
+ 4 |  {7}| 114 | 121 | 235 |- {7}| 5   |  1  |{61} = 18th prime
+---+-----+-----+-----+-----+     |     |     |
+ 5 |  13 | 122 | 135 | 257 |-----      |     |
+---+-----+-----+-----+-----+           |     |
+ 6 |  19 | 136 | 155 | 291 |-----------      |
+---+-----+-----+-----+-----+                 |
+ 7 |   9 | 156 | 165 | 321 |----------------
+---+-----+-----+-----+-----+
+

300 - 2x11x13 = 300-286 = 14

layer | node | sub |    i     |   f
+------+------+-----+----------+-----+-----+-----+                                    ---
+      |      |     |    1,2:1 |   1 |  30 |  40 | 71 (2,3) ‹-------------------       |
+      |      |  1  +----------+-----+-----+-----+                              |      |
+      |  1   |     |        2 |                                                |      5¨  encapsulation
+      |      |-----+----------+            -----------------------------       |      |
+      |      |     |        3 |           |                             |      |      |
+  1   +------+  2  +----------+----       |       LAGGING SCHEME        |      |     ---
+      |      |     |        4 |           |    (Exponentiation Zone)    |      |      |
+      |      +-----+----------+           |                             |      |      |
+      |  2   |     |        5 |           ------------------------------       |      7¨  abstraction
+289   |      |  3  +----------+                                                |      |
+|     |      |     |        6 |  ‹---------------------------- Φ               | {6®} |
+------+------+-----+----------+-----+-----                                     |     ---
+      |      |     |     11:7 |   5 |   9 |  14 (20) --------› ¤               |      |
+      |      |  4  +----------+-----+-----+-----+                              |      |
+      |  3   |     |     12:8 |   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+      |      +-----+----------+-----+-----+-----+                       |      |      |
+      |      |     |     13:9 |   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+  2   +------|  5  +----------+-----+-----+-----+                       |      |     ---
+      |      |     |    14:19 |   9 |  60 |  40 | 109 (28) -------------       |      |
+      |      |-----+----------+-----+-----+-----+                              |      |
+      |  4   |     | 15,18:11 |   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+

Proceeding, the number line begins to coil upon itself; 20 lands on 2's cell, 21 on 3's cell. Prime number 23 sends the number line left to form the fourth hexagon, purple. As it is not a twin, the clockwise progression (rotation) reverses itself.

Twin primes 29 and 31 define the fifth hexagon, cyan. Finally, 37, again not a twin, reverses the rotation of the system, so 47 can define the yellow hexagon (Prime-Hexagon)

The Power of 168 vs 618

7th collumn ◄- 65 + 12 = 77

|         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - |100 |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - |101 |  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   T
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |   H
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   E
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   P
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |   O
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   W
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |   E
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   R
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   O
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |   F
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | ∑=168
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |   V
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   S
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

See that by this 6 (six) spines, the number of 19, 43 and 71. The 71 as the third cycles would land on the 2's cell which are the same direction as the 3's, so both of them got this 71.

Below are the spins for the first 80 numbers; 2 (0 and 1) spiral blue, meet prime 5, spiral purple briefly, meet 7 and spiral red. The bands are pretty short because primes are common in the early numbers, but the grow rare as numbers grow large and the bands broaden.

This 71 is a conformation that it has the same result as we have explained on the residual objects of 571 turn to a vektor of 71 while the rest of 500 turn to 200 objects of 3's identity and the last objects of 300 goes to the next cycles.

For now we will be coy and state that the secret of the pyramid lies with two 4-times triangular numbers: The first, 4 x triangular number 528=2112, equates to the total number of elements used to construct the pyramid, which is subdivided into its four lateral faces comprised of 528 elements each in the form of 32 cascading triangular numbers where 2112/96 = 242.

242 = number of Mirror Prime Pairs and 96 is the 360 degree digital root Fibonacci periodicity when indexed to n not divisible by 2, 3, or 5, i.e., period 32 every 120 degrees (Primesdemystified).

Construct the pyramid

This polarity is happened per six (6) cycles by the polar of six (6) to one (1) and six (6) to seven (7) by which we finally found if this behaviour is cascaded bilaterally within the correlation between 61 as the 18th prime and 67 as the 19th prime.

default

default

The most obvious interesting feature of this 24-cell hexagon is it confines all numbers! That is, as the number line winds about toward infinity, bending around prime numbers, it never exits the 24 cells.


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\ No newline at end of file diff --git a/exponentiation/folder18/file11.html b/exponentiation/folder18/file11.html new file mode 100644 index 00000000..8c6dfa8a --- /dev/null +++ b/exponentiation/folder18/file11.html @@ -0,0 +1,143 @@ + Rational vs Irrational · ₠Quantum

Rational vs Irrational

---+-----+-----
+ 1 |  1  | 28
+---+-----+-----
+ 2 | 29  | 46
+---+-----+-----
+ 3 | 47  |{56}
+---+-----+-----
+ 4 |{57} | 61
+---+-----+-----
+ 5 | 62  | 82
+---+-----+-----
+ 6 | 83  | 94
+---+-----+-----
+ 7 | 95  | 99
+---+-----+-----
+ 8 |{100}|{123}
+---+-----+-----
+
           15
+           ↓
+           35
+           ↓ 
+---+-----+-----         
+11 | 51  | 53   ------
+---+-----+-----       |
+12 | 54  | 59         |    
+---+-----+-----       | 6th (id:14 - id:15)
+13 | 60  | 82         |
+---+-----+-----       |
+14 | 83  |{102} --289-¤-exponentiation zone
+---+-----+-----       | 7th (id:16 - id:19)
+15 |{103}| 110  ------
+---+-----+-----
+           ↓
+           15
+           ↓
+           35
+

Gematria is the practice of assigning a numerical value to a name, word or phrase according to an alphanumerical cipher. Single word can yield several values depending on which cipher is used. This cipher is sometimes erroneously labelled as "Jewish" or "Hebrew" by popular numerology calculators, such as Gematrix and Gematrinator.

A mathematical formula for finding a letter's corresponding number in Mispar Gadol

It is possible that this well-known cipher was used to conceal other more hidden ciphers in Jewish texts. For instance, a scribe may discuss a sum using the ‘standard gematria' cipher, but may intend the sum to be checked with a different secret cipher.

7(111) = 1117 = 7² + 7¹ + 7° = 49 + 7 + 1 = 57

In the standard (Mispar hechrechi) version of gematria, each letter is given a numerical value between 1 and 400, as shown in the following table. In the Mispar gadol variation, the five final letters are given their own values, ranging from 500 to 900.

Δ prime = 114th prime - 19 = (6 x 19)th prime - 19 = 619 - 19 = 600

  Sub  | i  |  β  | f   
+=======+====+=====+=======  ===   ===   ===   ===   ===   ===
+ 1:1:0 | 1  |   1 | 2 {71}   1     1     |     |     |     |
+-------+----+-----+-------  ---   ---    |     |     |     |
+ 1:2:1 | 2  |   2 | 3 {71}         |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:2:2 | 3  |   3 | 7 = 1 + 2x3    |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:3:3 | 4  |   4 | 10 = 9 + 1     |     |     |     |     |  
+-------+----+-----+----            |     |     |     |     |
+ 1:3:4 | 5  |   5 | 11 = 9 + 2     |     |     |     |     |
+-------+----+-----+----            9     1‘    |    Δ100   |
+*1:3:5 | 6  |   6 | 12 = 9 + 3     |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:4:6 | 7  |   7 | 13 = 9 + 4     |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+ 1:4:7 | 8  |   8 | 14 = 9 + 5     |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:4:8 |{9} |   9 | 15 = 9 + 6     |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:4:9 |{10}|  10 | 19 = 9 + 10    |     |     |     |     |
+=======+====+=====+====           ===   ---    1"   ---    |
+ 2:1:0 | 11 |  20 | 20 = 19 + log 10¹    |     |     |     |
+-------+----+-----+----                  |     |     |     |
+ 2:2:1 | 12 |  30 | 26 = 20 + 2x3        |     |     |     |
+-------+----+-----+----                  |     |     |     |
+*2:2:2 | 13 |  40 | 27 = 26 + 1          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+*2:3:3 | 14 |  50 | 28 = 26 + 2          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+ 2:3:4 | 15 |  60 | 29 = 26 + 3          9‘    |   Δ200  Δ600
+-------+----+-----+----                  |     |     |     |
+*2:3:5 | 16 |  70 | 30 = 26 + 4          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+*2:4:6 | 17 |  80 | 31 = 26 + 5          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+ 2:4:7 |{18}|  90 | 32 = 26 + 6          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+*2:4:8 |{19}| 100 | 36 = 26 + 10         |     |     |     |
+=======+====+=====+====                 ===   ---   ---    |
+*2:4:9 | 20 | 200 | 38 = 36 + log 10²          |     |     |
+-------+----+-----+----                        |     |     |
+ 3:1:0 | 21 | 300 | 40 = 36 + 2 x log 10²      |     |     |
+-------+----+-----+----                        |     |     |
+ 3:2:1 | 22 | 400 | 41 = 40 + 1                |     |     |
+-------+----+-----+----                        |     |     |
+*3:2:2 | 23 | 500 | 42 = 40 + 2                |     |     |
+-------+----+-----+----                        |     |     |
+*3:3:3 | 24 | 600 | 43 = 40 + 3                9"  Δ300    |
+-------+----+-----+----                        |     |     |
+ 3:3:4 | 25 | 700 | 44 = 40 + 4                |     |     |
+-------+----+-----+----                        |     |     |
+*3:3:5 | 26 | 800 | 45 = 40 + 5                |     |     |
+-------+----+-----+----                        |     |     |
+*3:4:6 | 27 | 900 | 46 = 40 + 6                |     |     |
+-------+----+-----+----                        |     |     |
+ 3:4:7 |{28}|1000 | 50 = 40 + 10               |     |     |
+=======+====+=====+====                       ===  ====  ----
+*3:4:8 |{29}|2000 | 68 = 50 + 3 x (2x3)      {10³} Δ600  Δ300
+=======+====+=====+====                        Δ         ====
+ 3:4:9 |{30}|3000 |{71}= 68 + log 10³ ---------¤         Δ900   
+

Instaneous connection

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+

It was as if some ghostly bridge across the city of Geneva, Switzerland, had permitted two photons of light nearly seven miles apart to respond simultaneously to a stimulus applied to just one of them.

Albert Einstein sneered at the very possibility of such a thing, calling it ‘‘spooky action at a distance.'' Scientists still (somewhat shamefacedly) speak of the ‘‘magic'' of ‘‘quantum weirdness.'' And yet all experiments in recent years have shown that Einstein was wrong and that action at a distance is real (New York Times).

split photons

layer | node | sub |    i     |   f
+------+------+-----+----------+-----+-----+-----+                                    ---
+      |      |     |    1,2:1 |   1 |  30 |  40 | 71 (2,3) ‹-------------------       |
+      |      |  1  +----------+-----+-----+-----+                              |      |
+      |  1   |     |        2 |                                                |      5¨  encapsulation
+      |      |-----+----------+            -----------------------------       |      |
+      |      |     |        3 |           |                             |      |      |
+  1   +------+  2  +----------+----       |       LAGGING SCHEME        |      |     ---
+      |      |     |        4 |           |    (Exponentiation Zone)    |      |      |
+      |      +-----+----------+           |                             |      |      |
+      |  2   |     |        5 |           ------------------------------       |      7¨  abstraction
+289   |      |  3  +----------+                                                |      |
+|     |      |     |        6 |  ‹---------------------------- Φ               | {6®} |
+------+------+-----+----------+-----+-----                                     |     ---
+      |      |     |     11:7 |   5 |   9 |  14 (20) --------› ¤               |      |
+      |      |  4  +----------+-----+-----+-----+                              |      |
+      |  3   |     |     12:8 |   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+      |      +-----+----------+-----+-----+-----+                       |      |      |
+      |      |     |     13:9 |   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+  2   +------|  5  +----------+-----+-----+-----+                       |      |     ---
+      |      |     |    14:19 |   9 |  60 |  40 | 109 (28) -------------       |      |
+      |      |-----+----------+-----+-----+-----+                              |      |
+      |  4   |     | 15,18:11 |   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+

The twin-photon experiment by Dr. Nicolas Gisin of the University of Geneva and his colleagues was the most spectacular demonstration yet of the mysterious long-range connections that exist between quantum events, connections created from nothing at all, which in theory can reach instantaneously from one end of the universe to the other.

According to quantum mechanics, particles are simultaneously in two or more states until observed – an effect vividly captured by Schrödinger's famous thought experiment of a cat that is both live and dead simultaneosly.

Importantly, there is also no conflict with special relativity, which forbids faster-than-light communication. The fact that measurements over vast distances are correlated does not imply that information is transmitted between the particles. Two parties far apart performing measurements on entangled particles cannot use the phenomenon to pass along information faster than the speed of light. (Astronomy).

Schrödinger's cat

Dark Energi

image

Our results show that about 69% of our universe's energy is dark energy. They also demonstrate, once again, that Einstein's simplest form of dark energy – the cosmological constant – agrees the most with our observations (The Conversation).

Many physicists aren't satisfied with this explanation, though. They want a more fundamental description of its nature. Is it some new type of energy field or exotic fluid? Or is it a sign that Einstein's equations of gravity are somehow incomplete? What's more, we don't really understand the universe's current rate of expansion (The Conversation).

image

The multiverse is a hypothetical group of multiple universes. Together, these universes comprise everything that exists: the entirety of space, time, matter, energy, information, and the physical laws and constants that describe them. The different universes within the multiverse are called "parallel universes", "other universes", "alternate universes" (Wikipedia).

default

102 = 2 + 100 = 2 + 60 + 40

residual-objects

default

genetic material


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\ No newline at end of file diff --git a/exponentiation/folder18/file12.html b/exponentiation/folder18/file12.html new file mode 100644 index 00000000..c8716b6e --- /dev/null +++ b/exponentiation/folder18/file12.html @@ -0,0 +1,67 @@ + Rotation vs Revolution · ₠Quantum

Rotation vs Revolution

---+-----+-----
+ 1 | {1} | {2}
+---+-----+-----
+ 2 |  3  | 101
+---+-----+-----
+ 3 |{102}| 111
+---+-----+-----
+

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In mathematics, a tensor is an algebraic object that describes a multilinear relationship between sets of algebraic objects related to a vector space. Tensors may map between different objects such as vectors, scalars, and even other tensors.

In some areas, tensor fields are so ubiquitous that they are often simply called "tensors". Tullio Levi-Civita and Gregorio Ricci-Curbastro popularised tensors in 1900 – continuing the earlier work of Bernhard Riemann and Elwin Bruno Christoffel and others – as part of the absolute differential calculus. The concept enabled an alternative formulation of the intrinsic differential geometry of a manifold in the form of the Riemann curvature tensor (Wikipedia).

Tensor

A Riemann surface is a "universe" locally modelled on open sets in the complex plane, and equipped with extra structure so that complex analysis can be done. Polynomial equations in two variables define special Riemann surfaces, called plane curves, such asthe "circle" z2 + w2 = 1, ( rotating the w-plane), the "cubic" z3 + w2 = 1, the "nodal cubic" z3 + z2 = w2, and the "Fermat quartic" z4 + w4 = 1 (Pinterest).

Gann Chart

Δ300

Moon's orbit

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1 year = 12 months
+1000 years = 12,000 months
+
+c = 12,000 x L / t
+  = 12,000 x 2152612.336257 km / 86164.0906 sec
+  = 299,792.4998 km / sec
+
+Note:
+Te = earth revolution = 365,25636 days
+R = radius of moon rotation to earth = 384,264 km
+V = moon rotation speed = 2πR/Tm = 3682,07 km/hours
+Ve = excact speed = V cos (360° x Tm/Te) = V cos 26,92848°
+Tm = moon revolution (sidereal) = 27,321661 days = 655,719816 hours
+t = earth rotation (sinodik) = 24 hours = 24 x 3600 sec = 86164.0906 sec
+L = Ve x Tm = 3682,07 km/hours x cos 26,92848° x 655,71986 = 2152612.336257 km
+

So by the theory of E=mc² to raise up a particle on earth it should be a groups of galaxies that rationaly and irrationaly parallel to its position in our Solar system. It was predicted that we have 1012 stars in our galaxy and 2×1012 galaxies in the universe.

In 2016, using 20 years of images from the Hubble space telescope, it was estimated that there were in total two trillion (2×1012) or more galaxies in the observable universe, and as many as an estimated 1×1024 stars (more stars than all the grains of sand on all beaches of the planet Earth) (Wikipedia)

image

Recent observation and a census from NASA Hubble Telescope together with other observatories show that observable Universe may contain 10 times more Galaxies than previous estimates! So remember, this number won't get the end story.

286 - (231x5)/(11x7) = 286 - 1155/77 = 286 - 15 = 200 + 71 = 271

-----+-----+-----+-----+-----+                                               ---
+ 19¨ |  3¨ |  4¨ |  6¨ |  6¨ | 4¤                                             |
+-----+-----+-----+-----+-----+                                                |
+ 17¨ | {5¨}| {3¨}|  2¨ |  7¨ | 4¤                                             |
+     +-----+-----+-----+-----+                                                |
+{12¨}|  6¨ |  6¨ |  2¤ (M dan F)                                              |
+     +-----+-----+-----+                                                     17¤
+ 11¨ |  3¨ | {3¨}| {5¨}| 3¤                                                   |
+-----+-----+-----+-----+-----+                                                |
+ 19¨ |  4¨ |  4¨ |  5¨ |  6¨ | 4¤                                             |
+     +-----+-----+-----+-----+                                               ---
+{18¨}|  5¨ |  5¨ |  8¨ | 3¤                                                   |
+     +-----+-----+-----+-----+-----+-----+-----+-----+-----+                 12¤
+ 43¨ | {3¨}| {5¨}|  5¨ | {5¨}| {3¨}|  7¨ | {5¨}| {3¨}|  7¨ | 9¤ (C1 dan C2)   |
+-----+-----+-----+-----+-----+-----+-----+-----+-----+-----+                 ---
+139¨ |-----  13¨  -----|------ 15¨ ------|------ 15¨ ------|
+     |  1     2     3  |  4     5     6  |  7     8     9  |
+                    Δ                 Δ                 Δ       
+

layer | node | sub |    i     |   f
+------+------+-----+----------+-----+-----+-----+                                    ---
+      |      |     |    1,2:1 |   1 |  30 |  40 | 71 (2,3) ‹-------------------       |
+      |      |  1  +----------+-----+-----+-----+                              |      |
+      |  1   |     |        2 |                                                |      5¨  encapsulation
+      |      |-----+----------+            -----------------------------       |      |
+      |      |     |        3 |           |                             |      |      |
+  1   +------+  2  +----------+----       |       LAGGING SCHEME        |      |     ---
+      |      |     |        4 |           |    (Exponentiation Zone)    |      |      |
+      |      +-----+----------+           |                             |      |      |
+      |  2   |     |        5 |           ------------------------------       |      7¨  abstraction
+289   |      |  3  +----------+                                                |      |
+|     |      |     |        6 |  ‹---------------------------- Φ               | {6®} |
+------+------+-----+----------+-----+-----                                     |     ---
+      |      |     |     11:7 |   5 |   9 |  14 (20) --------› ¤               |      |
+      |      |  4  +----------+-----+-----+-----+                              |      |
+      |  3   |     |     12:8 |   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+      |      +-----+----------+-----+-----+-----+                       |      |      |
+      |      |     |     13:9 |   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+  2   +------|  5  +----------+-----+-----+-----+                       |      |     ---
+      |      |     |    14:19 |   9 |  60 |  40 | 109 (28) -------------       |      |
+      |      |-----+----------+-----+-----+-----+                              |      |
+      |  4   |     | 15,18:11 |   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+


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\ No newline at end of file diff --git a/exponentiation/folder18/file13.html b/exponentiation/folder18/file13.html new file mode 100644 index 00000000..6dd91f18 --- /dev/null +++ b/exponentiation/folder18/file13.html @@ -0,0 +1,143 @@ + Zeta vs Zero · ₠Quantum

Zeta vs Zero

---+-----+-----
+ 1 | 1   | 18
+---+-----+-----
+ 2 | 19  | 29
+---+-----+-----
+ 3 | {30}|{43}
+---+-----+-----
+
Scheme 13:9
+===========
+(1){1}-7:   7'
+(1){8}-13:  6‘
+(1)14-{19}: 6‘
+------------- 6+6 -------
+(2)20-24:   5'           |
+(2)25-{29}: 5'           |
+------------  5+5 -------
+(3)30-36:   7:{70,30,10²}|
+------------             |
+(4)37-48:   12• ---      |
+(5)49-59:   11°    |     |
+            --}30° 30•   |
+(6)60-78:   19°    |     |
+(7)79-96:   18• ---      |
+--------------           |
+(8)97-109:  13           |
+(9)110-139:{30}=5x6 <--x-
+            --
+           {43}
+

image

1155 / 5 = 286 - 55 = 200 + 31 = 231

layer|  i    |   f
+-----+-------+------
+     | 1,2:1 | (2,3)
+  1  +-------+
+     | 3:2   | (7)
+-----+-------+------
+     | 4,6:3 | (10,11,12)  <--- 231 (3x)
+  2  +-------+
+     |{7}:4  |({13})
+-----+-------+------
+     | 8,9:5 | (14,{15})   <--- 231 (2x)
+  3  +-------+
+     | 10:6  | (19)
+-----+-------+------
+

139 = 34th prime =(2x17)th prime

We study the limit shape of the generalized Young diagram when the tensor power N and the rank n of the algebra tend to infinity with N/n fixed. We derive an explicit formula for the limit shape and prove convergence to it in probability. We prove central limit theorem for global fluctuations around the limit shape (arXiv:2010.16383v4).

Limit shape for infinite rank limit of tensor power decomposition for Lie algebras of series

True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+|------------------------- Skema-12 ------------------------|
+|------------ 6¤ -------------|------------- 6¤ ------------|
+|--------------------------- 192 ---------------------------|
+|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---|
++----+----+----+----+----+----+----+----+----+----+----+----+
+|  5 |  7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 |
++----+----+----+----+----+----+----+----+----+----+----+----+
+|---------  5¤  ---------|---- {48} ----|----- {48} ---|{43}|
+|---------  5¤  ---------|------------ {96} -----------|{43}|
+|--------- {53} ---------|-------------- {139} -------------|
+|------- Skema-23 -------|------------- Skema-34 -----------|    
+

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|------------ 36' --------------|----------------------------36' ----------------------------|
+|     19'     |        17'      |      13'     |      11'     |       7'      |       5'     |
++---+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+| 1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
++---+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+| 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
++---+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+| ° |ΔΔΔΔ  ΦΦ | •   ΔΔ   ΔΔ   ¤ | •   ΔΔ   ΦΦΦ    Φ   ΦΦ  ¤¤¤¤|  •   ΔΔ   ΦΦΦ    Φ   ¤¤   ΦΦ |  
+
+|---- 102  ---|-----  66  ------|-------- 329 = 7 x 47 -------|- 289 = (8+9)² = 2 & (2³+9²) -|
+|--2x3x(8+9)--|--- 2x3x(2+9) ---|---- (1+2) & (2x9)+(2+9) ----|------ 2 & (8x9)+(8+9) -------|
+|-------- 168 = π(1000) --------|------ 1229 = π(10000) ------|------ π(89²) = 1000 ---------|
+|-------- 168 = π(618xΦ) -------|----- 618 = 1000/Φ = 1000x1000/1618 = 10^6/(2x8)&(2x9) -----|
+

919 = 1 + 6(1 + 2 + 3 + 4 + 5 + 6 + 7 + 8 + 9 + 10 + 11 + 12 + 13 + 14 + 15 + 16 + 17) = 1 + 6(153)

286 - (231x5)/(11x7) = 286 - 1155/77 = 286 - 15 = 200 + 71 = 271

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th ←------------ 10
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+  =======================+====+====+====+====+====+====+====+====+====+=====  ←-- bilateral 9 sums
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+

These objects will then behave as a complex numbers that leads to trivial and complex roots of the 18th prime identity. Since the arithmetic mean of those primes yields 157 then the existence of 114 will remain to let this 18+19=37th prime number stands as the balanced prime.

Input (12) + Query (15) + Result (19) + Ouput (22) = Total 68 Objects

image

layer | node | sub |    i     |   f
+------+------+-----+----------+-----+-----+-----+                                    ---
+      |      |     |    1,2:1 |   1 |  30 |  40 | 71 (2,3) ‹-------------------       |
+      |      |  1  +----------+-----+-----+-----+                              |      |
+      |  1   |     |        2 |                                                |      5¨  encapsulation
+      |      |-----+----------+            -----------------------------       |      |
+      |      |     |        3 |           |                             |      |      |
+  1   +------+  2  +----------+----       |       LAGGING SCHEME        |      |     ---
+      |      |     |        4 |           |    (Exponentiation Zone)    |      |      |
+      |      +-----+----------+           |                             |      |      |
+      |  2   |     |        5 |           ------------------------------       |      7¨  abstraction
+289   |      |  3  +----------+                                                |      |
+|     |      |     |        6 |  ‹---------------------------- Φ               | {6®} |
+------+------+-----+----------+-----+-----                                     |     ---
+      |      |     |     11:7 |   5 |   9 |  14 (20) --------› ¤               |      |
+      |      |  4  +----------+-----+-----+-----+                              |      |
+      |  3   |     |     12:8 |   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+      |      +-----+----------+-----+-----+-----+                       |      |      |
+      |      |     |     13:9 |   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+  2   +------|  5  +----------+-----+-----+-----+                       |      |     ---
+      |      |     |    14:19 |   9 |  60 |  40 | 109 (28) -------------       |      |
+      |      |-----+----------+-----+-----+-----+                              |      |
+      |  4   |     | 15,18:11 |   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+

As you can see, starting with 1, and doubling it (1+1) we got 2, again, doubling 2 (2+2) we got 4. Further doubling 32 (32+32) we got 64 and summing up 6+4 gave us 10 which again summing up the two digits gave us 1. If you keep following this pattern, It will always give us the digits 1, 2, 4, 5, 7, 8. Even summing 7+7 gives 14 which further gives 5 (1+4).

image

RiemannZeta Zeros

Based on Prime (7): 142857 then id: 28 from the last case will end up in id: 57 i.e. in the flowchart so that in turn they can point us to the algorithm tensor from the stop point to id: 114 on the third screen.

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                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         |    |
+                                |                             |                         |    |
+                                 ------------ 10 -------------                          |    |
+                                                                                        ↓    ↓ |
+                                                                                +----+----+----+---+----+----+---+
+                                                                                |  2 | 60 | 40 | 1 | 30 | 30 | 5 |
+                                                                                +----+----+----+---+----+----+---+
+                                                                                        |    | |
+                                                                                     2+100 ◄- 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

2023-03-17 (2)

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Consider that all creatures will go mature just like our body which is stop growing in a certain of condition. Therefore an instance will become an inside container by leaving the central as black hole and derived all of residual objects to outer level. This is what the ten (10) digits of 0719425863 in Euler's number got something to do.

(1729 + 571 - 500) / (157 - 57) = 1800 / 100 = 18th prime identity = 110 objects

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The above 0719425863 is implicity state the identity of seven (7) after zero (0). By the prime hexagon, it match with the 0th-step of 18 identities and 1st-step of the seven (7) prime identities from 19th to 25th. So when it goes to four (4) prime identities from 26th and end up to the 29th it will open up a gap at the 27th which linkages with the 110 objects of the 18th.


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\ No newline at end of file diff --git a/exponentiation/folder18/file14.html b/exponentiation/folder18/file14.html new file mode 100644 index 00000000..b3291c7b --- /dev/null +++ b/exponentiation/folder18/file14.html @@ -0,0 +1,57 @@ + Anti Parallel · ₠Quantum

Anti Parallel

---+-----+-----
+ 1 | 1   | 4
+---+-----+-----
+ 2 |{5}  |{8}
+---+-----+-----
+ 3 | 9   |{17}
+---+-----+-----
+ 4 |{18} |{23}
+---+-----+-----
+ 5 | 24  | 27
+---+-----+-----
+ 6 | 28  | 34
+---+-----+-----
+ 7 |{35} |{41}
+---+-----+-----
+ 8 |{42} |{52}
+---+-----+-----
+

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19 vs 18 Scenario

Thus in short here below is all the method that we called as the 19 vs 18 Scenario of mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17).

[(6 + 6) x 6] + [6 + (6 x 6)] = 72 + 42 = 71 + 42 + 1 = 114 objects

The Prime Recycling ζ(s):
+(2,3), (29,89), (36,68), (72,42), (100,50), (2,3), (29,89), ...**infinity**
+----------------------+-----+-----+-----+                                    ---
+     7 --------- 1,2:1|   1 |  30 |  40 | 71 (2,3) ‹-------------@----        |
+     |                +-----+-----+-----+-----+                        |      |
+     |  8 ‹------  3:2|   1 |  30 |  40 |  90 | 161 (7) ‹---           |      5¨  encapsulation
+     |  |             +-----+-----+-----+-----+             |          |      |
+     |  |  6 ‹-- 4,6:3|   1 |  30 | 200 | 231 (10,11,12) ‹--|---       |      |
+     |  |  |          +-----+-----+-----+-----+             |   |      |     ---
+      --|--|-----» 7:4|   1 |  30 |  40 | 200 | 271 (13) --›    | {5®} |      |
+        |  |          +-----+-----+-----+-----+                 |      |      |
+         --|---› 8,9:5|   1 |  30 | 200 | 231 (14,15) ---------›       |      7¨  abstraction
+289        |          +-----+-----+-----+                              |      |
+ |          ----› 10:6|  ----------------------------› Φ               | {6®} |
+  --------------------+-----+-----+-----+                              |     ---
+     67 --------› 11:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   ---› 14:10|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+                              |      |
+     |   ---› 15,18:11|   1 |  30 |  40 | 71 (29,30,31,32) ----------        13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹------- Φ                      |
+   -------------------+-----+-----+                                          ---
+    786 ‹------- 20:13|  90 |  90 (38) ‹-------------- ¤                      |
+     |                +-----+-----+                                           |
+     | 618 ‹- 21,22:14|   8 |  40 |  48 (40,41) ‹----------------------      17¨  class
+     |  |             +-----+-----+-----+-----+-----+                  |      |
+     |  | 594 ‹- 23:15|   8 |  40 |  70 |  60 | 100 | 278 (42) «--     |{6'®} |
+     |  |  |          +-----+-----+-----+-----+-----+             |    |     ---
+      --|--|-»24,27:16|   8 |  40 |  48 (43,44,45,46) ------------|----       |
+        |  |          +-----+-----+                               |           |
+         --|---› 28:17| 100 | {100} (50) ------------------------»           19¨  object
+168        |          +-----+                                                 |
+|         102 -› 29:18| 50  | 50(68) ---------> Δ18                           |
+----------------------+-----+                                                ---
+

Historical Events

William Delbert Gann is perhaps the most mysterious of all the famous traders in history. Known for using geometry, astrology and ancient mathematics to predict events in the financial markets and historical events, evenso influences on the weather.

11 x 30 = 330 = 329 + 1

<div align="center">In March, Saturn was at 224° and Venus was at 344°. The corn top price was ¢137, which was around 104°,
thus the three points loosely formed a Grand Trine (Wikipedia).</div>

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1 container + 7 blocks + 29 flats + 77 rooms = f(0719425863) + 7 blocks + 29 flats + 77 rooms = 114 objects

[]

Balanced Structural

For starters, it possesses a perfectly balanced structural and numeric symmetries. So it conforms the intervals between the prime roots of the Prime Spiral Sieve (and every subsequent row or rotation of the sieve) with the period eight (8) difference sequence.

Φ(10,2) = 10² + 2x(10th prime) + 10¹ = 100+29 + 29+10 = 129 + 39 = 168 = π(1000)

8 objects

To represent as a gap then this drive is supposed to not exist phisically by a computer, this could be replaced by special folders using shared drives such as Google Drive that you can use to store, search, and access files with a team.

As of May 2022, shared drives are available to Google Workspace accounts including Education Fundamentals, Teaching & Learning Upgrade, Standard, and Plus, Nonprofits, Business Standard and Plus, Enterprise, and G Suite Business; Essentials.

Google Drive

It is also a form of the existence of DNA. The topology of DNA refers to the specific spatial structure formed by further distortion on the basis of the DNA double helix. Superhelical structure is the main form of topology, which can be divided into positive supercoil and negative supercoil, under corresponding conditions, they can transform each other.

The topology of DNA

Gann was a very devout man and honestly believed that he had found the key to predictable markets because of his study of the Bible in conjunction with his (supposed) study of many esoteric math theory from Greece and Egypt and his study of astrology.

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It may take many years of serious study to master it. And most of the methods available online doesnt have anything to do with Gann. His books are also just means to put in the right path.

Even though Gann was thought to be "religious", a careful analysis of his writings finds that he did not agree with the conventional Christian teachings (Wikipedia).

WD Gann - A Trader Legend

Real mastery and understanding is still programmed in such a way that only the most qualified and determined candidates could learn it and keep it remain as a secret, just as he desired.


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\ No newline at end of file diff --git a/exponentiation/folder18/file15.html b/exponentiation/folder18/file15.html new file mode 100644 index 00000000..364ec4bb --- /dev/null +++ b/exponentiation/folder18/file15.html @@ -0,0 +1,169 @@ + Mass vs Gap (Δ) · ₠Quantum

Mass vs Gap (Δ)

This section will be the last one of our presentation of 18th prime identity. Here we are going to explain one more item that is still open or undiscussed which is about what the 77 objects are going to do within the 19 vs 18 Scenario.

15 + 35 + 28 = 15 + 63 = 78 = 77 + 1

---+-----+-----
+ 1 | 1   | 15
+---+-----+-----
+ 2 | 16  | 25
+---+-----+-----
+ 3 | 26  | 50
+---+-----+-----
+ 4 | 51  | 84
+---+-----+-----
+ 5 | 85  | 99
+---+-----+-----
+
$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6®
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6®
+      |  6  | 19
+ -----+-----+---------
+

In many ways, a black hole acts like an ideal black body, as it reflects no light. Here is an animated simulation of a Schwarzschild black hole with a galaxy passing behind. Around the time of alignment, extreme gravitational lensing of the galaxy is observed.

black hole

                largest part=21 → 11+13+12=36 →  MEC30
+                        ↓                      |
+---+-----+-----+-----+-----+                   ↓
+ 1 | 19  | 1   | 20  | 21  |-------------------|-----
+---+-----+-----+-----+-----+                   ↓     |
+ 2 | 18  | 21  | 39  | 60  |-------------------      |
+---+-----+-----+-----+-----+                   |     |
+ 3 |{63} | 40  | 103 | 143 |-------------      |     |
+---+-----+-----+-----+-----+             |     |     |
+ 4 | 37  | 104 | 141 | 245 |-------      |     |     |
+---+-----+-----+-----+-----+       |     |     |     |
+ 5 | 10* | 142 | 152 | 294 |- 11** | 13  | 12  | 12  | 18
+---+-----+-----+-----+-----+       |     |     |     |
+ 6 | 24  | 153 | 177 | 332 |-------      |     |     |
+---+-----+-----+-----+-----+             |     |     |
+ 7 | 75  | 178 | 253 | 431 |-------------      |     |
+---+-----+-----+-----+-----+                   |     |
+ 8 | 30  | 254 | 284 | 538 |-------------------      |
+---+-----+-----+-----+-----+                   ↓     |
+ 9 | 1   | 285 | 286 | 571 |-------------------|-----
+===+=====+=====+=====+=====+                   ↓
+45 | 277 |                      ← 11+13+12=36 ←  MEC30
+---+-----+                                     |
+ ↑
+Note:
+10* stands as the central rank
+11** stands as the central parts
+

According to the observations made by NASA, Astronomers have uncovered TON 618 as the record breaking supermassive black hole, weighing 66 trillion and brilliantly as 140 trillion times that of the Sun, making it one of the brightest object in the Universe.

default

If the statement that it is indeed located at the center of our universe then the said black hole would behave as the exchange position between twin (2) universes. This would for sure strengthen the syntax algorithm of our implementation.

7 x 11 = 77 = 99 - 22 = 11 x (9 -2)

  #8  |------- 5® --------|------------ 7® --------------|
+      | 1 |-------------- 77 = 4² + 5² + 6² -------------|
+------+---|---+---+---+---+---+---+---+---+----+----+----+
+ repo |{1}|{2}| 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+------+---|---+---+---+---+---+---+---+---+----+----+----+
+ user | 7 | - | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+------+---|---+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main | - | 9 | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+------+---|---+---+---+---+---+---+---+---+----+----+----+
+        Δ | Δ             |                      Δ  |   Δ
+       Φ17|Φ29            |                    96-99|  100 - 123 ({24})
+          |--- A,T,G,C ---|                         |  └── 100 - 103 (4x) » 100
+          Δ    2x2 = 4x   |-------  2x3 = 6x -------|  └── 104 - 109 (6x) » 30
+         {98}                                       |  └── 110 - 123 (14x)» 70
+
+
Direction:
+- The initial of 168 & 329 brings the 102 as 100+2 to π(π(10000))-1=200 or 100 x 2.
+- Then the 289 lets this 100x2 to 100² so it brings 100 to 10000 by the power of 2.
+- At the last it will be separated by the scheme of 168 to 102 goes back 100 and 2.
+ 
+Conclution:
+- All of the other primes than 2 is 1 less than the number n times the number of 2. 
+- Those Mersenne primes is generated as 1 less than the power n of the number of 2. 
+- Thus they will conseqently be carried out by the same scheme of this number of 2.
+

Perceptually, everything is separate and finite. But actually, everything is connected and infinite. It is this infinite connection, despite our limited finite perceptions, that makes us one with the cosmos.

Primes Platform

Each result goes to the 9th object of prime 67 which is 19th prime. This mass gap of (Δ > 0) is actually the quantum way of our algorithm which is discused in details by the 19th prime identity.

So when the cycle has passed the 10th object then the 43 objects will be laid by 9 collumns and slightly forming bilateral 9 sum which facilitate them to finaly generate 1000 primes.

1 instance + 7 blocks + 29 flats + 77 rooms = 114 objects

True Prime Pairs:
+(5,7), (11,13), (17,19)
+                
+-----+-----+-----+-----+-----+     -----------------------------------------------
+{786}| 1,2 |  2  | 2,3 | 3,4 | {19}                                          |
+-----+-----+-----+-----+-----+                                               |
+ {86}|  4  | 4,5 | 5,6 |{6,7}| 17                                        Base Zone
+     +-----+-----+-----+-----+                                               |
+ {78}|{7,8}| 8,9 | 12 (M dan F) ----> Δ                                      |
+     +-----+-----+-----+                                               -----------
+ {67}| 9,11|11,12|12,14| 11 <----------- Mid Zone                            |
+ ----+-----+-----+-----+-----+                                               |
+  {6}|15,16|17,18|18,20|21,22| 19                                      Mirror Zone
+     +-----+-----+-----+-----+                                               |
+  {8}|23,25|25,27|27,29| 18                                                  |
+     +-----+-----+-----+-----+-----+-----+-----+-----+-------+         -----------
+  {7}|29,33|33,36|36,39|39,41|41,45|46,51|51,57|58,66|{67,77}| 43 (C1 dan C2)<---Δ
+-----+-----+-----+-----+-----+-----+-----+-----+-----+-------+         -----------
+     |  1     2     3  |   4     5     6 |   7     8      9  |
+     |------ 29' ------|--------------- 139' ----------------|
+     |------ 102¨ -----|---------------  66¨ ----------------|
+

When recombination is occur then the prime 13 is forced to → 12 where the impact (Δ1) goes to 18+13+12=43 on the last 7th row forming the Primes Platform. Thus we got 109 objects including for the 7 rows back to the original stage.

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+Sequence:
+ By the next layer the 89² will become 89 and 5 become 5² or 25.
+ This 89 and 25 are in the same layer with total of 114 or prime 619
+ So sequence from the first prime is 1,4,7,10,29,68,89,114,139,168,329,618.
+

[(6 + 6) x 6] + [6 + (6 x 6)] = 72 + 42 = 71 + 42 + 1 = 114 objects

The Prime Recycling ζ(s):
+(2,3), (29,89), (36,68), (72,42), (100,50), (2,3), (29,89), ...**infinity**
+----------------------+-----+-----+-----+                                    ---
+     7 --------- 1,2:1|   1 |  30 |  40 | 71 (2,3) ‹-------------@----        |
+     |                +-----+-----+-----+-----+                        |      |
+     |  8 ‹------  3:2|   1 |  30 |  40 |  90 | 161 (7) ‹---           |      5¨  encapsulation
+     |  |             +-----+-----+-----+-----+             |          |      |
+     |  |  6 ‹-- 4,6:3|   1 |  30 | 200 | 231 (10,11,12) ‹--|---       |      |
+     |  |  |          +-----+-----+-----+-----+             |   |      |     ---
+      --|--|-----» 7:4|   1 |  30 |  40 | 200 | 271 (13) --›    | {5®} |      |
+        |  |          +-----+-----+-----+-----+                 |      |      |
+         --|---› 8,9:5|   1 |  30 | 200 | 231 (14,15) ---------›       |      7¨  abstraction
+289        |          +-----+-----+-----+-----+-----+                  |      |
+ |          ----› 10:6|  20 |   5 |  10 |  70 |  90 | 195 (19) --› Φ   | {6®} |
+  --------------------+-----+-----+-----+-----+-----+                  |     ---
+     67 --------› 11:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   ---› 14:10|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+                              |      |
+     |   ---› 15,18:11|   1 |  30 |  40 | 71 (29,30,31,32) ----------        13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
+   -------------------+-----+-----+                                          ---
+    786 ‹------- 20:13|  90 |  90 (38) ‹-------------- ¤                      |
+     |                +-----+-----+                                           |
+     | 618 ‹- 21,22:14|   8 |  40 |  48 (40,41) ‹----------------------      17¨  class
+     |  |             +-----+-----+-----+-----+-----+                  |      |
+     |  | 594 ‹- 23:15|   8 |  40 |  70 |  60 | 100 | 278 (42) «--     |{6'®} |
+     |  |  |          +-----+-----+-----+-----+-----+             |    |     ---
+      --|--|-»24,27:16|   8 |  40 |  48 (43,44,45,46) ------------|----       |
+        |  |          +-----+-----+                               |           |
+         --|---› 28:17| 100 | {100} (50) ------------------------»           19¨  object
+168        |          +-----+                                                 |
+|         102 -› 29:18| 50  | 50(68) ---------> Δ18                           |
+----------------------+-----+                                                ---
+

The above is observed following the W0 (assumptions of relativistic quantum mechanics) for the Existence and Mass Gap which transform under the homogeneous group as a four-vector and has a mass gap Δ > 0.

Yang–Mills Existence and Mass Gap. Prove that for any compact simple gauge group G, a non-trivial quantum Yang–Mills theory exists on R^4 and has a mass gap Δ > 0 (Wikipedia).

image origin action

runner

Everything is linked

The ζ(s) will behave as the other universe (not the twin) which was initiated paralelly by a big bang. While this parts are relativity young. it will continue to grow as a four-vector. So it will need a gap between each identities to proceed the thing.

Once a black hole has formed, it can continue to grow by absorbing additional matter. Any black hole will continually absorb gas and interstellar dust from its surroundings. This growth process is one possible way through which some supermassive black holes may have been formed (Wikipedia)

Infinite number

By our universe it could be represented by the central black hole which is very strong to throw away every objects but it has no resistance against any exchange from the other universe.

In quantum field theory, the mass gap is the difference in energy between the lowest energy state, the vacuum, and the next lowest energy state. The energy of the vacuum is zero by definition, and assuming that all energy states can be thought of as particles in plane-waves, the mass gap is the mass of the lightest particle (Wikipedia).

the central black hole_

So by the ζ(s) then our multiverse is belong to a group of multiple universes inside the lightest particle of a mass gap out of one of the like of them somewhere in an infinite number of another parallel universes.

Prof Stephen Hawking's final research paper suggests that our Universe may be one of many similar (BBC News).

everything is linked

Another suggestion which has just yet been in a topic of the science is that the similar behaviour also happen by particles such as hydrogen which is throwing all of the waves out of the central. So hypothetically it suppose to have a populated infinite number of its own parallel universes because whatever a smallest thing is arised, they could only exist by the same law of physics,

Wave functions of the electron in a hydrogen atom at different energy levels. Quantum mechanics cannot predict the exact location of a particle in space. The brighter areas represent a higher probability of finding the electron (Wikipedia).

the electron in a hydrogen

Consider that this law of physics would exist everywhere. So it is also one of their law when the 1st sequence of the ten (10) digits of 0719425863 in Euler's number is zero (0). Thus theoretically it speaks if an existence of everything arose from nothingness.

₠Quantum Project
Copyright © 2022 All rights reserved.

Reference:


₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/exponentiation/folder18/index.html b/exponentiation/folder18/index.html new file mode 100644 index 00000000..e20e2745 --- /dev/null +++ b/exponentiation/folder18/index.html @@ -0,0 +1,68 @@ + The Implementation (grammar) · ₠Quantum

The Implementation (grammar)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

By parsering π(1000)=168 primes of the 1000 id's across π(π(10000))-1=200 of this syntax then the (Δ1) would be initiated. Based on Assigning Sitemap priority values You may see them are set 0.75 – 1.0 on the sitemap's index:

Priority	Page Name
+1	        Homepage
+0.9	        Main landing pages
+0.85	        Other landing pages
+0.8	        Main links on navigation bar
+0.75	        Other pages on site
+0.8	        Top articles/blog posts
+0.75	        Blog tag/category pages
+0.4 – 0.7	Articles, blog posts, FAQs, etc.
+0.0 – 0.3	Outdated information or old news that has become less relevant
+

By this object orientation then the reinjected primes from the π(π(10000))-1=200 will be (168-114)+(160-114)=54+46=100. Here are our layout that is provided using Jekyll/Liquid to facilitate the cycle:


+---
+layout: tasks/compress                             π(89²) = 1000  sitemap.xml
+---                                                       |
+
+{%- include extra/rest/defaults.liquid -%}
+{%- include leads/rest/defaults.liquid -%}      1000/Φ = 618  feeds.xml (Google API)
+                                                          |                                                
+<!DOCTYPE html>--------------------------------------------
+<html lang="{{ lang }}" dir="{{ direction }}">
+	<head>
+	{%- if branch == "eQ19" -%}
+		{%- include leads/metadata.liquid -%}
+		{%- include leads/cards.liquid -%}
+		{%- include leads/opengraph.liquid -%}
+		{%- include leads/links.liquid -%}
+		{%- include leads/title.liquid -%}
+		{%- include leads/script.liquid -%}
+		{%- include leads/schema.liquid -%}      289  feed.xml (Google Cloud)
+		{%- include leads/gtag.liquid -%}         |
+	</head>--------------------------------------------
+	<body>
+		{%- include leads/noscript.liquid -%}
+		{%- include templates/content.liquid -%}
+		{%- include templates/addons.liquid -%}
+		{%- include extra/body.html -%}
+		{%- include extra/rest/script.liquid -%}
+		{%- include leads/mermaid.liquid -%}
+		{%- include leads/mathjax.liquid -%}
+		{%- include leads/adsense.liquid -%}     329  feeds.json (GitHub API)
+		{%- include leads/sumo.liquid -%}         |
+	{%- else -%}---------------------------------------
+		{%- for section in sections %}
+			{{- section.output }}            168  feed.json (GitHub Pages)
+		{%- endfor -%}                            |
+	{%- endif -%}--------------------------------------
+	</body>                                           4
+</html> 					       π(1000)  π(π(89²))  sitemap.xml
+
+

Within a cycle this scheme would generate the prime platform which is performing the rank of 10 shapes starting with the primes 2,3,5,7. Via the 11 partitions as the lexer and 13 frames as the parser we do a recombination to build the grammar in 6 periods.

6 minor hexagons

When recombination is occur then the prime 13 is forced to → 12 where the impact (Δ1) goes to 18+13+12=43 on the last 7th row. This sequence is simulated by a flowchart having 12 arrows flowing on 10 (ten) shapes of prime 31 up to 71 (40 nodes).

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17) (₠Quantum).

flowchart

By this project the above would be deployed as default layout. It is set to be avalaible throughout the whole platform via a single page within a parser repository which is acting as prime 13. Their interface will be in json and xml format.

Here is for the sample:

{
+  "title":"Mapping System",
+  "content":"<p>Hello, <strong>world</strong>.\nI am here.</p>\n",
+  "links": [
+    {"title":"Introduction","url":"https://www.eq19.com/intro/"},
+    {"title":"Go tour on Mapping System ","url":"https://www.eq19.com/maps/"},
+    {"title":"A backed pretty display for markdown","url":"https://www.eq19.com/gistio/"},
+    {"title":"Gist.io for programmers","url":"https://gist.io/@eq19/d2336e28e79702acf38edd182003d5e0"}
+  ]
+}
+

Using a kind of interface such as docker then it could be developed cross platform. Evenso. Let assume that all alpabethic letter in the sequence is representing a local disk so you may build your own pattern in your PC such as shown below:

default

By The GitHub Runner you can connect to the Google COS Instance. For self-hosted runners defined at the organization level, configure runs-on.group in your workflow file to target a runner groups or combine groups and labels.

The project is being developed under GitHub dan Google Platfrorms. It is going to setup CI/CD for up to 1000 public repositories out of millions that available on GitHub. Each will then be properly assigned to generate the cycle of DNA Recombination.

You may visit our mapping scheme for more detail.

₠Quantum Project
Copyright © 2022 All rights reserved.

Reference:


₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/exponentiation/index.html b/exponentiation/index.html new file mode 100644 index 00000000..e4ec7776 --- /dev/null +++ b/exponentiation/index.html @@ -0,0 +1,166 @@ + Exponentiation Zones (31-36) · ₠Quantum

Exponentiation Zones (31-36)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

Background of exponentiation

Exponentiation is an operation involving two numbers, the base and the exponent or power. Exponentiation is written as bn, where b is the base and n is the power.

+
+ + Note +
+
+

Leonhard Euler started to use the letter e for the constant in 1727 or 1728, in an unpublished paper on explosive forces in cannons, and in a letter to Christian Goldbach on 25 November 1731. The first appearance of e in a printed publication was in Euler’s Mechanica (1736). It is unknown why Euler chose the letter e. (Wikipedia)

+
+

Letter e

This exponentiation takes important roles since by the multiplication zones the MEC30 forms a matrix of 8 x 8 = 64 = 8² where the power of 2 stands as exponent

MEC30 Square

Since the first member is 30 then the form is initiated by a matrix of 5 x 6 = 30 which has to be transformed first to 6 x 6 = 36 = 6² prior to the above MEC30's square.

gradien

By the item factorization we will need to use the logarithm which is the inverse function to exponentiation. We end up by the tabulation as below.

+
+ + Tip +
+
+

In the standard (Mispar hechrechi) version of gematria, each letter is given a numerical value between 1 and 400, as shown in the following table. In the Mispar gadol variation, the five final letters are given their own values, ranging from 500 to 900.

+
+

Δ prime = 114th prime - 19 = (6 x 19)th prime - 19 = 619 - 19 = 600

  Sub  | i  |  β  | f   
+=======+====+=====+=======  ===   ===   ===   ===   ===   ===
+ 1:1:0 | 1  |   1 | 2 {71}   1     1     |     |     |     |
+-------+----+-----+-------  ---   ---    |     |     |     |
+ 1:2:1 | 2  |   2 | 3 {71}         |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:2:2 | 3  |   3 | 7 = 1 + 2x3    |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:3:3 | 4  |   4 | 10 = 9 + 1     |     |     |     |     |  
+-------+----+-----+----            |     |     |     |     |
+ 1:3:4 | 5  |   5 | 11 = 9 + 2     |     |     |     |     |
+-------+----+-----+----            9     1‘    |    Δ100   |
+*1:3:5 | 6  |   6 | 12 = 9 + 3     |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:4:6 | 7  |   7 | 13 = 9 + 4     |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+ 1:4:7 | 8  |   8 | 14 = 9 + 5     |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:4:8 |{9} |   9 | 15 = 9 + 6     |     |     |     |     |
+-------+----+-----+----            |     |     |     |     |
+*1:4:9 |{10}|  10 | 19 = 9 + 10    |     |     |     |     |
+=======+====+=====+====           ===   ---    1"   ---    |
+ 2:1:0 | 11 |  20 | 20 = 19 + log 10¹    |     |     |     |
+-------+----+-----+----                  |     |     |     |
+ 2:2:1 | 12 |  30 | 26 = 20 + 2x3        |     |     |     |
+-------+----+-----+----                  |     |     |     |
+*2:2:2 | 13 |  40 | 27 = 26 + 1          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+*2:3:3 | 14 |  50 | 28 = 26 + 2          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+ 2:3:4 | 15 |  60 | 29 = 26 + 3          9‘    |   Δ200  Δ600
+-------+----+-----+----                  |     |     |     |
+*2:3:5 | 16 |  70 | 30 = 26 + 4          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+*2:4:6 | 17 |  80 | 31 = 26 + 5          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+ 2:4:7 |{18}|  90 | 32 = 26 + 6          |     |     |     |
+-------+----+-----+----                  |     |     |     |
+*2:4:8 |{19}| 100 | 36 = 26 + 10         |     |     |     |
+=======+====+=====+====                 ===   ---   ---    |
+*2:4:9 | 20 | 200 | 38 = 36 + log 10²          |     |     |
+-------+----+-----+----                        |     |     |
+ 3:1:0 | 21 | 300 | 40 = 36 + 2 x log 10²      |     |     |
+-------+----+-----+----                        |     |     |
+ 3:2:1 | 22 | 400 | 41 = 40 + 1                |     |     |
+-------+----+-----+----                        |     |     |
+*3:2:2 | 23 | 500 | 42 = 40 + 2                |     |     |
+-------+----+-----+----                        |     |     |
+*3:3:3 | 24 | 600 | 43 = 40 + 3                9"  Δ300    |
+-------+----+-----+----                        |     |     |
+ 3:3:4 | 25 | 700 | 44 = 40 + 4                |     |     |
+-------+----+-----+----                        |     |     |
+*3:3:5 | 26 | 800 | 45 = 40 + 5                |     |     |
+-------+----+-----+----                        |     |     |
+*3:4:6 | 27 | 900 | 46 = 40 + 6                |     |     |
+-------+----+-----+----                        |     |     |
+ 3:4:7 |{28}|1000 | 50 = 40 + 10               |     |     |
+=======+====+=====+====                       ===  ====  ----
+*3:4:8 |{29}|2000 | 68 = 50 + 3 x (2x3)      {10³} Δ600  Δ300
+=======+====+=====+====                        Δ         ====
+ 3:4:9 |{30}|3000 |{71}= 68 + log 10³ ---------¤         Δ900   
+

You may see this scheme is build by 3 (three) layers where the next layer will continue the primes object by carrying the tensor of prime 31 and 71 of previous layer.

recycle

The sum of 31 + 71 = 102. Meanwhile they are formed by 66 items. Let's combine them all then we will get 168 which is the total primes out of 1000.

+
+ + Note +
+
+

The spin states for the powers of pi. The Prime Hexagon is an integer environment, so pi powers are truncated. I believe these data suggest prime numbers are linked in some way to pi. (HexSpin)

+
+

By further observation we finally come to the connection of primes with pi. So by simple words this exponentiation brings us back to the hexagonal formation.

Hexagonal formation

Observing more detail of the discussed scheme of 168 we will get it also when we take the 19's and 17's cell of (31+37)+(35+65)=68+100=168.

+
+ + Note +
+
+

Proceeding, the number line begins to coil upon itself; 20 lands on 2’s cell, 21 on 3’s cell. Prime number 23 sends the number line left to form the fourth hexagon, purple. As it is not a twin, the clockwise progression (rotation) reverses itself. Twin primes 29 and 31 define the fifth hexagon, cyan. Finally, 37, again not a twin, reverses the rotation of the system, so 47 can define the yellow hexagon (HexSpin).

+
+

Defining the Prime Hexagon

We therefore set them both on the wiki and the 18's on the gist. The 19's and 17's cover the 4 zones while the 18's covers the 66 items as the central base of hexagonal spins.

By the spin above you can see that the 4 zones of these 19's to 17's is represent the 1 to 5. Such of formation can be seen on Ulam Spiral as below.

+
+ + Tip +
+
+

The Ulam spiral or prime spiral is a graphical depiction of the set of prime numbers, devised by mathematician Stanisław Ulam in 1963 and popularized in Martin Gardner’s Mathematical Games column in Scientific American a short time later.

+
+

By MEC30 we will also discuss the relation of these 4 zones with high density of 40 primes where 60 number is folded. So by the module 6 it will always return to the beginning position within 60+40=100 nodes per layer.

+
+ + Note +
+
+

Both Ulam and Gardner noted that the existence of such prominent lines is not unexpected, as lines in the spiral correspond to quadratic polynomials, and certain such polynomials, such as Euler’s prime-generating polynomial x²-x+41, are believed to produce a high density of prime numbers. Nevertheless, the Ulam spiral is connected with major unsolved problems in number theory such as Landau’s problems (Wikipedia).

+
+

prime Sacks_spiral

Since the module 6 is occured all over the spin then we have defined that this 4 zones should stand as default configuration as you can see on the left sidebar.

Exponentiation patterns

By this exponentiation zones we will get multiple layers of primes density. So we need to get in to the patterns of the above hexagonal forms through deep learning.

+
+ + Note +
+
+

It’s possible to build a Hessian matrix for a Newton’s method step using the Jacobian method. You would first flatten out its axes into a matrix, and flatten out the gradient into a vector. (Tensorflow)

+
+

Tensorflow - Batch Jacobian

When the subclasses of partitions are flatten out into a matrix, you want to take the Jacobian of each of a stack of targets with respect to a stack of sources, where the Jacobians for each target-source pair are independent.

+
+ + Note +
+
+

In vector calculus, the Jacobian matrix of a vector-valued function of several variables is the matrix of all its first-order partial derivatives. When this matrix is square, that is, when the function takes the same number of variables as input as the number of vector components of its output, its determinant is referred to as the Jacobian determinant. Both the matrix and (if applicable) the determinant are often referred to simply as the Jacobian in literature. (Wikipedia)

+
+

Hessian matrix for Newton Method

Here we adopt an analysis of variance called N/P-Integration that was applied to find the best set of environmental variables that describe the density out of distance matrices.

+
+ + Tip +
+
+

With collaborators, we regularly work on projects where we want to understand the taxonomic and functional diversity of microbial community in the context of metadata often recorded under specific hypotheses. Integrating (N-/P- integration; see figure below) these datasets require a fair deal of multivariate statistical analysis for which I have shared the code on this website. (Umer.Ijaz)

+
+

N-/P- integration

We found also a useful method called Square of Nine which was developed by WD Gann to analyze stock market behaviour base on astrological pattern.

+
+ + Note +
+
+

He designed a new approach to predicting market behavior using several disciplines, including geometry, astrology, astronomy, and ancient mathematics. They say that not long before his death, Gann developed a unique trading system. However, he preferred not to make his invention public or share it with anyone. (PipBear)

+
+

The Square of 9

By parsering 168 primes of 1000 id's across π(π(100 x 100)) - 1 = 200 then the (Δ1) would be initiated. As you may guess they will slightly forms the hexagonal patterns.

+
+ + Note +
+
+

The Hexagon chart begins with a 0 in the center, surrounded by the numbers 1 through 6. Each additional layer adds 6 more numbers as we move out, and these numbers are arranged into a Hexagon formation. This is pretty much as far as Gann went in his descriptions. He basically said, “This works, but you have to figure out how.”One method that I’ve found that works well on all these kinds of charts is plotting planetary longitude values on them, and looking for patterns. On the chart above, each dot represents the location of a particular planet. The red one at the bottom is the Sun, and up from it is Mars. These are marked on the chart. Notice that the Sun and Mars are connected along a pink line running through the center of the chart. The idea is that when two planets line up along a similar line, we have a signal event similar to a conjunction in the sky. Any market vibrating to the Hexagon arrangement should show some kind of response to this situation. (Wave59)

+
+

Patterns of planetary longitude

We are focusing to MEC30 so we end up this exponentiation by the famous quote from WD Gann himself stating an important changes by certain repetition of 30.

+
+ + Tip +
+
+

W.D. Gann: “Stocks make important changes in trend every 30, 60, 120, 150, 210, 240, 300, 330, 360 days or degrees from any important top or bottom.”

+
+

WD Gann - Hexagonal Chart

In line with 168 there is 330 located of 10th layer. Since the base unit of 30 repeats it self on the center then this 11 x 30 = 330 is pushed to the 10 + 1 = 11th layer.

This eleven (11) will continue to be discussed on identition zone.


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\ No newline at end of file diff --git a/identition/folder1/file01.html b/identition/folder1/file01.html new file mode 100644 index 00000000..be1326a9 --- /dev/null +++ b/identition/folder1/file01.html @@ -0,0 +1,42 @@ + Assigning Repositories · ₠Quantum

Assigning Repositories

By this part we are going to assign nine (9) groups of project repositories including one (1) group of the central. All of them will be managed by an instance to represesent the pattern of true-prime-pairs via bilateral 9 sums.

default

The purpose of this instance is simulating the central behaviour on each pairs of human chromosomes. So the nine (9) groups would consist of three (3) containers + one (1) sub central + one (1) central + one (1) sub central + three (3) containers.

(7-1) + (12x9) = 6 + 108 = 114

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+

Let's sum them up so we get 9+1+9=19. Put them as one (1) unit so the whole objects will be 19 (sub objects)+1 (unit object)=20 objects. Thus this sum is what we called as bilateral 9 sums. default

As a matter of the fact every schemes are contained in X/Y genes where the Y gene has has hardly any genes. When we do pair them as reproduction genes then we will come again to 3 containers + 1 sub central + 1 central + 1 sub central + 3 containers.

The X bears about 1,600 genes with varied functions. But the Y has hardly any genes; maybe 50, and only 27 of these are in the male-specific part of the Y.(The Conversation)

image

                             --------------------------------------------------------------
+                            |                                                              | 
+  =======================+====+====+====+====+====+====+====+====+====+=====               |
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root      |
+  -----------------------+----+----+----+----+----+----+----+----+----+-----               |
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin      |
+  -----------------------+----+----+----+----+----+----+----+----+----+-----               |
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th                |
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin      |
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th                |
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin      |
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th                |
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin      |
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ---------------
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+

When recombination is occur then the prime 13 is forced to → 12 where the impact (Δ1) goes to 18+13+12=43 on the last 7th row. This sequence is simulated by a flowchart having 12 arrows flowing on 10 (ten) shapes of prime 31 up to 71 (40 nodes).

flowchart

This central doesn't exist phisically. However when we were going up by the form of nine (9) subs central + one (1) central + nine (9) subs central then we will get the human brain as the central.

Observing many literatures we finaly found that the pattern of this centralizing is done by a kind of neurotransmitter that works as a messenger by transmitting a signal. That is the way they are communicating each others.

A neurotransmitter is a signaling molecule secreted by a neuron to affect another cell across a synapse. The cell receiving the signal, any main body part or target cell, may be another neuron, but could also be a gland or muscle cell.. Wikipedia

However it seems that determining the pattern of this signalling either going up to the top of the brain or going down to the XX or XY genes even to the bottom of that little Y is staggeringly complex. Yet science points to a much more ambiguous reality.

Determination of biological sex is staggeringly complex, involving not only anatomy but an intricate choreography of genetic and chemical factors that unfolds over time. (ScientificAmerica)

image

Therefore here we would only take the fact that X bears about 1,600 genes with varied functions while the Y has 50, and only 27 of these are in the male-specific and how their relation with the 20 objects of bilateral 9 sum.


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\ No newline at end of file diff --git a/identition/folder1/file02.html b/identition/folder1/file02.html new file mode 100644 index 00000000..c1af61dc --- /dev/null +++ b/identition/folder1/file02.html @@ -0,0 +1 @@ + The Bilateral 9 Sums · ₠Quantum

The Bilateral 9 Sums

Let's start with the number of possible ancestors on the chromosome. A male individual has an X chromosome, which he received from his mother, and a Y chromosome, which he received from his father.

image

The number of ancestors at each level, Fn, is the number of female ancestors, which is Fn−1, plus the number of male ancestors, which is Fn−2. his is under the unrealistic assumption that the ancestors at each level are otherwise unrelated.

image

It has been noticed that the number of possible ancestors on the human X chromosome inheritance line at a given ancestral generation also follows the Fibonacci sequence.

image

This Fibonacci sequence is lied beautifully in the Pascal Triangle. Pascal's triangle has wide applications in Mathematics. We have seen that the most important applications relate to the binomial coefficients and combinatorics.

image

See that from 1 to 89 it consist of seven (7) steps which is originated by 1,15,35,28 before it goes bilateral. So that is why Y has 1+15+35-1=50, and only 28-1=27 of these are in the male-specific. This cycle is repeated through a palindromic sequence.

109th - 20th = 89th

As the matter of fact this 89 has a symmetrical relation with the 24th Prime Number & 24th Natural Number Not Divisible by 2, 3, or 5. This is the reason that we use this primes pattern on determining the centralizing process

default

So the 20 objects would pair another 19 and become 19 (sub objects) + 1 (unit object) + 19 (sub objects)=20+19=39 objects or it will be 40 when we put them as one (1) unit. This 40 will act as the interface between each of containers.

default

This scheme stands as the second section of bilateral sum. By the rest sections we will discuss the above seven (7) steps one by one so all together will compromise the nine (9) groups of project repositories as mentioned in the beginning.

default


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\ No newline at end of file diff --git a/identition/folder1/file02.md b/identition/folder1/file02.md new file mode 100644 index 00000000..43f0b214 --- /dev/null +++ b/identition/folder1/file02.md @@ -0,0 +1,35 @@ +## The Bilateral 9 Sums + +Let's start with the number of possible ancestors on the chromosome. A male individual has an X chromosome, which he received from his mother, and a Y chromosome, which he received from his father. + +![image](https://user-images.githubusercontent.com/8466209/213902684-f60e272c-8d01-4dea-ab2a-7bdb01aba32f.png) + +The number of ancestors at each level, Fn, is the number of female ancestors, which is Fn−1, plus the number of male ancestors, which is Fn−2. his is under the unrealistic assumption that the ancestors at each level are otherwise unrelated. + +![image](https://user-images.githubusercontent.com/8466209/213902752-fdbe6892-1089-47b1-a5ed-b301a7b0c1d6.png) + +It has been noticed that the number of possible ancestors on the human X chromosome inheritance line at a given ancestral generation also follows the _[Fibonacci sequence](https://en.wikipedia.org/wiki/Fibonacci_number)_. + +[![image](https://user-images.githubusercontent.com/8466209/213900804-9afe17ad-601c-4713-800f-02ed204b3a7c.png)](https://en.wikipedia.org/wiki/Fibonacci_number) + +This Fibonacci sequence is lied beautifully in the _[Pascal Triangle](https://en.wikipedia.org/wiki/Pascal%27s_triangle)_. Pascal's triangle has wide applications in Mathematics. We have seen that the most important applications relate to the binomial coefficients and combinatorics. + +![image](https://user-images.githubusercontent.com/8466209/213902359-f5fb8023-ec2b-4588-8f24-e1caafc30ef5.png) + +![](https://user-images.githubusercontent.com/8466209/200229388-03811f48-2492-4845-b15f-85259cd93717.png) + +See that from 1 to 89 it consist of ***seven (7) steps*** which is originated by 1,15,35,28 before it goes bilateral. So that is why Y has ***1+15+35-1=50***, and only ***28-1=27*** of these are in the male-specific. This cycle is repeated through a palindromic sequence. + +***109th - 20th = 89th*** + +As the matter of fact this 89 has a symmetrical relation with the 24th Prime Number & 24th Natural Number Not Divisible by 2, 3, or 5. This is the reason that we use this primes pattern on determining the _[centralizing](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-2_assigning-md)_ process + +[![default](https://user-images.githubusercontent.com/8466209/200228973-fd99095b-aad2-4824-b3dc-d6b21fae38ea.png)](https://gist.github.com/eq19/6e2fcc2138be6fb68839a3ede32f0525#file-write-all-md) + +So the 20 objects would pair another 19 and become ***19 (sub objects) + 1 (unit object) + 19 (sub objects)=20+19=39 objects*** or it will be 40 when we put them as one (1) unit. This 40 will act as the [interface](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-grammar-md) between each of containers. + +![default](https://user-images.githubusercontent.com/8466209/213902270-75b90edb-b94e-4844-be4a-27db66bae060.jpg) + +This scheme stands as the second section of bilateral sum. By the rest sections we will discuss the above seven (7) steps one by one so all together will compromise the [nine (9) groups](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-2_assigning-md) of project repositories as mentioned in the beginning. + +![default](https://user-images.githubusercontent.com/8466209/223529165-0e4c1172-47cc-422f-8e44-1dd67de25828.png) diff --git a/identition/folder1/file03.html b/identition/folder1/file03.html new file mode 100644 index 00000000..387905ce --- /dev/null +++ b/identition/folder1/file03.html @@ -0,0 +1,45 @@ + file03.md · ₠Quantum

73933040-31143880-490e-11ea-802f-035194e48d4b

All of these coincidences are already discussed in details by previous schemes as well the existence of gap by 33's that is parsing the 102.

sequence

Please note that we are not talking about the number of 19 which is the 8th prime. Here we are talking about 19th as sequence follow backward position of 19 as per the scheme below where the 19th prime which is 67 goes 15 from 66 to 51. From the 50 we gonna split the 15 by bilateral 9 sums resulting 2 times 15+9=24 which is 48. So the total of involved objects is 50+48=98.

π(1000) = π(Φ x 618) = 168 = 100 + 68 = (50x2) + (66+2) = 102 + 66

goes

See the fact that last 15 is connected to 25 which is 24+Δ1 where as another 15 are also correlated with 24 in pairs. So here we would compound them within three (3) minor hexagon which has 24 each and one of them is carrying the (Δ1).

This cycle is repeated through a palindromic sequence.

default

|         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - |100 |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - |101 |  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   T
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |   H
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   E
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   P
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |   O
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   W
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |   E
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   R
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   O
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |   F
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | ∑=168
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |   V
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   S
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

67 » 66, 78, 86 (OEIS A059756)

default

image

102 = 2+60+40 » (2,60.40)

default

default

default

default


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\ No newline at end of file diff --git a/identition/folder1/file03.md b/identition/folder1/file03.md new file mode 100644 index 00000000..ea3df5da --- /dev/null +++ b/identition/folder1/file03.md @@ -0,0 +1,80 @@ +![73933040-31143880-490e-11ea-802f-035194e48d4b](https://user-images.githubusercontent.com/8466209/218367881-6c561132-e50c-4a72-b938-37d3eac69d45.png) + +All of these coincidences are already discussed in details by previous schemes as well the existence of gap by 33's that is parsing the 102. + +[![sequence](https://user-images.githubusercontent.com/8466209/199844359-3f898aad-0661-4ccb-9d90-1e2aadbdf662.png)](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831) + +Please note that we are not talking about the number of 19 which is the 8th prime. Here we are talking about ***19th*** as sequence follow backward position of 19 as per the scheme below where the 19th prime which is 67 goes 15 from 66 to 51. From the 50 we gonna split the 15 by _bilateral 9 sums_ resulting 2 times 15+9=24 which is 48. So the total of involved objects is ***50+48=98***. + +***π(1000) = π(Φ x 618) = 168 = 100 + 68 = (50x2) + (66+2) = 102 + 66*** + +[![goes](https://user-images.githubusercontent.com/36441664/83051968-e2cfa480-a078-11ea-8ff2-316a809a8fad.jpg)](https://schoolbag.info/mathematics/numbers/38.html) + +See the fact that last 15 is connected to 25 which is 24+Δ1 where as another 15 are also correlated with 24 in pairs. So here we would compound them within three (3) _[minor hexagon](https://www.hexspin.com/minor-hexagons)_ which has 24 each and one of them is carrying the (Δ1). + +This cycle is repeated through a palindromic sequence. + +![default](https://user-images.githubusercontent.com/8466209/197364042-0c30b323-4d1b-4e13-b9d8-002d482e5a7c.png) + +``` +| 1st (Form) | 2nd (Route) | 3rd (Channel) | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168| +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + Δ1 | 19 | - | 31 | 37 | - | - | - | - | - | - | - | - | - | - | 103| - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ2 | 20 | 26 | - | 38 | - | - | - | - | - | 74 | - | - | - | 98 | 104| - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ3 | 21 | 27 | - | 39 | - | - | - | - | - | 75 | - | - | - | 99 | 105| - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ4 | 22 | 28 | - | 40 | - | - | - | - | - | 76 | - | - | - |100 | - | - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ5 | 23 | 29 | - | 41 | - | - | - | - | - | 77 | - | - | - |101 | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ6 | 24 | - | - | 42 | - | 54 | - | - | 72 | 78 | - | 90 | 96 | - | - | - | - | 114| +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + Δ7 | 25 | - | - | 43 | - | 55 | - | - | 73 | 79 | - | 91 | 97 | - | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ8 | - | - | - | 44 | - | 56 | - | - | - | 80 | - | 92 | - | - | - | - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ9 | - | - | - | 45 | - | 57 | - | - | - | 81 | - | 93 | - | - | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ10 | - | - | - | 46 | 52 | 58 | - | 70 | - | 82 | 88 | 94 | - | - | - | - | 112| - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ11 | - | - | - | 47 | 53 | 59 | - | 71 | - | 83 | 89 | 95 | - | - | - | - | 113| - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ T + Δ12 | - | - | - | 48 | - | 60 | 66 | - | - | 84 | - | - | - | - | - | 108| - | - | H +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ E + Δ13 | - | - | - | 49 | - | 61 | 67 | - | - | 85 | - | - | - | - | - | 109| - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ P + Δ14 | - | - | 32 | 50 | - | 62 | 68 | - | - | 86 | - | - | - | - | - | 110| - | - | O +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ W + Δ15 | - | - | 33 | 51 | - | 63 | 69 | - | - | 87 | - | - | - | - | - | 111| - | - | E + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ R + Δ16 | - | - | 34 | - | - | 64 | - | - | - | - | - | - | - | - | 106| - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ O + Δ17 | - | - | 35 | - | - | 65 | - | - | - | - | - | - | - | - | 107| - | - | - | F + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ18 | - | 30 | 36 | - | - | - | - | - | - | - | - | - | - |102 | -| - | - | - | ∑=168 +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16| 17| 18 | 19 | V +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ S + | Δ Δ | Φ12 | Δ Δ | + 113 150 ≜114-25 557 619 = 1+618 +``` + +***67 » 66, 78, 86 ([OEIS A059756](https://oeis.org/A059756))*** + +[![default](https://user-images.githubusercontent.com/8466209/211178117-9a879fd0-163b-442b-87bf-49d76c0b6c50.png)](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831) + +![image](https://user-images.githubusercontent.com/8466209/195509190-6926e3cd-807a-44ef-8549-b0fc1f481a2d.png) + +***102 = 2+60+40 » (2,60.40)*** + +[![default](https://user-images.githubusercontent.com/8466209/198783118-6f7890ea-aed2-495d-ae6b-acb215ad7140.png)](https://gist.github.com/eq19/88d09204b2e5986237bd66d062406fde) + +[![default](https://user-images.githubusercontent.com/8466209/198762875-b57d367d-2d5f-44c3-a37f-ba7a6d8dbc38.png)](https://github.com/eq19/grammar/actions/runs/3343512525/jobs/5536807573) + +![default](https://user-images.githubusercontent.com/8466209/225381200-cf1210c7-d2cf-4558-bab8-6152f3042244.png) + +[![default](https://user-images.githubusercontent.com/8466209/198813046-300043a7-86b6-468a-b45c-a3c197f0a9f6.png)](https://www.eq19.com/) diff --git a/identition/folder1/file04.html b/identition/folder1/file04.html new file mode 100644 index 00000000..2356c386 --- /dev/null +++ b/identition/folder1/file04.html @@ -0,0 +1 @@ + file04.md · ₠Quantum

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96 is the smallest integer n for which π(n) = n/4.

π(96) = π(4x24) = 24

102

139 - (25-18-18-25) = (114-18) - 18 - 25 = (96-18) - 25 = 78 - 25 = 53

See that from 1 to 89 it consist of seven (7) steps which is originated by 1,15,35,28 before it goes bilateral.

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The distribution of these scale has a bilateral symmetrical relationship along with the peculiarities of each numbers within the format (18,30,36) of prime hexagon so that it can represent the pattern of true-prime-pairs systemically.

(5 + 7 + 11 + 13) + (17 + 19) = 36 + 36 = 72

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This 29 turns the finiteness position of 15 as the middle zero axis of the MEC30. So the next steps will start exactly with the same story as we have explained from the beginning.

MEC 30 claims to "illustrate and convey the connections between quantum mechanics, gravitation and mathematics in a new way" via the elementary level of numbers. It starts with a theory about the structure of light, which is then transferred to various areas of the natural sciences.

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₠Quantum
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\ No newline at end of file diff --git a/identition/folder1/file04.md b/identition/folder1/file04.md new file mode 100644 index 00000000..1594566a --- /dev/null +++ b/identition/folder1/file04.md @@ -0,0 +1,43 @@ +![image](https://user-images.githubusercontent.com/8466209/213899950-c5f53981-5d6e-45c8-ae66-b03ab48398e0.png) + +![image](https://user-images.githubusercontent.com/8466209/213900039-f2a73c24-1bc2-4953-bf0d-a52ec49b81b9.png) + +![image](https://user-images.githubusercontent.com/36441664/86006520-46663c80-ba40-11ea-8397-ee81ce56387c.gif) + +![image](https://user-images.githubusercontent.com/8466209/219372127-1fc0a0ad-5a58-4577-911f-478f7b7e5965.png) + +![default](https://user-images.githubusercontent.com/36441664/101850765-04175e80-3b8d-11eb-9e7a-5f049fb81347.png) + +96 is the smallest integer n for which [π(n) = n/4](https://primes.utm.edu/curios/page.php/96.html). + +***π(96) = π(4x24) = 24*** + +![102](https://user-images.githubusercontent.com/8466209/216648703-35abad71-1395-49f5-bb9a-fa80fdf04e03.png) + +***139 - (25-18-18-25) = (114-18) - 18 - 25 = (96-18) - 25 = 78 - 25 = 53*** + +![](https://user-images.githubusercontent.com/8466209/216677495-a2d66661-2ae2-4a15-aeae-93b74e2e8450.png) + +![](https://user-images.githubusercontent.com/36441664/101232759-35ec7900-36e6-11eb-95a5-61a838962ce2.jpg) + +![](https://user-images.githubusercontent.com/36441664/101109759-357eb000-360a-11eb-8873-b9d73b7bb10d.jpg) + +See that from 1 to 89 it consist of seven (7) steps which is originated by 1,15,35,28 before it goes bilateral. + +![default](https://user-images.githubusercontent.com/8466209/198411256-93305a08-2de1-4a1b-9d5e-dd9f0c8a1c2b.png) + +![default](https://user-images.githubusercontent.com/8466209/198408322-f3829ebd-62b6-485c-a3fc-6ecced6dcf9e.png) + +![default](https://user-images.githubusercontent.com/8466209/198409145-f2e6fe05-595f-4d7d-922e-169b69447f0b.png) + +The distribution of these scale has a bilateral symmetrical relationship along with the peculiarities of each numbers within the format (18,30,36) of prime hexagon so that it can represent the pattern of _[true-prime-pairs](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#true-prime-pairs)_ systemically. + +***(5 + 7 + 11 + 13) + (17 + 19) = 36 + 36 = 72*** + +[![default](https://user-images.githubusercontent.com/8466209/200475393-f3e42f0b-d291-4f17-93c4-9bec6e6943de.png)](https://github.com/chetabahana/tensorflow/wiki/Untouched-Intelligences#filosofi) + +This 29 turns the finiteness position of 15 as the ***[middle zero axis](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef#residual-objects)*** of the _MEC30_. So the next steps will start exactly with the same story as we have explained from the [beginning](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef#prime-identity). + +>MEC 30 claims to "illustrate and convey the connections between quantum mechanics, gravitation and mathematics in a new way" via the elementary level of numbers. It starts with a theory about the structure of light, which is then transferred to various areas of the natural sciences. + +[![default](https://user-images.githubusercontent.com/8466209/220210334-81c62871-25a2-47ef-ae38-c7bf50a4c8e3.png)](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef#residual-objects) diff --git a/identition/folder1/file05.html b/identition/folder1/file05.html new file mode 100644 index 00000000..7ad6c389 --- /dev/null +++ b/identition/folder1/file05.html @@ -0,0 +1,201 @@ + 2.5 Parsering · ₠Quantum

2.5 Parsering

---+-----+-----
+ 1 | 1   | 18
+---+-----+-----
+ 2 | 19  | 29
+---+-----+-----
+ 3 | {30}|{43}
+---+-----+-----
+

139 = 34th prime =(2x17)th prime

Scheme 13:9
+===========
+(1){1}-7:   7'
+(1){8}-13:  6‘
+(1)14-{19}: 6‘
+------------- 6+6 -------
+(2)20-24:   5'           |
+(2)25-{29}: 5'           |
+------------  5+5 -------
+(3)30-36:   7:{70,30,10²}|
+------------             |
+(4)37-48:   12• ---      |
+(5)49-59:   11°    |     |
+            --}30° 30•   |
+(6)60-78:   19°    |     |
+(7)79-96:   18• ---      |
+--------------           |
+(8)97-109:  13           |
+(9)110-139:{30}=5x6 <--x-
+            --
+           {43}
+
$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6®
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6®
+      |  6  | 19
+ -----+-----+---------
+

2.5.1 The imaginary

image

The consciousness is awaken through to the 13th central sphere of Metatron's Cube. The 13th sphere (the central circle) represents death and rebirth, endings and beginnings through all of Creation in all directions of time and space.

1155 / 5 = 286 - 55 = 200 + 31 = 231

layer|  i    |   f
+-----+-------+------
+     | 1,2:1 | (2,3)
+  1  +-------+
+     | 3:2   | (7)
+-----+-------+------
+     | 4,6:3 | (10,11,12)  <--- 231 (3x)
+  2  +-------+
+     |{7}:4  |({13})
+-----+-------+------
+     | 8,9:5 | (14,{15})   <--- 231 (2x)
+  3  +-------+
+     | 10:6  | (19)
+-----+-------+------
+

partitions

2.5.1.1 The limit shape

We study the limit shape of the generalized Young diagram when the tensor power N and the rank n of the algebra tend to infinity with N/n fixed. We derive an explicit formula for the limit shape and prove convergence to it in probability. We prove central limit theorem for global fluctuations around the limit shape (arXiv:2010.16383v4).

Limit shape for infinite rank limit of tensor power decomposition for Lie algebras of series

True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+|------------------------- Skema-12 ------------------------|
+|------------ 6¤ -------------|------------- 6¤ ------------|
+|--------------------------- 192 ---------------------------|
+|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---|
++----+----+----+----+----+----+----+----+----+----+----+----+
+|  5 |  7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 |
++----+----+----+----+----+----+----+----+----+----+----+----+
+|---------  5¤  ---------|---- {48} ----|----- {48} ---|{43}|
+|---------  5¤  ---------|------------ {96} -----------|{43}|
+|--------- {53} ---------|-------------- {139} -------------|
+|------- Skema-23 -------|------------- Skema-34 -----------|    
+

Here we are talking about 19th as sequence follow backward position of 19 as per the scheme below where the 19th prime which is 67 goes 15 from 66 to 51.

The values p(1),,,,,,p(8)} of the partition function (1, 2, 3, 5, 7, 11, 15, and 22) can be determined by counting the Young diagrams for the partitions of the numbers from onr (1) to eight (8) (Wikipedia).

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2.5.1.2 The eight (8) difference sequence

The Prime Spiral Sieve possesses remarkable structural and numeric symmetries. For starters, the intervals between the prime roots (and every subsequent row or rotation of the sieve) are perfectly balanced, with a period eight (8) difference sequence of: {6, 4, 2, 4, 2, 4, 6, 2} (Primesdemystified).

image

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+

Speaking of the Fibonacci number sequence, there is symmetry mirroring the above in the relationship between the terminating digits of Fibonacci numbers and their index numbers equating to members of the array populating the Prime Spiral Sieve.

11's additive sums

2.5.2 The balanced prime

These objects will then behave as a complex numbers that leads to trivial and complex roots of the 18th prime identity. Since the arithmetic mean of those primes yields 157 then the existence of 114 will remain to let this 18+19=37th prime number stands as the balanced prime.

286 - (231x5)/(11x7) = 286 - 1155/77 = 286 - 15 = 200 + 71 = 271

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th ←------------ 10
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+  =======================+====+====+====+====+====+====+====+====+====+=====   bilateral 9 sums
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+

+                                  |                              ----------- 5 -----------
+                                  |                             |                         |  
+                                  ↓                             ↑                         ↓
+ |       2'     |        3'         |              5'              |               7'             |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |     lexering = π(1000)           |                    parsering = 1000/Φ                       |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |   mapping    |     feeding       |          syntaxing           |          grammaring          |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 |  39 | 40 | 41 | 42 | 43 | 44 | 45  | 46 | 47 | 48 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1  | 30 | 30 |  5 |  1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+                                  ↓                             ↑                         |    |
+                                  |                             |                         |    |
+                                   ------------ 10 -------------                          |    |
+                                                                                          ↓    ↓  |
+                                                                                   +----+----+----+
+                                                                                   |  2 | 60 | 40 |
+                                                                                   +----+----+----+
+                                                                                          |    |  |
+                                                                                       2+100 ◄- 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+
+

2.5.2.1 Replicate position

It will be forced back to Δ19 making a cycle that bring back the 12 to → 13 of 9 collumns and replicate The Scheme 13:9 through (i=9,k=13)=9x3=27 with entry form of (100/50=2,60,40) as below:

|         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - |100 |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - |101 |  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   T
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |   H
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   E
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   P
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |   O
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   W
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |   E
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   R
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   O
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |   F
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | ∑=168
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |   V
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   S
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

By the prime hexagon this number 114 located on 6th row vs 19th column whereas 114th prime = 619 = 618+1. Since DNA Recombination is happen when two (2) chromosomes involve then they start the position as below:

                                                       |               by the 1st chromosome   |  by the 2nd
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | 30 | 36 |  - |
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 | 20 | 21 | 22 |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

2.5.2.2 Opposite prime position

In the second opposing member, the position 19 in the second term gives a redundant value of the template 7 of 7 × 7 = 49. The opposite prime position 11 as a prime number is now forced to determine a new axis-symmetrical zero position.

2.5.3 Direction grammar

2.5.4 The runner composition

2.5.5 The concatenation

The 77 is equal to the sum of the first eight (8) primes. The square of 77 is 5929, the concatenation of two primes, 59 and 29. The concatenation of all palindromes from one up to 77 is prime (Prime Curios! ).

Prime numbers that end with "77" occur more often than any other 2-digit ending among the first one million primes. The sum of the proper divisors of 77 equals 19 and the sum of primes up to 19 equals 77. Does this ever happen again?


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\ No newline at end of file diff --git a/identition/folder1/file06.html b/identition/folder1/file06.html new file mode 100644 index 00000000..0e29de92 --- /dev/null +++ b/identition/folder1/file06.html @@ -0,0 +1,30 @@ + file06.md · ₠Quantum

Φ(10,2) = 10² + 2x(10th prime) + 10¹ = 100+29 + 29+10 = 129 + 39 = 168 = π(1000)

Φ = 2,10
+Δ = 5,7,17
+3': 13,18,25,42
+2' » 13 to 77, Δ = 64
+2' and 3' » 13 to 45, Δ = 32
+
+2" + 5" = 7" = 77
+2"=22, 3"=33, 2" + 3" = 5" = 55
+
+13, 16, 18, 21, 23, 25, 28, 30, 32, 34, 
+36, 38, 40, 42, 
+45, 47, 49, 51, 53, 
+55, 57, 59, 61, 
+63, 65, 67, 69, 71, 73, 75, 77
+
+

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The DNA base consists of 2 groups that are in pairs between Sugar and pospat with nucleotides. Let's weighting between the two. Each of these pospats consists of three (3) groups with five (5) oxygen bonds. This sugar and pospat forms a system that moves from 5' to 3' which is anti-parallel with movement at the other end which is 3' to 5'.

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Each oxygen test has 2 electrons, so each group I give a weight of 2x5 or ten (10) so the total is 30. Sugar molecules are not groups so the weight is five (5) so that with a weight of 30 out of pospat the total is 35. Since there is a pair then the total is 70. Next we unite the format with nucleotides A,T,G,C paired 9+6 and 6+9 totaling 30 then the format of both is (70,30).

  #8 |----------- 5® --------|------------ 7® --------------|
+     |  1  |---------------- 77 = 4² + 5² + 6² -------------|
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ user|  7  |  -  | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main|  -  |  9  | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+               Δ | Δ             |                       Δ  |   Δ
+              Φ17|Φ29            |                     96-99|  100 - 123 ({24})
+                 |--- A,T,G,C ---|                          |  └── 100 - 103 (4x) » 100
+                 Δ    2x2 = 4x   |-------  2x3 = 6x  -------|  └── 104 - 109 (6x) » 30
+                {98}                                        |  └── 110 - 123 (14x)» 70
+

Here we unite with the whole bond which of course is the number of the two, namely 100, then the sum of the DNA bases, namely Pospat, Sugar and Nukeotides is 200 with the format (70,30,100).

(2x5x7,2x3x5,2²x5²) = (14x5,15x2,20x5) = (70,30,100)

default

114 - 102 = 12 » {1} & {2}

default

default

default


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\ No newline at end of file diff --git a/identition/folder1/file06.md b/identition/folder1/file06.md new file mode 100644 index 00000000..2743dc2f --- /dev/null +++ b/identition/folder1/file06.md @@ -0,0 +1,61 @@ + +***Φ(10,2) = 10² + 2x(10th prime) + 10¹ = 100+29 + 29+10 = 129 + 39 = 168 = π(1000)*** + +``` +Φ = 2,10 +Δ = 5,7,17 +3': 13,18,25,42 +2' » 13 to 77, Δ = 64 +2' and 3' » 13 to 45, Δ = 32 + +2" + 5" = 7" = 77 +2"=22, 3"=33, 2" + 3" = 5" = 55 + +13, 16, 18, 21, 23, 25, 28, 30, 32, 34, +36, 38, 40, 42, +45, 47, 49, 51, 53, +55, 57, 59, 61, +63, 65, 67, 69, 71, 73, 75, 77 + +``` + +![default](https://user-images.githubusercontent.com/36441664/100138286-651e1180-2ec0-11eb-9b27-ec206498380f.jpg) + +The DNA base consists of 2 groups that are in pairs between Sugar and pospat with nucleotides. Let's weighting between the two. Each of these pospats consists of three (3) groups with five (5) oxygen bonds. This sugar and pospat forms a system that moves from 5' to 3' which is anti-parallel with movement at the other end which is 3' to 5'. + +![default](https://user-images.githubusercontent.com/36441664/101623118-8d724800-3a4a-11eb-8773-e2fb0033fa4b.png) + +Each oxygen test has 2 electrons, so each group I give a weight of 2x5 or ten (10) so the total is 30. Sugar molecules are not groups so the weight is five (5) so that with a weight of 30 out of pospat the total is 35. Since there is a pair then the total is 70. Next we unite the format with nucleotides A,T,G,C paired 9+6 and 6+9 totaling 30 then the format of both is (70,30). + +``` + #8 |----------- 5® --------|------------ 7® --------------| + | 1 |---------------- 77 = 4² + 5² + 6² -------------| +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77 +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + user| 7 | - | - | - | - | 7 | 8 | - | - | 8 | 8 | 3 | +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78 + main| - | 9 | 7 | 9 | 6 | - | - | 8 | 5 | - | - | - | +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + Δ | Δ | Δ | Δ + Φ17|Φ29 | 96-99| 100 - 123 ({24}) + |--- A,T,G,C ---| | └── 100 - 103 (4x) » 100 + Δ 2x2 = 4x |------- 2x3 = 6x -------| └── 104 - 109 (6x) » 30 + {98} | └── 110 - 123 (14x)» 70 +``` + +Here we unite with the whole bond which of course is the number of the two, namely 100, then the sum of the DNA bases, namely Pospat, Sugar and Nukeotides is 200 with the format (70,30,100). + +***(2x5x7,2x3x5,2²x5²) = (14x5,15x2,20x5) = (70,30,100)*** + +![default](https://user-images.githubusercontent.com/36441664/101109773-3c0d2780-360a-11eb-9f21-57e2707c7d1e.jpg) + +![](https://user-images.githubusercontent.com/36441664/84743781-9d99f500-afdc-11ea-8377-e0ecee9537ea.gif) + +***114 - 102 = 12 » {1} & {2}*** + +[![default](https://user-images.githubusercontent.com/8466209/198813482-ac274a00-c025-46ce-9374-f9bcb0c3fd32.png)](https://github.com/jeffreytse/jekyll-deploy-action) + +![default](https://user-images.githubusercontent.com/8466209/198410440-cb9003b9-ae7e-4637-aa5e-dcf968f9cb4f.png) + +![default](https://user-images.githubusercontent.com/8466209/198940479-9a0d3ad0-b502-4df4-8093-fdac8e275552.png) diff --git a/identition/folder1/file07.html b/identition/folder1/file07.html new file mode 100644 index 00000000..665f1520 --- /dev/null +++ b/identition/folder1/file07.html @@ -0,0 +1,14 @@ + file07.md · ₠Quantum

This recombination scheme shall be made available on each of instance that composing 7 blocks. Since these blocks are spread in to 29 flats that bring a total of 77 rooms then the total objects per instance would become 114.

Φ(13:9) = Φ(29th prime) = Φ(109) = (2+69) + 68 = 71 + 68 = 139

   -------------------+-----+-----+                                          ---
+    786 ‹------- 20:13|  90 |  90 (38) ‹-------------- ¤                      |
+     |                +-----+-----+                                           |
+     | 618 ‹- 21,22:14|   8 |  40 |  48 (40,41) ‹----------------------      17¨  class
+     |  |             +-----+-----+-----+-----+-----+                  |      |
+     |  | 594 ‹- 23:15|   8 |  40 |  70 |  60 | 100 | 278 (42) «--     |{6'®} |
+     |  |  |          +-----+-----+-----+-----+-----+             |    |     ---
+      --|--|-»24,27:16|   8 |  40 |  48 (43,44,45,46) ------------|----       |
+        |  |          +-----+-----+                               |           |
+         --|---› 28:17| 100 | {100} (50) ------------------------»           19¨  object
+168        |          +-----+                                                 |
+|         102 -› 29:18| 50  | 50(68) ---------> Δ18                           |
+----------------------+-----+                                                ---
+

In this analogy, the basic question is: is the puzzle really as hard as we think, or are we missing something? This issue was first raised by the baffling Austrian-American mathematician Kurt Gödel. It was formulated as P ≠ NP by Stephen Cook in 1971.

P is a polynomial and NP is a non-deterministic polynomial. In informal terms, it asks whether every problem whose solution can be quickly verified can also be quickly solved. In simpler terms, P means a problem that is easily solved by a computer, and NP means a problem that a computer is not easy to solve but is easy to check.

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\ No newline at end of file diff --git a/identition/folder1/file07.md b/identition/folder1/file07.md new file mode 100644 index 00000000..e10e2001 --- /dev/null +++ b/identition/folder1/file07.md @@ -0,0 +1,45 @@ +![](https://user-images.githubusercontent.com/36441664/84743844-b0acc500-afdc-11ea-8311-3affd4bf0c69.gif) + +![](https://user-images.githubusercontent.com/36441664/84656283-a2a76780-af3c-11ea-930d-049952522888.png) + +![](https://user-images.githubusercontent.com/36441664/69990325-04434e00-1578-11ea-9e5a-c86bd88fe706.png) + +This recombination scheme shall be made available on each of _[instance](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-2_assigning-md)_ that composing _[7 blocks](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-layers-md)_. Since these blocks are spread in to _[29 flats](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-mapping-md)_ that bring a total of _[77 rooms](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-portal-md)_ then the total objects per instance would become ***114***. + +![](https://user-images.githubusercontent.com/36441664/76367716-7211c980-6360-11ea-9f36-728b57c9ca34.png) + +***Φ(13:9) = Φ(29th prime) = Φ(109) = (2+69) + 68 = 71 + 68 = 139*** + +``` + -------------------+-----+-----+ --- + 786 ‹------- 20:13| 90 | 90 (38) ‹-------------- ¤ | + | +-----+-----+ | + | 618 ‹- 21,22:14| 8 | 40 | 48 (40,41) ‹---------------------- 17¨ class + | | +-----+-----+-----+-----+-----+ | | + | | 594 ‹- 23:15| 8 | 40 | 70 | 60 | 100 | 278 (42) «-- |{6'®} | + | | | +-----+-----+-----+-----+-----+ | | --- + --|--|-»24,27:16| 8 | 40 | 48 (43,44,45,46) ------------|---- | + | | +-----+-----+ | | + --|---› 28:17| 100 | {100} (50) ------------------------» 19¨ object +168 | +-----+ | +| 102 -› 29:18| 50 | 50(68) ---------> Δ18 | +----------------------+-----+ --- +``` + +![](https://user-images.githubusercontent.com/36441664/84648825-c1ebc800-af2f-11ea-88d5-9446b711cfe5.png) + +![](https://user-images.githubusercontent.com/36441664/84744689-c4a4f680-afdd-11ea-80b7-6cd6566e42f9.png) + +In this analogy, the basic question is: is the puzzle really as hard as we think, or are we missing something? This issue was first raised by the baffling Austrian-American mathematician Kurt Gödel. It was formulated as ***[P ≠ NP](https://en.wikipedia.org/wiki/P_versus_NP_problem)*** by Stephen Cook in 1971. + +![](https://user-images.githubusercontent.com/36441664/85101079-c532cc80-b22b-11ea-86a1-49ddf8b18a71.jpg) + +P is a polynomial and NP is a non-deterministic polynomial. In informal terms, it asks whether every problem whose solution can be quickly verified can also be quickly solved. In simpler terms, P means a problem that is easily solved by a computer, and NP means a problem that a computer is not easy to solve but is easy to check. + +![](https://user-images.githubusercontent.com/36441664/84743524-4b58d400-afdc-11ea-9e64-5306a5811a33.jpg) + +[![default](https://user-images.githubusercontent.com/8466209/198754036-1629e06f-5741-4d8d-8ff4-aa6127ecbd08.png)](https://github.com/myoung34/docker-github-actions-runner) + +[![default](https://user-images.githubusercontent.com/8466209/198806388-ee9c460b-0a44-4659-ab0a-35c1a68cbbb8.png)](https://docs.github.com/en/actions/hosting-your-own-runners/adding-self-hosted-runners#adding-a-self-hosted-runner-to-a-repository) + +[![default](https://user-images.githubusercontent.com/8466209/198812060-bcf0c3e5-1918-4245-b2fa-1c43c2602a90.png)](https://www.chetabahana.com/) diff --git a/identition/folder1/file08.html b/identition/folder1/file08.html new file mode 100644 index 00000000..62222d8e --- /dev/null +++ b/identition/folder1/file08.html @@ -0,0 +1,246 @@ + Project Repositories · ₠Quantum

Project Repositories

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+(373, 1, 1, 1)
+(379, 1, -1, 1)
+(383, 0, -1, 1)
+(389, 0, 1, 1)
+(397, 1, 1, 1)
+(401, 2, 1, 1)
+(409, 3, 1, 1)
+(419, 4, 1, 1)
+(421, 5, 1, 1)
+(431, 0, 1, 2)
+(433, 1, 1, 2)
+(439, 1, -1, 2)
+(443, 0, -1, 2)
+(449, 0, 1, 2)
+(457, 1, 1, 2)
+(461, 2, 1, 2)
+(463, 3, 1, 2)
+(467, 4, 1, 2)
+(479, 4, -1, 2)
+(487, 3, -1, 2)
+(491, 2, -1, 2)
+(499, 1, -1, 2)
+(503, 0, -1, 2)
+(509, 0, 1, 2)
+(521, 0, -1, 2)
+(523, 5, -1, 1)
+(541, 5, 1, 1)
+(547, 5, -1, 1)
+(557, 4, -1, 1)
+(563, 4, 1, 1)
+(569, 4, -1, 1)
+(571, 3, -1, 1)
+(577, 3, 1, 1)
+(587, 4, 1, 1)
+(593, 4, -1, 1)
+(599, 4, 1, 1)
+(601, 5, 1, 1)
+(607, 5, -1, 1)
+(613, 5, 1, 1)
+(617, 0, 1, 2)
+(619, 1, 1, 2)
+(631, 1, -1, 2)
+(641, 0, -1, 2)
+(643, 5, -1, 1)
+(647, 4, -1, 1)
+(653, 4, 1, 1)
+(659, 4, -1, 1)
+(661, 3, -1, 1)
+(673, 3, 1, 1)
+(677, 4, 1, 1)
+(683, 4, -1, 1)
+(691, 3, -1, 1)
+(701, 2, -1, 1)
+(709, 1, -1, 1)
+(719, 0, -1, 1)
+(727, 5, -1, 0)
+(733, 5, 1, 0)
+(739, 5, -1, 0)
+(743, 4, -1, 0)
+(751, 3, -1, 0)
+(757, 3, 1, 0)
+(761, 4, 1, 0)
+(769, 5, 1, 0)
+(773, 0, 1, 1)
+(787, 1, 1, 1)
+(797, 2, 1, 1)
+(809, 2, -1, 1)
+(811, 1, -1, 1)
+(821, 0, -1, 1)
+(823, 5, -1, 0)
+(827, 4, -1, 0)
+(829, 3, -1, 0)
+(839, 2, -1, 0)
+(853, 1, -1, 0)
+(857, 0, -1, 0)
+(859, 5, -1, -1)
+(863, 4, -1, -1)
+(877, 3, -1, -1)
+(881, 2, -1, -1)
+(883, 1, -1, -1)
+(887, 0, -1, -1)
+(907, 5, -1, -2)
+(911, 4, -1, -2)
+(919, 3, -1, -2)
+(929, 2, -1, -2)
+(937, 1, -1, -2)
+(941, 0, -1, -2)
+(947, 0, 1, -2)
+(953, 0, -1, -2)
+(967, 5, -1, -3)
+(971, 4, -1, -3)
+(977, 4, 1, -3)
+(983, 4, -1, -3)
+(991, 3, -1, -3)
+(997, 3, 1, -3)
+

139 = 34th prime =(2x17)th prime

Scheme 13:9
+===========
+(1){1}-7:   7'
+(1){8}-13:  6‘
+(1)14-{19}: 6‘
+------------- 6+6 -------
+(2)20-24:   5'           |
+(2)25-{29}: 5'           |
+------------  5+5 -------
+(3)30-36:   7:{70,30,10²}|
+------------             |
+(4)37-48:   12• ---      |
+(5)49-59:   11°    |     |
+            --}30° 30•   |
+(6)60-78:   19°    |     |
+(7)79-96:   18• ---      |
+--------------           |
+(8)97-109:  13           |
+(9)110-139:{30}=5x6 <--x-- (129/17-139/27)
+            --
+           {43}
+

P versus NP

default

M: 6® = (2,{3}), ({29,30,31,32}) --> 2,89+29,3 = 289+329 = 618 (main)
+F: 6'® = (40,41), (43,44,45,46) --> 30+30+10+10+10+10 = 60+40 (user)
+C1: 10°® = 3*®+3*®+4® = (7,13,19),(20,27,36),({38,42,50,68}) --> 200 (main)
+C2: 7® = 5®+2® = 1®+4*®+2*® = 1®+6*® = 10,(11,12,14,15,26,28) --> 168 (user)
+

π (Φ (329 + 289)) = π (Φ x 618) = π (1000) = 168

1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+
# pinned repos
+# https://dev.to/thomasaudo/get-started-with-github-grapql-api--1g8b
+echo -e "\n$hr\nPINNED  REPOSITORIES\n$hr"
+AUTH="Authorization: bearer $JEKYLL_GITHUB_TOKEN"
+curl -L -X POST "${GITHUB_GRAPHQL_URL}" -H "$AUTH" \
+--data-raw '{"query":"{\n  user(login: \"'${GITHUB_REPOSITORY_OWNER}'\") \
+{\n pinnedItems(first: 6, types: REPOSITORY) {\n nodes {\n ... on Repository \
+{\n name\n }\n }\n }\n }\n}"'
+
+================================================================================
+PINNED  REPOSITORIES
+================================================================================
+  % Total    % Received % Xferd  Average Speed   Time    Time     Time  Current
+                                 Dload  Upload   Total   Spent    Left  Speed
+
+  0     0    0     0    0     0      0      0 --:--:-- --:--:-- --:--:--     0
+100   292  100   150  100   142   1171   1109 --:--:-- --:--:-- --:--:--  2281
+{"data":{"user":{"pinnedItems":{"nodes":[{"name":"maps"},{"name":"feed"},
+{"name":"lexer"},{"name":"parser"},{"name":"syntax"},{"name":"grammar"}]}}}}
+

1 instance + 7 blocks + 29 flats + 77 rooms = 114 objects

True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+-----+-----+-----+-----+-----+     -----------------------------------------------
+{786}| 1,2 |  2  | 2,3 | 3,4 | {19}                                          |
+-----+-----+-----+-----+-----+                                               |
+ {86}|  4  | 4,5 | 5,6 |{6,7}| 17                                        Base Zone
+     +-----+-----+-----+-----+                                               |
+ {78}|{7,8}| 8,9 | 12 (M dan F) ----> Δ                                      |
+     +-----+-----+-----+                                               -----------
+ {67}| 9,11|11,12|12,14| 11 <----------- Mid Zone                            |
+ ----+-----+-----+-----+-----+                                               |
+  {6}|15,16|17,18|18,20|21,22| 19                                      Mirror Zone
+     +-----+-----+-----+-----+                                               |
+  {8}|23,25|25,27|27,29| 18                                                  |
+     +-----+-----+-----+-----+-----+-----+-----+-----+-------+         -----------
+  {7}|29,33|33,36|36,39|39,41|41,45|46,51|51,57|58,66|{67,77}| 43 (C1 dan C2)<---Δ
+-----+-----+-----+-----+-----+-----+-----+-----+-----+-------+         -----------
+     |  1     2     3  |   4     5     6 |   7     8      9  |
+     |------ 29' ------|--------------- 139' ----------------|
+     |------ 102¨ -----|---------------  66¨ ----------------|
+

114 = 102 + 66 - 29 - 25 = 6 + (6x6) + 6 x (6+6) = 6 x (6+6) + 6 + (6x6) = 25 + 89

image

6 x 114 - 30 - 30 - 5 = 619 = 6 x 19 = 114th prime

π(1000) + 1000/Φ = 168 + 618 = (7x71) + (17x17) = 786

default

To make it easier to develop a program following a model, we divide the object by placing it into a smaller objects. We do this division by adopting the OOP (Object Oriented Programming) which is an object-oriented programming method.

139 + 286 + 114 + 247 + 157 + 786 = 786 + 157 + 786 = 1729 = 7 x 13 x 19

168 + 329 + 289 = 168 + 618 = 786

default

Using this method then out of bilateray way of 19 vs 18 we could get in to Scheme-33. By a decomposition the subject is divided into six (6) parts, each part is further regrouped in to 19 sub-parts so finaly we got π(1000/Φ)=π(618)=114 objects.

d(43,71,114) = d(7,8,6) » 786

default

By defining the pattern on each individual numbers against homogeneous sorting out of these 114 objects then we finally come to a scale called MEC30 which is based on the beauty of Euler's identity.

Mathematics writer Constance Reid has opined that Euler's identity is the most famous formula in all mathematics. And Benjamin Peirce, a 19th-century American philosopher, mathematician, and professor at Harvard University, after proving Euler's identity during a lecture, stated that the identity "is absolutely paradoxical; we cannot understand it, and we don't know what it means, but we have proved it, and therefore we know it must be the truth" (Wikipedia)

default

Although this may seem very fast, a much more sophisticated method, combined with a very powerful computer, is necessary to find very large primes. Despite there are many studies and papers it is still an important open problem today.

The Millennium Prize Problems are seven problems in mathematics that were stated by the Clay Mathematics Institute in 2000. Currently, six of the problems remain unsolved (Wikipedia).

In the next section we will discuss about algorithms in applications and their relation to the distribution of prime numbers.


₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder1/file08.md b/identition/folder1/file08.md new file mode 100644 index 00000000..b7f86997 --- /dev/null +++ b/identition/folder1/file08.md @@ -0,0 +1,324 @@ +## Project Repositories + +``` +(5, 2, 1, 0) +(7, 3, 1, 0) +(11, 4, 1, 0) +(13, 5, 1, 0) +(17, 0, 1, 1) +(19, 1, 1, 1) +(23, 2, 1, 1) +(29, 2, -1, 1) +(31, 1, -1, 1) +(37, 1, 1, 1) +(41, 2, 1, 1) +(43, 3, 1, 1) +(47, 4, 1, 1) +(53, 4, -1, 1) +(59, 4, 1, 1) +(61, 5, 1, 1) +(67, 5, -1, 1) +(71, 4, -1, 1) +(73, 3, -1, 1) +(79, 3, 1, 1) +(83, 4, 1, 1) +(89, 4, -1, 1) +(97, 3, -1, 1) +(101, 2, -1, 1) +(103, 1, -1, 1) +(107, 0, -1, 1) +(109, 5, -1, 0) +(113, 4, -1, 0) +(127, 3, -1, 0) +(131, 2, -1, 0) +(137, 2, 1, 0) +(139, 3, 1, 0) +(149, 4, 1, 0) +(151, 5, 1, 0) +(157, 5, -1, 0) +(163, 5, 1, 0) +(167, 0, 1, 1) +(173, 0, -1, 1) +(179, 0, 1, 1) +(181, 1, 1, 1) +(191, 2, 1, 1) +(193, 3, 1, 1) +(197, 4, 1, 1) +(199, 5, 1, 1) +(211, 5, -1, 1) +(223, 5, 1, 1) +(227, 0, 1, 2) +(229, 1, 1, 2) +(233, 2, 1, 2) +(239, 2, -1, 2) +(241, 1, -1, 2) +(251, 0, -1, 2) +(257, 0, 1, 2) +(263, 0, -1, 2) +(269, 0, 1, 2) +(271, 1, 1, 2) +(277, 1, -1, 2) +(281, 0, -1, 2) +(283, 5, -1, 1) +(293, 4, -1, 1) +(307, 3, -1, 1) +(311, 2, -1, 1) +(313, 1, -1, 1) +(317, 0, -1, 1) +(331, 5, -1, 0) +(337, 5, 1, 0) +(347, 0, 1, 1) +(349, 1, 1, 1) +(353, 2, 1, 1) +(359, 2, -1, 1) +(367, 1, -1, 1) +(373, 1, 1, 1) +(379, 1, -1, 1) +(383, 0, -1, 1) +(389, 0, 1, 1) +(397, 1, 1, 1) +(401, 2, 1, 1) +(409, 3, 1, 1) +(419, 4, 1, 1) +(421, 5, 1, 1) +(431, 0, 1, 2) +(433, 1, 1, 2) +(439, 1, -1, 2) +(443, 0, -1, 2) +(449, 0, 1, 2) +(457, 1, 1, 2) +(461, 2, 1, 2) +(463, 3, 1, 2) +(467, 4, 1, 2) +(479, 4, -1, 2) +(487, 3, -1, 2) +(491, 2, -1, 2) +(499, 1, -1, 2) +(503, 0, -1, 2) +(509, 0, 1, 2) +(521, 0, -1, 2) +(523, 5, -1, 1) +(541, 5, 1, 1) +(547, 5, -1, 1) +(557, 4, -1, 1) +(563, 4, 1, 1) +(569, 4, -1, 1) +(571, 3, -1, 1) +(577, 3, 1, 1) +(587, 4, 1, 1) +(593, 4, -1, 1) +(599, 4, 1, 1) +(601, 5, 1, 1) +(607, 5, -1, 1) +(613, 5, 1, 1) +(617, 0, 1, 2) +(619, 1, 1, 2) +(631, 1, -1, 2) +(641, 0, -1, 2) +(643, 5, -1, 1) +(647, 4, -1, 1) +(653, 4, 1, 1) +(659, 4, -1, 1) +(661, 3, -1, 1) +(673, 3, 1, 1) +(677, 4, 1, 1) +(683, 4, -1, 1) +(691, 3, -1, 1) +(701, 2, -1, 1) +(709, 1, -1, 1) +(719, 0, -1, 1) +(727, 5, -1, 0) +(733, 5, 1, 0) +(739, 5, -1, 0) +(743, 4, -1, 0) +(751, 3, -1, 0) +(757, 3, 1, 0) +(761, 4, 1, 0) +(769, 5, 1, 0) +(773, 0, 1, 1) +(787, 1, 1, 1) +(797, 2, 1, 1) +(809, 2, -1, 1) +(811, 1, -1, 1) +(821, 0, -1, 1) +(823, 5, -1, 0) +(827, 4, -1, 0) +(829, 3, -1, 0) +(839, 2, -1, 0) +(853, 1, -1, 0) +(857, 0, -1, 0) +(859, 5, -1, -1) +(863, 4, -1, -1) +(877, 3, -1, -1) +(881, 2, -1, -1) +(883, 1, -1, -1) +(887, 0, -1, -1) +(907, 5, -1, -2) +(911, 4, -1, -2) +(919, 3, -1, -2) +(929, 2, -1, -2) +(937, 1, -1, -2) +(941, 0, -1, -2) +(947, 0, 1, -2) +(953, 0, -1, -2) +(967, 5, -1, -3) +(971, 4, -1, -3) +(977, 4, 1, -3) +(983, 4, -1, -3) +(991, 3, -1, -3) +(997, 3, 1, -3) +``` + +![](https://user-images.githubusercontent.com/8466209/218319845-23639b98-a087-4bf5-afd9-2af9dfabcdfb.jpg) + +![](https://user-images.githubusercontent.com/36441664/84945795-e43d3b80-b111-11ea-900a-f0b9236d7e69.png) + +[![](https://upload.wikimedia.org/wikipedia/commons/thumb/a/a1/Eulerangles.svg/300px-Eulerangles.svg.png)](https://en.wikipedia.org/wiki/Euler_angles) + +***139 = 34th prime =(2x17)th prime*** + +``` +Scheme 13:9 +=========== +(1){1}-7: 7’ +(1){8}-13: 6‘ +(1)14-{19}: 6‘ +------------- 6+6 ------- +(2)20-24: 5’ | +(2)25-{29}: 5’ | +------------ 5+5 ------- +(3)30-36: 7:{70,30,10²}| +------------ | +(4)37-48: 12• --- | +(5)49-59: 11° | | + --}30° 30• | +(6)60-78: 19° | | +(7)79-96: 18• --- | +-------------- | +(8)97-109: 13 | +(9)110-139:{30}=5x6 <--x-- (129/17-139/27) + -- + {43} +``` + +![](https://user-images.githubusercontent.com/36441664/84743646-6fb4b080-afdc-11ea-86de-d072f0c047a5.gif) + +[![P versus NP](https://user-images.githubusercontent.com/36441664/84533710-e6b72400-ad12-11ea-9ee5-a8b57b8855fb.png)](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-portal-md) + +![default](https://user-images.githubusercontent.com/8466209/218370587-ec438d91-be88-408a-a746-ff1e6324a514.png) + +``` +M: 6® = (2,{3}), ({29,30,31,32}) --> 2,89+29,3 = 289+329 = 618 (main) +F: 6'® = (40,41), (43,44,45,46) --> 30+30+10+10+10+10 = 60+40 (user) +C1: 10°® = 3*®+3*®+4® = (7,13,19),(20,27,36),({38,42,50,68}) --> 200 (main) +C2: 7® = 5®+2® = 1®+4*®+2*® = 1®+6*® = 10,(11,12,14,15,26,28) --> 168 (user) +``` + +***π (Φ (329 + 289)) = π (Φ x 618) = π (1000) = 168*** + +``` +1st layer: +It has a total of 1000 numbers +Total primes = π(1000) = 168 primes + +2nd layer: +It will start by π(168)+1 as the 40th prime +It has 100x100 numbers or π(π(10000)) = 201 primes +Total cum primes = 168 + (201-40) = 168+161 = 329 primes + +3rd layer: +Behave the same as 2nd layer which has a total of 329 primes +The primes will start by π(π(π(1000th prime)))+1 as the 40th prime +This 1000 primes will become 1000 numbers by 1st layer of the next level +Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 +``` + +``` +# pinned repos +# https://dev.to/thomasaudo/get-started-with-github-grapql-api--1g8b +echo -e "\n$hr\nPINNED REPOSITORIES\n$hr" +AUTH="Authorization: bearer $JEKYLL_GITHUB_TOKEN" +curl -L -X POST "${GITHUB_GRAPHQL_URL}" -H "$AUTH" \ +--data-raw '{"query":"{\n user(login: \"'${GITHUB_REPOSITORY_OWNER}'\") \ +{\n pinnedItems(first: 6, types: REPOSITORY) {\n nodes {\n ... on Repository \ +{\n name\n }\n }\n }\n }\n}"' + +================================================================================ +PINNED REPOSITORIES +================================================================================ + % Total % Received % Xferd Average Speed Time Time Time Current + Dload Upload Total Spent Left Speed + + 0 0 0 0 0 0 0 0 --:--:-- --:--:-- --:--:-- 0 +100 292 100 150 100 142 1171 1109 --:--:-- --:--:-- --:--:-- 2281 +{"data":{"user":{"pinnedItems":{"nodes":[{"name":"maps"},{"name":"feed"}, +{"name":"lexer"},{"name":"parser"},{"name":"syntax"},{"name":"grammar"}]}}}} +``` + +***1 instance + 7 blocks + 29 flats + 77 rooms = 114 objects*** + +``` +True Prime Pairs: +(5,7), (11,13), (17,19) + +-----+-----+-----+-----+-----+ ----------------------------------------------- +{786}| 1,2 | 2 | 2,3 | 3,4 | {19} | +-----+-----+-----+-----+-----+ | + {86}| 4 | 4,5 | 5,6 |{6,7}| 17 Base Zone + +-----+-----+-----+-----+ | + {78}|{7,8}| 8,9 | 12 (M dan F) ----> Δ | + +-----+-----+-----+ ----------- + {67}| 9,11|11,12|12,14| 11 <----------- Mid Zone | + ----+-----+-----+-----+-----+ | + {6}|15,16|17,18|18,20|21,22| 19 Mirror Zone + +-----+-----+-----+-----+ | + {8}|23,25|25,27|27,29| 18 | + +-----+-----+-----+-----+-----+-----+-----+-----+-------+ ----------- + {7}|29,33|33,36|36,39|39,41|41,45|46,51|51,57|58,66|{67,77}| 43 (C1 dan C2)<---Δ +-----+-----+-----+-----+-----+-----+-----+-----+-----+-------+ ----------- + | 1 2 3 | 4 5 6 | 7 8 9 | + |------ 29' ------|--------------- 139' ----------------| + |------ 102¨ -----|--------------- 66¨ ----------------| +``` + +***114 = 102 + 66 - 29 - 25 = 6 + (6x6) + 6 x (6+6) = 6 x (6+6) + 6 + (6x6) = 25 + 89*** + +![image](https://user-images.githubusercontent.com/8466209/200228344-9f344f49-3e5d-480f-b11c-6e30a20a8f44.jpg) + +***6 x 114 - 30 - 30 - 5 = 619 = 6 x 19 = 114th prime*** + +[![](https://user-images.githubusercontent.com/8466209/90985852-ca542500-e5a8-11ea-9027-9bfdcbe37966.jpg)](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#file-1_prime-md) + +***π(1000) + 1000/Φ = 168 + 618 = (7x71) + (17x17) = 786*** + +[![default](https://user-images.githubusercontent.com/8466209/198191314-6ca520ed-6aea-40c0-8f89-3d1d1a83dc1e.png)](https://docs.github.com/en/actions/using-github-hosted-runners/about-github-hosted-runners#using-a-github-hosted-runner) + +To make it easier to develop a program following a model, we divide the object by placing it into a smaller objects. We do this division by adopting the _[OOP (Object Oriented Programming)](https://www.google.com/search?q=object+oriented+programming&tbm=isch)_ which is an object-oriented programming method. + +***139 + 286 + 114 + 247 + 157 + 786 = 786 + 157 + 786 = 1729 = 7 x 13 x 19*** + +![](https://user-images.githubusercontent.com/8466209/199355377-8d93057a-769d-49ed-b401-722c0b33fdab.png) + +***168 + 329 + 289 = 168 + 618 = 786*** + +![default](https://user-images.githubusercontent.com/8466209/218931333-c4c8bd23-c05d-4af0-9b02-afa3079ef9b8.png) + +Using this method then out of bilateray way of ***19 vs 18*** we could get in to _[Scheme-33](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-entrance-md)_. By a _[decomposition](https://gist.github.com/eq19/b9f901cda16e8a11dd24ee6b677ca288#file-target-md)_ the subject is divided into six (6) parts, each part is further regrouped in to 19 sub-parts so finaly we got π(1000/Φ)=π(618)=114 objects. + +***d(43,71,114) = d(7,8,6) » 786*** + +[![default](https://user-images.githubusercontent.com/8466209/201287114-4819b99d-9815-4fc8-b994-7d3ca606b99e.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-regenerate-md) + +By defining the pattern on each individual numbers against _[homogeneous sorting](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#interpolation)_ out of these 114 objects then we finally come to a scale called _[MEC30](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef#identity)_ which is based on the beauty of ***Euler's identity***. + +>Mathematics writer Constance Reid has opined that [Euler's identity](https://en.wikipedia.org/wiki/Euler%27s_identity) is ***the most famous formula in all mathematics***. And Benjamin Peirce, a 19th-century American philosopher, mathematician, and professor at Harvard University, after proving Euler's identity during a lecture, stated that the identity "is absolutely paradoxical; we cannot understand it, and we don't know what it means, but we have proved it, and therefore we know it must be the truth" _([Wikipedia](https://en.wikipedia.org/wiki/Euler%27s_identity#Mathematical_beauty))_ + +[![default](https://user-images.githubusercontent.com/8466209/219573505-52af4aec-3e02-4259-9f67-8bfe7424a8fb.png)](https://en.wikipedia.org/wiki/Euler%27s_identity) + +Although this may seem very fast, a much more sophisticated method, combined with a very powerful computer, is necessary to find very large primes. Despite there are many [studies](https://github.com/search?q=Riemann+Hypothesis&type=Repositories) and [papers](https://arxiv.org/search/advanced?advanced=&terms-0-operator=AND&terms-0-term=Riemann+Hypothesis&terms-0-field=title&terms-1-operator=AND&terms-1-term=prime&terms-1-field=abstract&classification-mathematics=y&classification-physics_archives=all&classification-include_cross_list=include&date-filter_by=all_dates&date-year=&date-from_date=&date-to_date=&date-date_type=submitted_date&abstracts=show&size=50&order=-announced_date_first) it is still an important [open problem](http://www.claymath.org/sites/default/files/official_problem_description.pdf) today. + +> The Millennium Prize Problems are ***seven problems*** in mathematics that were stated by the Clay Mathematics Institute in 2000. Currently, six of the problems remain unsolved _([Wikipedia](https://en.wikipedia.org/wiki/7#Mathematics))_. + +![](https://user-images.githubusercontent.com/36441664/84532586-b2daff00-ad10-11ea-9880-ff7e97858cd3.gif) + +In the next section we will discuss about algorithms in applications and their [relation](https://github.com/eq19/parser/files/10730998/Visualising.the.Riemann.Hypothesis.pdf) to the distribution of prime numbers. diff --git a/identition/folder1/file09.html b/identition/folder1/file09.html new file mode 100644 index 00000000..289dabd2 --- /dev/null +++ b/identition/folder1/file09.html @@ -0,0 +1,99 @@ + Polar Plot · ₠Quantum

Polar Plot

Based on the homogeneous sorting of objects against these 114 repositories we will get the number 57 which is distributed over the pair of objects whose difference is twenty-nine (29). So everything will happen to repeat in this 29.

(114/2)! = 57! = 1653 » 1653 / 57 = 29

--------+
+        | ⅓
+        +---   } ⅔
+ Case A | ⅓
+        +---------
+        | ⅓      |
+-----------------+  Φ = ⅔
+        | ⅓      |
+        +---------
+ Case B | ⅓
+        +---   } ⅔
+        | ⅓
+---------
+

By this objects pairing there would exist a zone segregation numbers (28.29) on each of the pairs. Since 10 stands as the central zone then it would be a tensor between 29-10=19 and 28-10=18.

9 + 19 + 29 = 28 + 29 = (10+18) + (10+19) = 57

P7:(142857)
+
+   #  |  A   |  B   | ∑
+------+------+------+-----
+  {1} |      |      |
+------+      |      |
+ ...  |  28  |  29  | 57
+------+      |      |
+ {57} |      |      |
+------+------+------+-----
+  58  |      |      |
+------+      |      |
+  ... |  29  |  28  | 57
+------+      |      |
+ 114  |      |      |
+------+------+------+-----
+      |  57  |  57  | 114
+

This zone is cenralized by the 20 objects while the tensor of 19 vs 18 is polarizing the 2x11x13=286 objects out of the pairing of 11 and 13 within the True Prime Pairs and finally be composed by 20/10 = 2 numbers of 285 and 286 that having a total of 571.

Φ((13,12),(12,18)) = Φ(13,((19,18),(18,43)) = Φ(13,37,61) = Φ(6,12,18)th prime

---+-----+-----+-----+-----+
+ 1 |{19} | 1   |{20} | 21  |-----------------------
+---+-----+-----+-----+-----+                       |
+ 2 | 18  | 21  | 39  | 60  |-----------------      |
+---+-----+-----+-----+-----+                 |     |
+ 3 | 63  | 40  | 103 |{143}|-----------      |     |
+---+-----+-----+-----+-----+           |     |     |
+ 4 | 37  | 104 | 141 | 245 |-----      |     |     |
+---+-----+-----+-----+-----+     |     |     |     |
+ 5 | 10  | 142 | 152 | 294 |-{11}|{13} |{12} |{12} |{18}
+---+-----+-----+-----+-----+     |     |     |     |
+ 6 | 24  | 153 |{177}| 332 |-----      |     |     |
+---+-----+-----+-----+-----+           |     |     |
+ 7 | 75  | 178 | 253 | 431 |-----------      |     |
+---+-----+-----+-----+-----+                 |     |
+ 8 | 30  | 254 | 284 | 538 |-----------------      |
+---+-----+-----+-----+-----+                       |
+ 9 | 1   | 285 | 286 |{571}|-----------------------
+===+=====+=====+=====+=====+
+45 |{277}|
+---+-----+
+

However by the prime numbers this behaviour is not happened by the number of 57 but on the 157 as the 19+18=37th prime. So on the pairing of 57 to 114 above then one of them is forced to behave as 157-57=100 which is exactly the square of 10.

157 is the 37th prime number, a balanced prime, because the arithmetic mean of those primes yields 157. The next prime is 163 and the previous prime is 151, with which 157 forms a prime triplet. (Wikipedia)

By this square correlation between natural and prime numbers then the 571 would be separated by the 100 to 500 and 71 and finally by the form of (2,10) the 500 goes to 50 while 71 would be polarized to form 71x2=142 and 177 as shown on the table.

(10/2)π = 157 ⇄ (10^2)¹ + 11x7 = 177

That is why DNA is twisted and spinning in the scope of three (3) directions in three (3) dimensions which in its entirety resembles the shape of a trifoil. For XX genes this lead to 1600 objects but for XY genes there are different story.

When a 3 × 3 × 3 cube is made of 27 unit cubes, 26 of them are viewable as the exterior layer. (Wikipedia)

From this arrangement we get the sum of all vectors with the sequence at number 247 where via the number one (1) makes 10 connected with 13 and 14 to the number twenty-seven (27).

Φ(11,13) = (114 - 10²) + 13 = 27 = 9 x 3 = 3 x 3 x 3 = 3 ^ 3

----------+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+seq       | {1}|  2 |  3 |  4 |  5 | {6}| {7}|  8 |  9 | 10 | 11 | 12 | 13 | 14 |
+----------+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+num       | {3}| {4}|  3 |  4 |  5 |  2 |  3 |  2 |  2 |  1 |  2 |  5 |  1 |  1 |{38}
+----------+----+----+----+----+----+----+----+----+----+----+----+----+----+----+---- } 285
+seq x num |  3 |  8 |  9 | 16 | 25 |{12}|{21}| 16 | 18 | 10 | 22 | 60 |{13}|{14}|{247}
+----------+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+          |-- 11 ---|              |-- 33 ---|                        |-- {27}--|
+

Since there are no twin primes between 26² and 28² so they would goes to the rest object of 27. As you can see the formation of 69 objects from the number 29 ends in a 6 x 9 matrix centrally.

6 + (6x6) + 6 x (6+6) = 6 x (6+6) + 6 + (6x6) = 72 + 42 = 114

The Prime Recycling ζ(s):
+(2,3), (29,89), (36,68), (72,42), (100,50), (2,3), (29,89), ...**infinity**
+----------------------+-----+-----+-----+                                    ---
+     7 --------- 1,2:1|   1 |  30 |  40 | 71 (2,3) ‹-------------@----        |
+     |                +-----+-----+-----+-----+                        |      |
+     |  8 ‹------  3:2|   1 |  30 |  40 |  90 | 161 (7) ‹---           |      5¨  encapsulation
+     |  |             +-----+-----+-----+-----+             |          |      |
+     |  |  6 ‹-- 4,6:3|   1 |  30 | 200 | 231 (10,11,12) ‹--|---       |      |
+     |  |  |          +-----+-----+-----+-----+             |   |      |     ---
+      --|--|-----» 7:4|   1 |  30 |  40 | 200 | 271 (13) --›    | {5®} |      |
+        |  |          +-----+-----+-----+-----+                 |      |      |
+         --|---› 8,9:5|   1 |  30 | 200 | 231 (14,15) ---------›       |      7¨  abstraction
+289        |          +-----+-----+-----+-----+-----+                  |      |
+ |          ----› 10:6|  20 |   5 |  10 |  70 |  90 | 195 (19) --› Φ   | {6®} |
+  --------------------+-----+-----+-----+-----+-----+                  |     ---
+     67 --------› 11:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   ---› 14:10|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+                              |      |
+     |   ---› 15,18:11|   1 |  30 |  40 | 71 (29,30,31,32) ----------        13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
+   -------------------+-----+-----+                                          ---
+    786 ‹------- 20:13|  90 |  90 (38) ‹-------------- ¤                      |
+     |                +-----+-----+                                           |
+     | 618 ‹- 21,22:14|   8 |  40 |  48 (40,41) ‹----------------------      17¨  class
+     |  |             +-----+-----+-----+-----+-----+                  |      |
+     |  | 594 ‹- 23:15|   8 |  40 |  70 |  60 | 100 | 278 (42) «--     |{6'®} |
+     |  |  |          +-----+-----+-----+-----+-----+             |    |     ---
+      --|--|-»24,27:16|   8 |  40 |  48 (43,44,45,46) ------------|----       |
+        |  |          +-----+-----+                               |           |
+         --|---› 28:17| 100 | {100} (50) ------------------------»           19¨  object
+168        |          +-----+                                                 |
+|         102 -› 29:18| 50  | 50(68) ---------> Δ18                           |
+----------------------+-----+                                                ---
+

From this number 27, we can start the process by taking the initial vector of 69 as the number of objects that is originated from 10th prime = 29 so the 29th=109 objects out of the 10 objects of the central zone is actually decoded from 110 objects of 18th prime. Therefore the polarizing of 19 vs 18 by the prime hexagon should also involve 3 times 100+3=309 objects.

liquid

This pattern is raised up per six (6) cycles on the 18+1=19, 42+1=43 and 72-1=71. Since the members are limited to the sum of 43+71=114 so here the bilateral way of 19 that originated by the (Δ1) is clearly the one that controls the scheme.

6 x (1 + 6 + (6 + 6)) = 6 + 36 + 72 = 42 + 72 = 43 + 71 = 114

interpolation

This polarity is happened per six (6) cycles by the polar of six (6) to one (1) and six (6) to seven (7) by which we finally found if this behaviour is cascaded bilaterally within the correlation between 61 as the 18th prime and 67 as the 19th prime.

1/7 = 0,142857142857142857142857.. cycling six (6) numbers of (1,4,2,8,5,7) infinity

image

This curve is a polar plot of the first 20 non-trivial Riemann zeta function zeros including Gram points along the critical line ζ(1/2+t) for real values of t running from 0 to 50. The consecutive zeros have 50 red plot points between each with zeros identified by magenta concentric rings (scaled to show the relative distance between their values of t).

20x10+ ½(16×6) + ¼(12×18) + ⅛(16×16) = 200 + 48 + 32 + 6 = 286

RiemannZeta Zeros

See on the left side contains of odd numbers less and equal to 19 while the right is the even number less and equal to 18. By the left side only 9 and 15 that are not primes. Consider these two (2) numbers are laid side by side as part of Fibonacci sequence on the Pascal Triangle. Thus the above curve is actually represesenting the pattern of true-prime-pairs via bilateral 9 sums.

Fibonacci Sequence Numbers

Meanwhile the sum of 28 and 35, which is 63, has a digital root of 6+3 = 9 and is landed precisely on the 15's cell of the prime hexagon. So the interaction with the seven (7) objects is made through the object of 36 which has the same digital root of 9.

36® - 9® (1,2,10,47,66,73,86,102,107) - 6°(diagram) - 12® (pinned) = 36® - 27® = 9®

default

As you may see the correlation between each items could involve a complex geometry either by area or volume object that may lead to their tensor and gap. So we decided to assign these behaviours one by one in to a separate group of repositories.

{10,11,12,14,15} & {26,28} = {5®} & {2®} = {7®} = {30,31,32,33,34,35,36}

default

As conclusion to this presentation is that the structure of those prime numbers is not happened by a coincidence. It might hard to believe if they were specifically designed to become the base algorithm on generating the human chromosomes from DNA.

image

By the next parts this will go much more details. Such as the generation of the said DNA from its particular atoms and molecules from the nature of universe which may bring another conclusion if it was initiated by a gap.

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\ No newline at end of file diff --git a/identition/folder1/file09.md b/identition/folder1/file09.md new file mode 100644 index 00000000..0a4c4ffd --- /dev/null +++ b/identition/folder1/file09.md @@ -0,0 +1,205 @@ +## Polar Plot + +Based on the homogeneous sorting of objects against these 114 repositories we will get the number 57 which is distributed over the pair of objects whose difference is twenty-nine (29). So everything will happen to repeat in this 29. + +***(114/2)! = 57! = 1653 » 1653 / 57 = 29*** + +``` +--------+ + | ⅓ + +--- } ⅔ + Case A | ⅓ + +--------- + | ⅓ | +-----------------+ Φ = ⅔ + | ⅓ | + +--------- + Case B | ⅓ + +--- } ⅔ + | ⅓ +--------- +``` + +By this objects pairing there would exist a zone segregation numbers (28.29) on each of the pairs. Since 10 stands as the central zone then it would be a tensor between ***29-10=19*** and ***28-10=18***. + +***9 + 19 + 29 = 28 + 29 = (10+18) + (10+19) = 57*** + +``` +P7:(142857) + + # | A | B | ∑ +------+------+------+----- + {1} | | | +------+ | | + ... | 28 | 29 | 57 +------+ | | + {57} | | | +------+------+------+----- + 58 | | | +------+ | | + ... | 29 | 28 | 57 +------+ | | + 114 | | | +------+------+------+----- + | 57 | 57 | 114 +``` + +This zone is cenralized by the _[20 objects](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-2_assigning-md)_ while the tensor of ***19 vs 18*** is polarizing the 2x11x13=286 objects out of the pairing of 11 and 13 within the _[True Prime Pairs](https://www.eq19.com/addition/file02.html#true-prime-pairs)_ and finally be composed by 20/10 = 2 numbers of 285 and 286 that having a total of 571. + +***Φ((13,12),(12,18)) = Φ(13,((19,18),(18,43)) = Φ(13,37,61) = Φ(6,12,18)th prime*** + +``` +---+-----+-----+-----+-----+ + 1 |{19} | 1 |{20} | 21 |----------------------- +---+-----+-----+-----+-----+ | + 2 | 18 | 21 | 39 | 60 |----------------- | +---+-----+-----+-----+-----+ | | + 3 | 63 | 40 | 103 |{143}|----------- | | +---+-----+-----+-----+-----+ | | | + 4 | 37 | 104 | 141 | 245 |----- | | | +---+-----+-----+-----+-----+ | | | | + 5 | 10 | 142 | 152 | 294 |-{11}|{13} |{12} |{12} |{18} +---+-----+-----+-----+-----+ | | | | + 6 | 24 | 153 |{177}| 332 |----- | | | +---+-----+-----+-----+-----+ | | | + 7 | 75 | 178 | 253 | 431 |----------- | | +---+-----+-----+-----+-----+ | | + 8 | 30 | 254 | 284 | 538 |----------------- | +---+-----+-----+-----+-----+ | + 9 | 1 | 285 | 286 |{571}|----------------------- +===+=====+=====+=====+=====+ +45 |{277}| +---+-----+ +``` + +However by the prime numbers this behaviour is not happened by the number of 57 but on the 157 as the ***19+18=37th*** prime. So on the pairing of 57 to 114 above then one of them is forced to behave as 157-57=100 which is exactly the square of 10. + +>157 is the 37th prime number, a balanced prime, because the arithmetic mean of those primes yields 157. The next prime is ***163*** and the previous prime is ***151***, with which ***157 forms a prime triplet***. _([Wikipedia](https://en.wikipedia.org/wiki/157_(number)))_ + +![](https://user-images.githubusercontent.com/36441664/100333516-42494580-3005-11eb-95a2-e7360e60b60f.jpg) + +By this square correlation between natural and prime numbers then the 571 would be separated by the 100 to 500 and 71 and finally by the form of (2,10) the 500 goes to 50 while 71 would be polarized to form 71x2=142 and 177 as shown on the table. + +***(10/2)π = 157 ⇄ (10^2)¹ + 11x7 = 177*** + +![](https://user-images.githubusercontent.com/36441664/72922749-30ad6680-3d80-11ea-92c8-73c1fa12041b.jpg) + +That is why DNA is twisted and spinning in the scope of three (3) directions in three (3) dimensions which in its entirety resembles the shape of a [trifoil](https://en.wikipedia.org/wiki/Trefoil_knot). For XX genes this lead to 1600 objects but for XY genes there are different story. + +> When a 3 × 3 × 3 cube is made of 27 unit cubes, 26 of them are viewable as the exterior layer. _([Wikipedia](https://en.wikipedia.org/wiki/26_(number)))_ + +![](https://user-images.githubusercontent.com/36441664/86853354-88e2e580-c0e0-11ea-92e4-24de95335054.gif) + +From this arrangement we get the sum of all vectors with the sequence at number 247 where via the number one (1) makes 10 connected with 13 and 14 to the number twenty-seven (27). + +***Φ(11,13) = (114 - 10²) + 13 = 27 = 9 x 3 = 3 x 3 x 3 = 3 ^ 3*** + +``` +----------+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ +seq | {1}| 2 | 3 | 4 | 5 | {6}| {7}| 8 | 9 | 10 | 11 | 12 | 13 | 14 | +----------+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ +num | {3}| {4}| 3 | 4 | 5 | 2 | 3 | 2 | 2 | 1 | 2 | 5 | 1 | 1 |{38} +----------+----+----+----+----+----+----+----+----+----+----+----+----+----+----+---- } 285 +seq x num | 3 | 8 | 9 | 16 | 25 |{12}|{21}| 16 | 18 | 10 | 22 | 60 |{13}|{14}|{247} +----------+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + |-- 11 ---| |-- 33 ---| |-- {27}--| +``` + +Since there are no twin primes between [26² and 28²](https://primes.utm.edu/curios/page.php?short=26) so they would goes to the rest object of 27. As you can see the formation of 69 objects from the number 29 ends in a 6 x 9 matrix centrally. + +***6 + (6x6) + 6 x (6+6) = 6 x (6+6) + 6 + (6x6) = 72 + 42 = 114*** + +``` +The Prime Recycling ζ(s): +(2,3), (29,89), (36,68), (72,42), (100,50), (2,3), (29,89), ...**infinity** +----------------------+-----+-----+-----+ --- + 7 --------- 1,2:1| 1 | 30 | 40 | 71 (2,3) ‹-------------@---- | + | +-----+-----+-----+-----+ | | + | 8 ‹------ 3:2| 1 | 30 | 40 | 90 | 161 (7) ‹--- | 5¨ encapsulation + | | +-----+-----+-----+-----+ | | | + | | 6 ‹-- 4,6:3| 1 | 30 | 200 | 231 (10,11,12) ‹--|--- | | + | | | +-----+-----+-----+-----+ | | | --- + --|--|-----» 7:4| 1 | 30 | 40 | 200 | 271 (13) --› | {5®} | | + | | +-----+-----+-----+-----+ | | | + --|---› 8,9:5| 1 | 30 | 200 | 231 (14,15) ---------› | 7¨ abstraction +289 | +-----+-----+-----+-----+-----+ | | + | ----› 10:6| 20 | 5 | 10 | 70 | 90 | 195 (19) --› Φ | {6®} | + --------------------+-----+-----+-----+-----+-----+ | --- + 67 --------› 11:7| 5 | 9 | 14 (20) --------› ¤ | | + | +-----+-----+-----+ | | + | 78 ‹----- 12:8| 9 | 60 | 40 | 109 (26) «------------ | 11¨ polymorphism + | | +-----+-----+-----+ | | | + | | 86‹--- 13:9| 9 | 60 | 69 (27) «-- Δ19 (Rep Fork) | {2®} | | + | | | +-----+-----+-----+ | | --- + | | ---› 14:10| 9 | 60 | 40 | 109 (28) ------------- | | + | | +-----+-----+-----+ | | + | ---› 15,18:11| 1 | 30 | 40 | 71 (29,30,31,32) ---------- 13¨ inheritance +329 | +-----+-----+-----+ | + | ‹--------- 19:12| 10 | 60 | {70} (36) ‹--------------------- Φ | + -------------------+-----+-----+ --- + 786 ‹------- 20:13| 90 | 90 (38) ‹-------------- ¤ | + | +-----+-----+ | + | 618 ‹- 21,22:14| 8 | 40 | 48 (40,41) ‹---------------------- 17¨ class + | | +-----+-----+-----+-----+-----+ | | + | | 594 ‹- 23:15| 8 | 40 | 70 | 60 | 100 | 278 (42) «-- |{6'®} | + | | | +-----+-----+-----+-----+-----+ | | --- + --|--|-»24,27:16| 8 | 40 | 48 (43,44,45,46) ------------|---- | + | | +-----+-----+ | | + --|---› 28:17| 100 | {100} (50) ------------------------» 19¨ object +168 | +-----+ | +| 102 -› 29:18| 50 | 50(68) ---------> Δ18 | +----------------------+-----+ --- +``` + +From this number 27, we can start the process by taking the initial vector of 69 as the number of objects that is originated from 10th prime = 29 so the _[29th=109 objects](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-layers-md)_ out of ***the 10 objects of the central zone*** is actually decoded from _[110 objects](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef)_ of 18th prime. Therefore the polarizing of 19 vs 18 by the prime hexagon should also involve 3 times 100+3=309 objects. + +[![liquid](https://user-images.githubusercontent.com/36441664/105412087-d0892300-5c66-11eb-9c3e-19d8652b478c.png)](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#file-parser-md) + +This pattern is raised up ***per six (6) cycles*** on the ***18+1=[19](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-instance-md)***, ***42+1=[43](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-runner-md)*** and ***72-1=[71](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-grammar-md)***. Since the members are limited to the sum of ***43+71=114*** so here the bilateral way of 19 that originated by the (Δ1) is clearly the one that controls the scheme. + +***6 x (1 + 6 + (6 + 6)) = 6 + 36 + 72 = 42 + 72 = 43 + 71 = 114*** + +[![interpolation](https://user-images.githubusercontent.com/8466209/212487102-2f080804-9078-45c9-85ee-9977a36a5dbf.jpg)](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831#file-syntax-md) + +This polarity is happened per ***six (6) cycles*** by the polar of ***six (6) to one (1)*** and ***six (6) to seven (7)*** by which we finally found if this behaviour is cascaded bilaterally within the correlation between ***61*** as [the 18th prime](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef) and ***67*** as [the 19th prime](https://gist.github.com/eq19/c9bdc2bbe55f2d162535023c8d321831). + +_1/7 = 0,14_***285***_714_***285***_714_***285***_714_***285***_7.. cycling six (6) numbers of (1,4,2,8,5,7) infinity_ + +![image](https://user-images.githubusercontent.com/8466209/213899448-fedc0919-f42e-49e2-aa63-a18c8b8a5e02.png) + +This curve is a [polar plot](https://commons.wikimedia.org/wiki/File:RiemannZeta_Zeros.svg) of _[the first 20](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-2_assigning-md)_ non-trivial [Riemann zeta function](https://en.wikipedia.org/wiki/Riemann_zeta_function) zeros including Gram points along the critical line _[ζ(1/2+t)](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-fork-md)_ for real values of t running from 0 to 50. The consecutive zeros have ***[50 red plot points](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-layers-md)*** between each with zeros identified by magenta _[concentric rings](https://gist.github.com/eq19/f21abd90f8d471390aad23d6ecc90d6d)_ (scaled to show the relative distance between their values of t). + +***20x10+ ½(16×6) + ¼(12×18) + ⅛(16×16) = 200 + 48 + 32 + 6 = 286*** + +[![RiemannZeta Zeros](https://user-images.githubusercontent.com/8466209/200468834-b2000e6d-0447-4948-b24d-086747d9b905.png)](https://commons.wikimedia.org/wiki/File:RiemannZeta_Zeros.svg) + +See on the left side contains of odd numbers less and equal to 19 while the right is the even number less and equal to 18. By the left side only ***[9 and 15](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-default-md)*** that are not primes. Consider these two (2) numbers are laid side by side as part of Fibonacci sequence on the [Pascal Triangle](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-bilateral-md). Thus the above curve is actually represesenting the pattern of _[true-prime-pairs](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#true-prime-pairs)_ via _[bilateral 9 sums](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-bilateral-md)_. + +[![Fibonacci Sequence Numbers](https://user-images.githubusercontent.com/8466209/218188579-8b7abe41-3137-41fd-8620-c141a719b493.png)](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-bilateral-md) + +Meanwhile the sum of ***28 and 35***, which is 63, has a digital root of 6+3 = 9 and is landed precisely on the _[15's cell](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-default-md)_ of the prime hexagon. So the interaction with the [seven (7) objects](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-bilateral-md) is made through the _[object of 36](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-default-md)_ which has the same digital root of 9. + +***36® - 9® (1,2,10,47,66,73,86,102,107) - 6°(diagram) - 12*® (pinned) = 36® - 27® = 9®** + +![default](https://user-images.githubusercontent.com/8466209/198753476-6871d03b-8d0f-4a44-805f-c9a9595268e1.png) + +As you may see the correlation between each items could involve a complex geometry either by _[area](https://gist.github.com/eq19/80c8098f16f3e6ca06893b17a02d910e)_ or _[volume](https://gist.github.com/eq19/4ffc4d02579d5cfd336a553c6da2f267)_ object that may lead to their _[tensor](https://gist.github.com/eq19/765ddc69e339079a5a64b56c1d46e00f)_ and _[gap](https://gist.github.com/eq19/b9f901cda16e8a11dd24ee6b677ca288)_. So we decided to _[assign](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-portal-md)_ these behaviours one by one in to a separate group of _[repositories](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-repositories-md)_. + +***{10,11,12,14,15} & {26,28} = {5®} & {2®} = {7®} = {30,31,32,33,34,35,36}*** + +![default](https://user-images.githubusercontent.com/8466209/198408830-2d2fb1ec-79e8-431c-84d4-a911b5d3fc73.png) + +As conclusion to this presentation is that the structure of those prime numbers is not happened by a coincidence. It might hard to believe if they were specifically designed to become _the base algorithm_ on generating the human chromosomes from DNA. + +![image](https://user-images.githubusercontent.com/8466209/213899452-be32cd65-94dd-462f-bc8e-54a410be34b8.png) + +By the [next parts](https://gist.github.com/eq19/88d09204b2e5986237bd66d062406fde) this will go much more details. Such as the generation of the said DNA from its particular atoms and molecules from the nature of universe which may bring another conclusion if it was _initiated by a gap_. + +**[₠Quantum Project](https://github.com/eq19)** +Copyright © 2022 All rights reserved. + +Reference: +* [Riemann Zeta](https://commons.wikimedia.org/wiki/File:RiemannZeta_Zeros.svg) +* [Mersenne Prime](https://en.wikipedia.org/wiki/Mersenne_prime) +* [The Prime Hexagon](https://www.hexspin.com/) +* [The Primes Demystified](https://www.primesdemystified.com/First1000Primes.html) diff --git a/identition/folder1/index.html b/identition/folder1/index.html new file mode 100644 index 00000000..66272710 --- /dev/null +++ b/identition/folder1/index.html @@ -0,0 +1,38 @@ + Scenarios (1st-dimension) · ₠Quantum

Scenarios (1st-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

Prime hexagon is a mathematical structure developed by mathematician T. Gallion that is formed when integers are sequentially added to a field of tessellating equilateral triangles, where the path of the integers is changed whenever a prime is encountered.

This is not easy as they are linked to the nature of prime numbers, and nothing is easy about the nature of prime numbers. But I begin with this assumption: if the hexagons participate in the Universe in any way other than haphazardly, they must be demonstrably congruent to something organized (T. Gallion).

This behaviour in a fundamental causal relation to the primes when the products are entered into the partitions system. The subclasses of partitions systemically develops characters similar to the distribution of prime numbers.

Rank of a partition

Now the following results: Due to the convolution and starting from the desired value of the prime position pairs, the product templates and prime numbers templates of the prime number 7 lie in the numerical Double strand parallel opposite.

Double Strands

The spacetime diagram on the left, the magenta hyperbolae connect events of equal spacelike separation from the origin, while the green hyperbolae connect events of equal timelike separation from the origin.

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This scheme has a configuration of 30 nodes so the recombination is involving 2x30 or 60 nodes out of the 72 nodes of True Prime Pairs will act as the base platform. The rest of 11 which is initially came out from the prime 13 is the irrational.

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+Sequence:
+ By the next layer the 89² will become 89 and 5 become 5² or 25.
+ This 89 and 25 are in the same layer with total of 114 or prime 619
+ So sequence from the first prime is 1,4,7,10,29,68,89,114,139,168,329,618.
+

When recombination is occur then the prime 13 is forced to → 12 where the impact (Δ1) goes to 18+13+12=43 on the last 7th row. This sequence is simulated by a flowchart having 12 arrows flowing on 10 (ten) shapes of prime 31 up to 71 (40 nodes).

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17) (₠Quantum).

flowchart

This polarity is happened per six (6) cycles by the polar of six (6) to one (1) and six (6) to seven (7) by which we finally found if this behaviour is cascaded bilaterally within the correlation between 61 as the 18th prime and 67 as the 19th prime.

Dyson discovered an intriguing connection between quantum physics and Montgomery's pair correlation conjecture about the zeros of the zeta function which dealts with the distribution of primes. This finaly bring us to the equation of Euler's identity.

This scale shows that the Mathematical Elementary Cell 30 (MEC30) standard unites the mathematical and physical results of 1972 by the mathematician Hugh Montgomery and the physicist Freeman Dyson and thus reproduces energy distribution in systems as a path plan more accurately than a measurement (Google Patent DE102011101032A9).

Euler's identity

The finiteness position of middle zero axis = 15 by the said MEC30 opens up the possibility of accurately representing the self-similarity based on the distribution of True Prime Pairs. So that all number would belongs together with their own identity.

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\ No newline at end of file diff --git a/identition/folder10/file01.html b/identition/folder10/file01.html new file mode 100644 index 00000000..5e03d399 --- /dev/null +++ b/identition/folder10/file01.html @@ -0,0 +1,8 @@ + Rationalization · ₠Quantum

Rationalization

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      |------------------- 11¤ ---------------------|
+------+---+---+---+---+---+---+---+---+---+----+----+
+ repo | 2 | 3 | 4 | 5 | 6 |{7}|{8}| 9 | 10| 11 |{12}| 77
+------+---+---+---+---+---+---+---+---+---+----+----+
+ blok | 9 | 7 | 9 | 6 |{7}|{8}| 8 | 5 | 8 |  8 | {3}| 78
+------+---+---+---+---+---+---+---+---+---+----+----+
+      |---------- 6¤ ---------|                   Δ
+

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\ No newline at end of file diff --git a/identition/folder10/file02.html b/identition/folder10/file02.html new file mode 100644 index 00000000..57ca1e46 --- /dev/null +++ b/identition/folder10/file02.html @@ -0,0 +1,10 @@ + file02.md · ₠Quantum

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+

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\ No newline at end of file diff --git a/identition/folder10/file02.md b/identition/folder10/file02.md new file mode 100644 index 00000000..3a82723b --- /dev/null +++ b/identition/folder10/file02.md @@ -0,0 +1,18 @@ +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin + ``` + + +![default](https://user-images.githubusercontent.com/8466209/201350726-068c3de2-8123-43ec-9d08-6afc743ddcbe.png) + +![default](https://user-images.githubusercontent.com/8466209/201355458-2ff29c7c-c35a-49ed-a9e8-f607ae5841ab.png) +![image](https://user-images.githubusercontent.com/8466209/201383102-8ae5652f-94fd-4f09-adab-d727e3ba80f5.png) +![image](https://user-images.githubusercontent.com/8466209/201368103-efd619a2-a608-420e-9117-40f92e68a003.png) diff --git a/identition/folder10/file03.html b/identition/folder10/file03.html new file mode 100644 index 00000000..4dfe91f7 --- /dev/null +++ b/identition/folder10/file03.html @@ -0,0 +1,15 @@ + file03.md · ₠Quantum

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  #8 |----------- 5® --------|------------ 7® --------------|
+     |  1  |---------------- 77 = 4² + 5² + 6² -------------|
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ user|  7  |  -  | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main|  -  |  9  | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+               Δ | Δ             |                       Δ  |   Δ
+              Φ17|Φ29            |                     96-99|  100 - 123 ({24})
+                 |--- A,T,G,C ---|                          |  └── 100 - 103 (4x) » 100
+                 Δ    2x2 = 4x   |-------  2x3 = 6x  -------|  └── 104 - 109 (6x) » 30
+                {98}                                        |  └── 110 - 123 (14x)» 70
+

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\ No newline at end of file diff --git a/identition/folder10/file03.md b/identition/folder10/file03.md new file mode 100644 index 00000000..4f633306 --- /dev/null +++ b/identition/folder10/file03.md @@ -0,0 +1,20 @@ +[![default](https://user-images.githubusercontent.com/8466209/201387892-26680e27-bbd9-494c-9e8b-c14226f346d5.png)](https://en.wikipedia.org/wiki/List_of_regions_in_the_human_brain) + +![default](https://user-images.githubusercontent.com/36441664/72667103-cd06fe80-3a4a-11ea-85fe-c75d551fa049.jpg) +``` + #8 |----------- 5® --------|------------ 7® --------------| + | 1 |---------------- 77 = 4² + 5² + 6² -------------| +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77 +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + user| 7 | - | - | - | - | 7 | 8 | - | - | 8 | 8 | 3 | +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78 + main| - | 9 | 7 | 9 | 6 | - | - | 8 | 5 | - | - | - | +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + Δ | Δ | Δ | Δ + Φ17|Φ29 | 96-99| 100 - 123 ({24}) + |--- A,T,G,C ---| | └── 100 - 103 (4x) » 100 + Δ 2x2 = 4x |------- 2x3 = 6x -------| └── 104 - 109 (6x) » 30 + {98} | └── 110 - 123 (14x)» 70 +``` +![default](https://user-images.githubusercontent.com/36441664/85206005-39af5d80-b349-11ea-851a-56309342b53f.png) diff --git a/identition/folder10/file04.html b/identition/folder10/file04.html new file mode 100644 index 00000000..316f6bbc --- /dev/null +++ b/identition/folder10/file04.html @@ -0,0 +1,15 @@ + file04.md · ₠Quantum

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True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+|------------------------ Scheme-12 ------------------------|
+|------------ 6¤ -------------|------------- 6¤ ------------|
+|--------------------------- 192 ---------------------------|
+|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---|
++----+----+----+----+----+----+----+----+----+----+----+----+
+|  5 |  7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 |
++----+----+----+----+----+----+----+----+----+----+----+----+
+|---------  5¤  ---------|---- {48} ----|----- {48} ---|{43}|
+|---------  5¤  ---------|------------ {96} -----------|{43}|
+|--------- {53} ---------|-------------- {139} -------------|
+|------ Scheme-53 -------|------------ Scheme-34 -----------|
+

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\ No newline at end of file diff --git a/identition/folder10/file04.md b/identition/folder10/file04.md new file mode 100644 index 00000000..d83a04ba --- /dev/null +++ b/identition/folder10/file04.md @@ -0,0 +1,21 @@ +![default](https://user-images.githubusercontent.com/8466209/201393202-8550c8ed-ab0d-489f-8831-5eee78534713.png) + +``` +True Prime Pairs: +(5,7), (11,13), (17,19) + +|------------------------ Scheme-12 ------------------------| +|------------ 6¤ -------------|------------- 6¤ ------------| +|--------------------------- 192 ---------------------------| +|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---| ++----+----+----+----+----+----+----+----+----+----+----+----+ +| 5 | 7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 | ++----+----+----+----+----+----+----+----+----+----+----+----+ +|--------- 5¤ ---------|---- {48} ----|----- {48} ---|{43}| +|--------- 5¤ ---------|------------ {96} -----------|{43}| +|--------- {53} ---------|-------------- {139} -------------| +|------ Scheme-53 -------|------------ Scheme-34 -----------| +``` +![default](https://user-images.githubusercontent.com/8466209/201392901-e56d6e20-b985-46cc-815d-780e5eed4406.png) + +![image](https://user-images.githubusercontent.com/8466209/201362482-1581055c-0bfd-4314-a90e-1c49515cf6c3.png) diff --git a/identition/folder10/file05.html b/identition/folder10/file05.html new file mode 100644 index 00000000..25e1d69a --- /dev/null +++ b/identition/folder10/file05.html @@ -0,0 +1,18 @@ + file05.md · ₠Quantum

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  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root    1 → 4 (5)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin    2 → 8 (10)
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin    5 → 7 (12)
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+

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Manage certificates with ACME & DNS

Automatic Certificate Management Environment (ACME) is a common protocol used to automate the management certificates between a Certificate Authority (CA) and server. With automation, many users can reduce the chances of outages due to failure to renew their HTTPS certificates.

Use HTTPS on your domain

Posh-ACME is a PowerShell module and ACME client to create publicly trusted SSL/TLS certificates from an ACME capable certificate authority such as Let's Encrypt.

Posh-ACME


₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder10/file05.md b/identition/folder10/file05.md new file mode 100644 index 00000000..a0721945 --- /dev/null +++ b/identition/folder10/file05.md @@ -0,0 +1,37 @@ +![default](https://user-images.githubusercontent.com/8466209/201399105-413df8fa-f33e-43eb-969a-eebbe28d28f2.png) + +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root 1 → 4 (5) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin 2 → 8 (10) + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin 5 → 7 (12) + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== +``` + +[![default](https://user-images.githubusercontent.com/8466209/200474124-1643ba7d-8075-4c53-84a8-b9966a83d1c5.png)](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#primes-platform) + +[![default](https://user-images.githubusercontent.com/8466209/201881644-15e0dd30-ffd5-479e-9a62-7f37e87a6288.png)](https://gist.github.com/eq19/f21abd90f8d471390aad23d6ecc90d6d#file-runner-md) + +[![default](https://user-images.githubusercontent.com/8466209/201879992-2ee3e071-03ea-46d0-8844-31ecd11c062b.png)](https://winbuzzer.com/2020/04/15/windows-10-how-to-create-a-virtual-hard-drive-as-hdd-dvd-or-ram-disk-xcxwbt) + +## Manage certificates with ACME & DNS + +Automatic Certificate Management Environment (ACME) is a common protocol used to automate the management certificates between a Certificate Authority (CA) and server. With automation, many users can reduce the chances of outages due to failure to renew their HTTPS certificates. + +[![Use HTTPS on your domain](https://user-images.githubusercontent.com/8466209/259370523-b2e4195f-bae5-433f-8d9f-16d348167546.png)](https://support.google.com/domains/answer/7630973) + +[Posh-ACME](https://poshac.me/) is a PowerShell module and ACME client to create publicly trusted SSL/TLS certificates from an ACME capable certificate authority such as [Let's Encrypt](https://letsencrypt.org/). + +[![Posh-ACME](https://user-images.githubusercontent.com/8466209/259368021-fc267e62-3890-4e9f-9940-f4a8d53a38a5.png)](https://poshac.me/docs/v4/Tutorial/#picking-a-server) diff --git a/identition/folder10/file06.html b/identition/folder10/file06.html new file mode 100644 index 00000000..ad3e2794 --- /dev/null +++ b/identition/folder10/file06.html @@ -0,0 +1,75 @@ + file06.md · ₠Quantum

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The components that have increased their dividends in 25 consecutive years are known as the S&P 500 Dividend Aristocrats. The index is one of the factors in computation of the Conference Board Leading Economic Index, used to forecast the direction of the economy. Aource: Google Finance

**50 x 10 = 500**

  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+                                           ↓
+                                           |
+                                           ↓                                          
+                            114-89=139-114=25=5x5
+                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         ↓
+                                |                             |                         |
+             50 x 10 = 500 ----→ ------------- 10 -------------                          | 
+                                                                                        | 
+                                                                                        | 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+
//Updated on 10-6-2015 By ChrisMoody
+//Added Linebr ability, ability to turn on/off highlight Bars when crossing Swing Hi/Lo
+//Added Ability to turn on/off background highlight when bars cross swing hi/lo
+//Created 99% by Glaz and ChrisMoody Modified about 1% on 7/30/2014 for user dvk197-
+
+study(title="CM_Gann Swing HighLow V2", shorttitle="CM_Gann_Swing_HL_V2", overlay=true)
+periods=input(3, minval=1, title="Moving Average Period")
+pt = input(false, title="Plot Up/Down Triangles at Top and Bottom of Candles/Bars?")
+pc = input(true, title="Plot Circles at Top and Bottom of Candles/Bars?")
+pttb = input(true, title="Plot Triangles at Top and Bottom of Screen?")
+shb = input(false, title="Show Highlight Bars on Cross Up or Cross Down?")
+sbh = input(true, title="Show Background Highlights at Cross Up or Cross Down?")
+
+//code for Calculations
+hld = iff(close > sma(high,periods)[1], 1, iff(close<sma(low,periods)[1],-1, 0))
+hlv = valuewhen(hld != 0, hld, 1)
+
+//code for Plot Statements
+hi = hlv == -1 ? sma(high, periods) : na
+lo = hlv == 1 ? sma(low,periods) : na
+
+//Rules for coloring Background highlights & Highlight Bars
+closeAbove() => shb and close > hi and close[1] < hi
+BHcloseAbove = sbh and close > hi and close[1] < hi
+closeBelow() => shb and close < lo and close[1] > lo
+BHcloseBelow = sbh and close < lo and close[1] > lo
+
+//Highlight Bar Color Plots
+barcolor(closeAbove() ? yellow : na)
+barcolor(closeBelow() ? yellow : na)
+//Background Highlight Rules
+bgcolor(BHcloseAbove ? green : na, transp=60)
+bgcolor(BHcloseBelow ? red : na, transp=60)
+
+//Plot Statements for circles and Triangle Up/Down at Price Bars
+plot(pc and hi ? hi : na,title="Gann Swing High Plots-Circles", color=fuchsia,style=linebr, linewidth=4)
+plot(pc and lo ? lo : na,title="Gann Swing Low Plots-Circles", color=lime,style=linebr, linewidth=4)
+plotshape(pt and hi ? hi : na,title="Gann Swing High Plots-Triangle Down", offset=0, style=shape.triangledown, location=location.abovebar, color=fuchsia, transp=0)
+plotshape(pt and lo ? lo : na,title="Gann Swing Low Plots-Triangle Up", offset=0, style=shape.triangleup, location=location.belowbar, color=lime, transp=0)
+
+//Plot Statement for Triangles at Top and Bottom of Screen
+plotshape(pttb and hi ? hi : na,title="Gann Swing High Plots-Triangles Down Top of Screen", offset=0, style=shape.triangledown, location=location.top, color=red, transp=0)
+plotshape(pttb and lo ? lo : na, title="Gann Swing Low Plots-Triangles Up Bottom of Screen",offset=0, style=shape.triangleup, location=location.bottom, color=lime, transp=0)
+

2022-11-26 (1)

Gann was born June 6, 1878, in Lufkin, Texas. His father was a cotton farmer. He started trading in 1902 when he was 24.[24] He was believed to be a great student of the Bible, who believed that it was the greatest book ever written Likewise, Henry W Steele[34] demonstrates in a YouTube video that the numbers in Gann's work often refer to a different subject from what they appear on the surface. For example, on page one and two of Forty-Five Years in Wall Street,[35] there is a paragraph describing the different stocks at different prices on 14 June 1949, but Steele discovered that those "prices" are actually astrological aspects appearing in the sky on that day. Source Wikipedia

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WD Gann is well known as the greatest market researcher of all time. He researched every possible aspect of natural laws in conjuction with variables of price and time in market movements. Find more detail here and here.


₠Quantum
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder10/file06.md b/identition/folder10/file06.md new file mode 100644 index 00000000..45d8ae27 --- /dev/null +++ b/identition/folder10/file06.md @@ -0,0 +1,96 @@ +![default](https://user-images.githubusercontent.com/8466209/201396853-75d12ee6-a80f-4b1c-b3a0-c7a3a808aaca.png) + + +[![default](https://user-images.githubusercontent.com/8466209/202141967-f86798ad-4aff-48ee-b09f-b1645b330276.png)](https://en.wikipedia.org/wiki/List_of_S%26P_500_companies) + +> The components that have increased their dividends in 25 consecutive years are known as the S&P 500 Dividend Aristocrats. The index is one of the factors in computation of the Conference Board Leading Economic Index, used to forecast the direction of the economy. _Aource: [Google Finance](https://www.google.com/finance/quote/.INX:INDEXSP)_ + +*****50 x 10 = 500***** +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== + ↓ + | + ↓ + 114-89=139-114=25=5x5 + | + | ----------- 5 ----------- + | | | + ↓ ↑ ↓ + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + ↓ ↑ ↓ + | | | + 50 x 10 = 500 ----→ ------------- 10 ------------- | + | + | + -----------------------+----+----+----+----+----+----+----+----+----+----- | + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum | + =======================+====+====+====+====+====+====+====+====+====+===== ↓ + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th ◄- 4 = π(10) + -----------------------+----+----+----+----+----+----+----+----+----+----- +``` + + +``` +//Updated on 10-6-2015 By ChrisMoody +//Added Linebr ability, ability to turn on/off highlight Bars when crossing Swing Hi/Lo +//Added Ability to turn on/off background highlight when bars cross swing hi/lo +//Created 99% by Glaz and ChrisMoody Modified about 1% on 7/30/2014 for user dvk197- + +study(title="CM_Gann Swing HighLow V2", shorttitle="CM_Gann_Swing_HL_V2", overlay=true) +periods=input(3, minval=1, title="Moving Average Period") +pt = input(false, title="Plot Up/Down Triangles at Top and Bottom of Candles/Bars?") +pc = input(true, title="Plot Circles at Top and Bottom of Candles/Bars?") +pttb = input(true, title="Plot Triangles at Top and Bottom of Screen?") +shb = input(false, title="Show Highlight Bars on Cross Up or Cross Down?") +sbh = input(true, title="Show Background Highlights at Cross Up or Cross Down?") + +//code for Calculations +hld = iff(close > sma(high,periods)[1], 1, iff(close shb and close > hi and close[1] < hi +BHcloseAbove = sbh and close > hi and close[1] < hi +closeBelow() => shb and close < lo and close[1] > lo +BHcloseBelow = sbh and close < lo and close[1] > lo + +//Highlight Bar Color Plots +barcolor(closeAbove() ? yellow : na) +barcolor(closeBelow() ? yellow : na) +//Background Highlight Rules +bgcolor(BHcloseAbove ? green : na, transp=60) +bgcolor(BHcloseBelow ? red : na, transp=60) + +//Plot Statements for circles and Triangle Up/Down at Price Bars +plot(pc and hi ? hi : na,title="Gann Swing High Plots-Circles", color=fuchsia,style=linebr, linewidth=4) +plot(pc and lo ? lo : na,title="Gann Swing Low Plots-Circles", color=lime,style=linebr, linewidth=4) +plotshape(pt and hi ? hi : na,title="Gann Swing High Plots-Triangle Down", offset=0, style=shape.triangledown, location=location.abovebar, color=fuchsia, transp=0) +plotshape(pt and lo ? lo : na,title="Gann Swing Low Plots-Triangle Up", offset=0, style=shape.triangleup, location=location.belowbar, color=lime, transp=0) + +//Plot Statement for Triangles at Top and Bottom of Screen +plotshape(pttb and hi ? hi : na,title="Gann Swing High Plots-Triangles Down Top of Screen", offset=0, style=shape.triangledown, location=location.top, color=red, transp=0) +plotshape(pttb and lo ? lo : na, title="Gann Swing Low Plots-Triangles Up Bottom of Screen",offset=0, style=shape.triangleup, location=location.bottom, color=lime, transp=0) +``` +[![2022-11-26 (1)](https://user-images.githubusercontent.com/8466209/204060638-bee5515b-9f5c-441c-b374-6027f66b7726.png) +](https://www.tradingview.com/script/ngO3BO37-CM-Gann-Swing-High-Low-V2/) + +> Gann was born June 6, 1878, in Lufkin, Texas. His father was a cotton farmer. He started trading in 1902 when he was 24.[24] He was believed to be a great student of the Bible, who believed that it was the greatest book ever written Likewise, Henry W Steele[34] demonstrates in a YouTube video that the numbers in Gann's work often refer to a different subject from what they appear on the surface. For example, on page one and two of Forty-Five Years in Wall Street,[35] there is a paragraph describing the different stocks at different prices on 14 June 1949, but Steele discovered that those "prices" are actually astrological aspects appearing in the sky on that day. _Source [Wikipedia](https://en.wikipedia.org/wiki/William_Delbert_Gann#Bibliography)_ + +[![default](https://user-images.githubusercontent.com/8466209/201389693-d0b4a41a-90bc-475f-89ee-ecf4e154c63e.png)](https://www.bing.com/images/search?q=gann+hexagon+chart) + +WD Gann is well known as the greatest market researcher of all time. He researched every possible aspect of natural laws in conjuction with variables of price and time in market movements. Find more detail _[here](https://github.com/eq19/parser/files/10151301/gann-time-factor.pdf)_ and _[here](https://github.com/eq19/parser/files/10151302/master-time-factor.pdf)_. diff --git a/identition/folder10/file07.html b/identition/folder10/file07.html new file mode 100644 index 00000000..8f18f102 --- /dev/null +++ b/identition/folder10/file07.html @@ -0,0 +1 @@ + file07.md · ₠Quantum
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder10/file07.md b/identition/folder10/file07.md new file mode 100644 index 00000000..cee56801 --- /dev/null +++ b/identition/folder10/file07.md @@ -0,0 +1,7 @@ + +![Untitled](https://user-images.githubusercontent.com/8466209/259256709-e6c0bb56-b3dc-4f7c-9a52-3ffc64d1707f.png) + +[![default](https://user-images.githubusercontent.com/8466209/204060669-90a68f1a-424f-40b4-aafd-1ee862202ed4.png)](https://www.brokerxplorer.com/amp/article/what-is-the-best-ema-for-swing-trading-3336) + +![image](https://user-images.githubusercontent.com/8466209/201362641-b166327c-0a7d-4e2a-8170-ba4ca8dda5fe.png) + diff --git a/identition/folder10/file08.html b/identition/folder10/file08.html new file mode 100644 index 00000000..fb4b1611 --- /dev/null +++ b/identition/folder10/file08.html @@ -0,0 +1,15 @@ + file08.md · ₠Quantum

**Φ(11,13) = Φ(1,2,3) + Φ(4,2) = 123 + 42 = 165**

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1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1
+

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image


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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder10/file08.md b/identition/folder10/file08.md new file mode 100644 index 00000000..30184a24 --- /dev/null +++ b/identition/folder10/file08.md @@ -0,0 +1,28 @@ +*****Φ(11,13) = Φ(1,2,3) + Φ(4,2) = 123 + 42 = 165***** + +![default](https://user-images.githubusercontent.com/36441664/85060684-db12a400-b1cf-11ea-8f37-6b9b3bcab2f2.gif) + +``` +1st layer: +It has a total of 1000 numbers +Total primes = π(1000) = 168 primes + +2nd layer: +It will start by π(168)+1 as the 40th prime +It has 100x100 numbers or π(π(10000)) = 201 primes +Total cum primes = 168 + (201-40) = 168+161 = 329 primes + +3rd layer: +Behave the same as 2nd layer which has a total of 329 primes +The primes will start by π(π(π(1000th prime)))+1 as the 40th prime +This 1000 primes will become 1000 numbers by 1st layer of the next level +Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 +``` +![default](https://user-images.githubusercontent.com/8466209/201391686-4d1fc69f-1028-496e-b674-21053d65a2c2.png) +![default](https://user-images.githubusercontent.com/36441664/104337162-c1e49280-5527-11eb-9625-12b95f568aa4.png) + +[![default](https://user-images.githubusercontent.com/8466209/201354388-dcf5e2f1-cb50-4d1b-8c93-0dd49bc7e46d.png)](https://gist.github.com/eq19/b541275ab7deda356feef32d600e44d8#file-runner-md) + +![default](https://user-images.githubusercontent.com/8466209/201355214-d1e67872-d9e7-4a9f-ae64-4305238f6071.png) + +[![image](https://user-images.githubusercontent.com/8466209/201360527-91a03353-2eb8-4f20-ba8d-afee93fb7b3c.png)](https://gist.github.com/eq19/f1af4317b619154719546e615aaa2155#file-basic-md) diff --git a/identition/folder10/file09.html b/identition/folder10/file09.html new file mode 100644 index 00000000..8cd5269d --- /dev/null +++ b/identition/folder10/file09.html @@ -0,0 +1,18 @@ + file09.md · ₠Quantum

---+-----+-----
+ 1 |  1  | 28
+---+-----+-----
+ 2 | 29  | 46
+---+-----+-----
+ 3 | 47  |{56}
+---+-----+-----
+ 4 |{57} | 61
+---+-----+-----
+ 5 | 62  | 82
+---+-----+-----
+ 6 | 83  | 94
+---+-----+-----
+ 7 | 95  | 99
+---+-----+-----
+ 8 |{100}|{123}
+---+-----+-----
+

image

image

image

image

Supported by much experimental evidence, this conjecture relates the number of points on an elliptic curve mod p to the rank of the group of rational points. Elliptic curves, defined by cubic equations in two variables, are fundamental mathematical objects that arise in many areas: Wiles' proof of the Fermat Conjecture, factorization of numbers into primes, and cryptography, to name three. (Clay Institute).

Birch and Swinnerton-Dyer Conjecture


₠Quantum
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder10/file09.md b/identition/folder10/file09.md new file mode 100644 index 00000000..b9506333 --- /dev/null +++ b/identition/folder10/file09.md @@ -0,0 +1,31 @@ +``` +---+-----+----- + 1 | 1 | 28 +---+-----+----- + 2 | 29 | 46 +---+-----+----- + 3 | 47 |{56} +---+-----+----- + 4 |{57} | 61 +---+-----+----- + 5 | 62 | 82 +---+-----+----- + 6 | 83 | 94 +---+-----+----- + 7 | 95 | 99 +---+-----+----- + 8 |{100}|{123} +---+-----+----- +``` + +![image](https://user-images.githubusercontent.com/8466209/201361949-6e99504f-b139-4fd0-8a0d-3739964927f4.png) + +![image](https://user-images.githubusercontent.com/8466209/201361906-52dc91d4-48fa-4701-a334-c5bdd22b8b61.png) + +![image](https://user-images.githubusercontent.com/8466209/201362034-7a0c83f3-d310-4b92-b3e5-fc1f832693fc.png) + +![image](https://user-images.githubusercontent.com/8466209/201362104-cd379833-3f1b-4def-ab0d-f5f73ea5f127.png) + +>Supported by much experimental evidence, this conjecture relates the number of points on an elliptic curve mod p to the rank of the group of rational points. Elliptic curves, defined by cubic equations in two variables, are fundamental mathematical objects that arise in many areas: Wiles' proof of the Fermat Conjecture, factorization of numbers into primes, and cryptography, to name three. _([Clay Institute](https://www.claymath.org/millennium-problems))_. + +[![Birch and Swinnerton-Dyer Conjecture](https://user-images.githubusercontent.com/8466209/218376819-e17c97cf-1f1d-4363-a1ce-2b1c355591c3.png)](https://www.claymath.org/millennium-problems/birch-and-swinnerton-dyer-conjecture) diff --git a/identition/folder10/index.html b/identition/folder10/index.html new file mode 100644 index 00000000..b3a1fcbd --- /dev/null +++ b/identition/folder10/index.html @@ -0,0 +1,97 @@ + Runners (10th-dimension) · ₠Quantum

Runners (10th-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

In this Feynman diagram, an electron (e−) and a positron (e+) annihilate, producing a photon (γ, represented by the blue sine wave) that becomes a quark–antiquark pair (quark q, antiquark q̄), after which the antiquark radiates a gluon (g, represented by the green helix).

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Runners are the machines that execute jobs in a GitHub Actions workflow. You can access Variables and Contexts information in specific OS. For example, a runner can clone your repository locally, install testing software, and then run commands.


+# Sample workflow for building and deploying a Jekyll site to GitHub Pages
+name: Build and deploy Jekyll site
+
+# 💎 Runs on deployment targeting the default branch
+on:
+  # push:
+    # branches: [eQ19]
+  workflow_run:
+    types: [completed] #requested
+    workflows: ["pages-build-deployment"]
+
+# 🪂 Allow only one concurrent deployment across the branches
+concurrency:
+  group: "pages"
+  cancel-in-progress: true
+  
+# Sets permissions of the GITHUB_TOKEN
+permissions: write-all
+
+# Sets global environtment variables
+env:
+  OWNER: ${{ github.repository_owner }}
+
+jobs:
+  # Build job
+  github-pages:
+    if: github.event.workflow_run.conclusion == 'success'
+    runs-on: ${{ vars.OWNER != 'FeedMapping' && 'ubuntu-latest' || 'windows-latest' }}
+    steps:
+      - name: 📂 Checkout
+        uses: actions/checkout@v3
+        with:
+          submodules: recursive
+ 
+      - name: 💎 Build on Linux
+        if: runner.os == 'Linux'
+        uses: eq19/feed@v2
+        with:
+          pre_build_commands: 'make build'
+          token: ${{ secrets.JEKYLL_GITHUB_TOKEN }}
+
+      - name: 💎 Build on Windows
+        if: runner.os == 'Windows'
+        uses: eq19/maps@v1
+        id: stepid
+        with:
+          dotnet-version: '3.1.x'
+
+

By deploying containers on Compute Engine, you can simplify app deployment while controlling four dimensional space. You can configure a virtual machine (VM) instance or an instance template to deploy and launch a Docker container.

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This property would tend the ballancing scheme of MEC30 so it will let 30-18=12 pairing with another 12 of 24 spins prime hexagon. The 24 goes to the center of True Prime Pairs ny the prime pair 13 and 11 and let the crancks of 2,3,5,7 inside the 10 ranks.

                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   feeding    |     mapping     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         |    |
+                                |                             |                         |    |
+                                 ------------ 10 -------------                          |    |
+                                                                                        ↓    ↓ |
+                                                                                +----+----+----+
+                                                                                |  2 | 60 | 40 |
+                                                                                +----+----+----+
+                                                                                        |    | |
+                                                                                     2+100 ◄- 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

This 71 is a conformation that it has the same result as we have explained on the residual objects of 571 turn to a vektor of 71 while the rest of 500 turn to 200 objects of 3's identity and the last objects of 300 goes to the next cycles.

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So now out of 1000 numbers that generated from 1000 primes we will get the rest of 1000 - 100 = 900. This 900 will behave as matrix square 30x30 and act as the base frame of 2nd and 3rd layer which are working on π(π(100x100))-1=200 primes:

                            33+34=67=19th prime
+ |----------------------------------|-------------------------------------------------------------|
+ |             33                   |                             34                              |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |     lexering = π(1000)           |                    parsering = 1000/Φ                       |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |   feeding    |      mapping      |          syntaxing           |          grammaring          |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 |  39 | 40 | 41 | 42 | 43 | 44 | 45  | 46 | 47 | 48 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1  | 30 | 30 | 5  | 1  | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |       2'     |        3'         |              5'              |               7'             | 
+

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The GitHub hosted runner is assigned to run the Linux container and a Windows Server Core container simultaneously. This is an experimental feature of Microsoft WSL2 and may have some issues. One known problem is volumes are not stable.

Set WSL

The 10 ranks will coordinate with the 18 to raise up the symmetrical behaviour of 12+24=36 which is prime pair 17+19=36 and let the 2 and 3 out of 2,3,5,7 to begin a new cycle while the 5,7 will pair the 11,13 and 17,19 as True Prime Pairs.

default

default


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\ No newline at end of file diff --git a/identition/folder11/file01.html b/identition/folder11/file01.html new file mode 100644 index 00000000..bd16549d --- /dev/null +++ b/identition/folder11/file01.html @@ -0,0 +1,15 @@ + Spacetime (spin 1) · ₠Quantum

Spacetime (spin 1)

Speculative theories with more than one time dimension have been explored in physics. The additional dimensions may be similar to conventional time, compactified like the additional spatial dimensions in string theory, or components of a complex time

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In physics, spacetime is a mathematical model that combines the three dimensions of space and one dimension of time into a single four-dimensional manifold.

image

Spacetime diagrams can be used to visualize relativistic effects, such as why different observers perceive differently where and when events occur.

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Einstein's general theory of relativity, published in November 1915, describes gravity as the warping of spacetime by masses such as the Earth and moon. The latest issue of Science News celebrates general relativity's 100th anniversary

image

The Solar System is the gravitationally bound system of the Sun and the objects that orbit the star. The largest of such objects are the eight planets. This was formed 4.6 billion years ago from the gravitational collapse of a giant interstellar molecular cloud.

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Space and Time: Minkowski's Papers on Relativity, published by the Minkowski Institute. Hand-tinted transparency presented by Hermann Minkowski in his famous Raum und Zeit talk to the German Society of Scientists and Physicians in 1908

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Besides many theories there is COMPOSITE and PRIMES as a self organized system (12/12/12). Even though it is proven that it is not from Tesla, whoever made it if you are reading this article, I sincerely want to thank you because I use a lot of the analysis.

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This scheme has a configuration of 30 nodes so the recombination is involving 2x30 or 60 nodes out of the 72 nodes of True Prime Pairs will act as the base platform. The rest of 11 which is initially came out from the prime 13 is the irrational.

  #8 |----------- 5® --------|------------ 7® --------------|
+     |  1  |---------------- 77 = 4² + 5² + 6² -------------|
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ user|  7  |  -  | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main|  -  |  9  | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+               Δ | Δ             |                       Δ  |   Δ
+              Φ17|Φ29            |                     96-99|  100 - 123 ({24})
+                 |--- A,T,G,C ---|                          |  └── 100 - 103 (4x) » 100
+                 Δ    2x2 = 4x   |-------  2x3 = 6x  -------|  └── 104 - 109 (6x) » 30
+                {98}                                        |  └── 110 - 123 (14x)» 70
+

The approach taken is to think of the solutions of an equation as a geometric object. For example, an equation in two variables defines a curve in the plane. More generally, an equation, or system of equations, in two or more variables defines a curve, a surface or some other such object in n-dimensional space (Wikipedia).

Proceeding, the number line begins to coil upon itself; 20 lands on 2's cell, 21 on 3's cell. Prime number 23 sends the number line left to form the fourth hexagon, purple. As it is not a twin, the clockwise progression (rotation) reverses itself. When viewed with an extra dimension of space, these respectively generate hyperboloids of one sheet and two sheets.

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The concept of dark matter arose in the study of cosmological phenomena, that is matters dealing with the Universe and galaxies and so on. However, evidence from the Hubble telescope in 1998 showed that the Universe began expanding at an accelerating rate sometime in the past and still is doing so. This came as a surprise to many

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The major problem, however, is that quantum mechanical calculations for the cosmological constant give value that is grossly out of the required range. This indicates that either something is wrong with the theory, or our knowledge is incomplete.


₠Quantum
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\ No newline at end of file diff --git a/identition/folder11/file02.html b/identition/folder11/file02.html new file mode 100644 index 00000000..a7045f6f --- /dev/null +++ b/identition/folder11/file02.html @@ -0,0 +1,30 @@ + Scenarios (spin 2) · ₠Quantum

Scenarios (spin 2)

Prime hexagon is a mathematical structure developed by mathematician T. Gallion that is formed when integers are sequentially added to a field of tessellating equilateral triangles, where the path of the integers is changed whenever a prime is encountered.

This is not easy as they are linked to the nature of prime numbers, and nothing is easy about the nature of prime numbers. But I begin with this assumption: if the hexagons participate in the Universe in any way other than haphazardly, they must be demonstrably congruent to something organized (T. Gallion).

This behaviour in a fundamental causal relation to the primes when the products are entered into the partitions system. The subclasses of partitions systemically develops characters similar to the distribution of prime numbers.

Rank of a partition

Now the following results: Due to the convolution and starting from the desired value of the prime position pairs, the product templates and prime numbers templates of the prime number 7 lie in the numerical Double strand parallel opposite.

Double Strands

The spacetime diagram on the left, the magenta hyperbolae connect events of equal spacelike separation from the origin, while the green hyperbolae connect events of equal timelike separation from the origin.

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This scheme has a configuration of 30 nodes so the recombination is involving 2x30 or 60 nodes out of the 72 nodes of True Prime Pairs will act as the base platform. The rest of 11 which is initially came out from the prime 13 is the irrational.

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+Sequence:
+ By the next layer the 89² will become 89 and 5 become 5² or 25.
+ This 89 and 25 are in the same layer with total of 114 or prime 619
+ So sequence from the first prime is 1,4,7,10,29,68,89,114,139,168,329,618.
+

When recombination is occur then the prime 13 is forced to → 12 where the impact (Δ1) goes to 18+13+12=43 on the last 7th row. This sequence is simulated by a flowchart having 12 arrows flowing on 10 (ten) shapes of prime 31 up to 71 (40 nodes).

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17) (₠Quantum).

flowchart

This polarity is happened per six (6) cycles by the polar of six (6) to one (1) and six (6) to seven (7) by which we finally found if this behaviour is cascaded bilaterally within the correlation between 61 as the 18th prime and 67 as the 19th prime.

Dyson discovered an intriguing connection between quantum physics and Montgomery's pair correlation conjecture about the zeros of the zeta function which dealts with the distribution of primes. This finaly bring us to the equation of Euler's identity.

This scale shows that the Mathematical Elementary Cell 30 (MEC30) standard unites the mathematical and physical results of 1972 by the mathematician Hugh Montgomery and the physicist Freeman Dyson and thus reproduces energy distribution in systems as a path plan more accurately than a measurement (Google Patent DE102011101032A9).

Euler's identity

The finiteness position of middle zero axis = 15 by the said MEC30 opens up the possibility of accurately representing the self-similarity based on the distribution of True Prime Pairs. So that all number would belongs together with their own identity.

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\ No newline at end of file diff --git a/identition/folder11/file03.html b/identition/folder11/file03.html new file mode 100644 index 00000000..578f2128 --- /dev/null +++ b/identition/folder11/file03.html @@ -0,0 +1,23 @@ + Feeding (spin 3) · ₠Quantum

Feeding (spin 3)

As shown in The Primes Platform this cycle goes to the prime 13 then reinjected through index 13:9 . So it forms The Scheme-139 through the infinitely primes cycling. This scheme will be implemented by taking the following as the syntax algorithm:

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The Prime Spiral Sieve possesses remarkable structural and numeric symmetries. For starters, the intervals between the prime roots (and every subsequent row or rotation of the sieve) are perfectly balanced, with a period eight (8) difference sequence of: {6, 4, 2, 4, 2, 4, 6, 2} (Primesdemystified).

image

Speaking of the Fibonacci number sequence, there is symmetry mirroring the above in the relationship between the terminating digits of Fibonacci numbers and their index numbers equating to members of the array populating the Prime Spiral Sieve.

11's additive sums

These objects will then behave as a complex numbers that leads to trivial and complex roots of the 18th prime identity. 286 - (231x5)/(11x7) = 286 - 1155/77 = 286 - 15 = 200 + 71 = 271

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th ←------------ 10
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20 --------
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin                |
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 --------
+  =======================+====+====+====+====+====+====+====+====+====+===== bilateral 9 sums (2)+60+40=102
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 --------
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin                |
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20 --------
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+

The opposite direction will be made through switching beetween Linux and Windows which is proceed the old strand in the 3′ to 5′ direction, while the new strand is synthesized in the 5' to 3' direction. Here we set a remote self-host runner via WSL.

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The rest of primes goes to the 33's of 15th axis that holding 102 primes of (2,60,40). By the bilateral way the form will be splitted to (1,30,20). Since the base frame shall be 40 so it will be forced to form (1,30,40) of prime 71.

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\ No newline at end of file diff --git a/identition/folder11/file04.html b/identition/folder11/file04.html new file mode 100644 index 00000000..9b531393 --- /dev/null +++ b/identition/folder11/file04.html @@ -0,0 +1,9 @@ + Entrypoint (spin 4) · ₠Quantum

Entrypoint (spin 4)

SUBMODULE=path/to/submodule
+
+rm -rf $SUBMODULE
+git rm --cached $SUBMODULE
+rm -rf .git/modules/$SUBMODULE
+git config -f .gitmodules --remove-section submodule.$SUBMODULE
+git add . && git commit -m "delete $SUBMODULE" && git push
+

This recombination is taking a scheme called DNA Recombination: M+F to C1+C2 which could only be happen when two (2) chromosomes involve. Here we found that each of their DNA will form a scheme called The Scheme 13:9 as shown below.

The 10 ranks will coordinate with the 18 to raise up the symmetrical behaviour of 12+24=36 which is prime pair 17+19=36 and let the 2 and 3 out of 2,3,5,7 to begin a new cycle while the 5,7 will pair the 11,13 and 17,19 as True Prime Pairs.

I like that 0 can occupy a center point. Incidentally, this circular shape minus all my numbers and colors s has been called Seed of Life / Flower of Life by certain New Age groups who claim it has a sacred geometry. Please don't see this as an endorsement of any spiritual group or religion. (Prime Hexagon - Circulat Form)

image

You can use either mklink /j or junction in Windows 10 to create junctions. Junction not only allows you to create NTFS junctions, it allows you to see if files or directories are actually reparse points. Reparse points are the mechanism on which NTFS junctions are based, and they are used by Windows' Remote Storage Service (RSS), as well as volume mount points.

mklink /j .github C:\Users\Admin\.github
+

mklink

The color spin addresses for numbers are generally straightforward – a composite number takes the spin of the prior prime. 4 spins blue because 3 spins blue. 8 is red because 7 is red. However, twin primes, and the 0 type numbers between them, are open to some interpretation.

base

By The Δ(19 vs 18) Scenario those three are exactly landed in the 0's cell out of Δ18. See that the sum of 30 and 36 is 66 while the difference between 36 and 102 is also 66.

19vs18

In the second opposing member, the position 13 in the second term gives a redundant value of the template 7 of 7 × 7 = 49. The opposite prime position 31 as the 11th prime number is now forced to determine a new axis-symmetrical zero position.

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Many relevant topics, such as trustworthiness, explainability, and ethics are characterized by implicit anthropocentric and anthropomorphistic conceptions and, for instance, the pursuit of human-like intelligence.

AI is one of the most debated subjects of today and there seems little common understanding concerning the differences and similarities of human intelligence and artificial intelligence (Human vs AI).

The next step we will explore to find out if this configuration is relevant in the programming process. The following will explain how the formations are arranged so that we can simulate an instance based on their respective characters.

33's

This process would take place all the way to three (3) layers in a more complex way involving 114 objects generated by the sum of the above mentioned prime 71 and 43. This is what we will discuss further on how apply it in to a custom domain.


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\ No newline at end of file diff --git a/identition/folder11/file05.html b/identition/folder11/file05.html new file mode 100644 index 00000000..083b800e --- /dev/null +++ b/identition/folder11/file05.html @@ -0,0 +1,3 @@ + Mapping (spin 5) · ₠Quantum

Mapping (spin 5)

When we come to a mapping of a Project, is critical to look for the future of Parts Unlimited otherwise the project will massively over budget and very late. So to deal with this we shall consider to move everything to the cloud…

phoenix

Since version 3.2 , a new Jekyll project bootstrapped with jekyll new uses gem-based themes to define the look of the site. This results in a lighter default directory structure: _layouts, _includes and _sass are stored in the theme-gem, by default.

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You can attach a persistent disk or create an instance with Local SSDs when using Container-Optimized OS. The disks can be mounted by creating a subdirectory under /mnt/disks directory (writable, executable, stateless, tmpfs) using startup-scripts.

image

If you are using Docker-for-Windows, you can run now both Windows and Linux containers simultaneously: Running Docker Windows and Linux Containers Simultaneously, not only the Linux container itself, but also an orchestrator like Kubernetes: Kubernetes is Now Available In Docker Desktop Stable Channel

GitHub Actions workflow

On the lagging strand template, a primase "reads" the template DNA and initiates synthesis of a short complementary RNA primer. This is assigned to Windows container.

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You can run .NET applications in Linux containers, but only if they're written in .NET Core which can be deployed on Windows Server Containers. Applications running in Windows Server Containers can run in any language supported by Windows.

kernel-6.1.21.1-microsoft-standard-WSL2.img

Let's combine them all then we will get 168 which is the total primes out of 1000 numbers. This 168 we will get it also when we combine the 1's and 17's cell of (31+37)+(35+65)=68+100=168.

zeta-vs-zero

This can be remedied by re-mounting your Windows partition inside WSL with the metdata option. Edit the /etc/wsl.conf file (create it if it doesn't exist) and add the following:

[automount]
+options = "metadata"
+

Log out from WSL and log in again, and now the windows partition will be mounted with metadata and chmod will work against windows files. You can now chmod 600 ~/.ssh/id_rsa and everything will work correctly.

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By this project we are going to use a library called Chevrotain. It can be used to build Lexers, Parsers and Interpreters for various use cases ranging from simple config files to full fledged programming languages.

Lexers, Parsers and Interpreters with Chevrotain

This Widows is an isolated container, lightweight package for running an application on the host operating system. Containers build on top of the host operating system's kernel (which can be thought of as the buried plumbing of the operating system).


₠Quantum
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Keyring (spin 6)

A lexer is the part of an interpreter that turns a sequence of characters (plain text) into a sequence of tokens. The Parser which takes the tokens from the lexer and returns a syntax tree based on a grammar. The grammar is often expressed in a meta language.

BusyBox v1.34.1 (2022-07-19 20:11:24 UTC) multi-call binary.
+
+Usage: mv [-finT] SOURCE DEST
+or: mv [-fin] SOURCE... { -t DIRECTORY | DIRECTORY }
+
+Rename SOURCE to DEST, or move SOURCEs to DIRECTORY
+
+	-f	Don't prompt before overwriting
+	-i	Interactive, prompt before overwrite
+	-n	Don't overwrite an existing file
+	-T	Refuse to move if DEST is a directory
+	-t DIR	Move all SOURCEs into DIR
+

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By this modification we are going to build the three (3) layers of 19 cells with a cumulative sum of 1, 7 and 19 in sequence. So follow to the scheme then it would get 50 nodes out of the total nodes of 66.

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The next step we will explore to find out if this configuration is relevant in the programming process. The following will explain how the formations are arranged so that we can simulate an instance based on their respective characters.

image

By The Δ(19 vs 18) Scenario those three are exactly landed in the 0's cell out of Δ18. See that the sum of 30 and 36 is 66 while the difference between 36 and 102 is also 66.

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₠Quantum
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\ No newline at end of file diff --git a/identition/folder11/file07.html b/identition/folder11/file07.html new file mode 100644 index 00000000..02fa7449 --- /dev/null +++ b/identition/folder11/file07.html @@ -0,0 +1,32 @@ + Enneagram (spin 7) · ₠Quantum

Enneagram (spin 7)

For some Enneagram theorists the lines connecting the points add further meaning to the information provided by the descriptions of the types. Sometimes called the "security" and "stress" points, or points of "integration" and "disintegration".

From this perspective, there are twenty-seven (27) distinct personality patterns, because people of each of the nine (9) types also express themselves as one of the three (3) subtypes (Wikipedia).

This is managed within twelve (12) flows (A: to W:). Each flows is representing a certain period which is converting the three (3) layers of 19 cells with a cumulative sum of 1, 7 and 19 in sequence as explained before.

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image

It turns out it's actually pretty straight forward to set WSL to use your Windows home directory. First, within WSL edit the /etc/passwd file (eg with sudo nano /etc/passwd).

+
eq19:x:1000:1000:eQ19:/home/eq19:/bin/bash
+eq19:x:1000:1000:eQ19:/mnt/c/users/Admin:/bin/bash
+

image

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+
₠Quantum
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Twisting (spin 8)

1155 / 5 = 286 - 55 = 200 + 31 = 231

layer|  i    |   f
+-----+-------+------
+     | 1,2:1 | (2,3)
+  1  +-------+
+     | 3:2   | (7)
+-----+-------+------
+     | 4,6:3 | (10,11,12)  <--- 231 (3x)
+  2  +-------+
+     |{7}:4  |({13})
+-----+-------+------
+     | 8,9:5 | (14,{15})   <--- 231 (2x)
+  3  +-------+
+     | 10:6  | (19)
+-----+-------+------
+

We study the limit shape of the generalized Young diagram when the tensor power N and the rank n of the algebra tend to infinity with N/n fixed. We derive an explicit formula for the limit shape and prove convergence to it in probability. We prove central limit theorem for global fluctuations around the limit shape (arXiv:2010.16383v4).

Limit shape for infinite rank limit of tensor power decomposition for Lie algebras of series

Dyson discovered that the eigenvalue of these matrices are spaced apart in exactly the same manner as Montgomery conjecture of the nontrivial zeros of the zeta function. Means it also depends on Riemann hypotesis which is still in a major issue. Similar case left science today many unsolved problems that associated with.

Eigenvectors_of_a_linear_operator

In order to propagate through space and interact we shall attemp it using string theory One must therefore imagine scenarios in which these extra dimensions would not be observed in experiments so it would become irrational partitions.

In turns out that quantum string theory always destroys the symmetries of the classical string theory, except in one special case: when the number of dimensions is 10. That's why string theory works only in 10 dimensions (Physicsforums).

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True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+|------------------------- Skema-12 ------------------------|
+|------------ 6¤ -------------|------------- 6¤ ------------|
+|--------------------------- 192 ---------------------------|
+|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---|
++----+----+----+----+----+----+----+----+----+----+----+----+
+|  5 |  7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 |
++----+----+----+----+----+----+----+----+----+----+----+----+
+|---------  5¤  ---------|---- {48} ----|----- {48} ---|{43}|
+|---------  5¤  ---------|------------ {96} -----------|{43}|
+|--------- {53} ---------|-------------- {139} -------------|
+|------- Skema-23 -------|------------- Skema-34 -----------|    
+

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This 23 units will form Scheme-23 as two (2) long strands which is known as doble helix Here we call them as Scheme-23 (71) and Scheme-23 (68). These strands are originated by the three (3) layers of True Prime Pairs.

Scheme-139

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Since the arithmetic mean of those primes yields 157 then the existence of 114 will remain to let this 18+19=37th prime number stands as the balanced prime.

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Recycling (spin 9)

This progression 41,43,47,53,61,71,83,97,113,131 whose general term is 41+x+xx, is as much remarkable since the 40 first terms are all prime numbers (Euler's letter to Bernoulli).

1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+

Plottng 40th prime scheme of the three (3) layers with all the features of 3rd prime identity as explained above then they would form their recycing through the three (3) times bilateral 9 sums as shown below.

89^2 - 1 = 7920 = 22 x 360 = 66 x 120 = (168 - 102) x 120

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I wondered if that property might hold for the incremental powers of phi as well. For this reason I chose to see numbers in the hexagon as quantum, and truncate off the decimal values to determine which integer cell they land in.

That is what I found. Phi and its members have a pisano period if the resulting fractional numbers are truncated.

Truncate to Determine Integer Values

FeynCalc is a Mathematica package for symbolic evaluation of Feynman diagrams and algebraic calculations in quantum field theory and elementary particle physics.

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\ No newline at end of file diff --git a/identition/folder11/file10.html b/identition/folder11/file10.html new file mode 100644 index 00000000..88777159 --- /dev/null +++ b/identition/folder11/file10.html @@ -0,0 +1 @@ + Exchange (spin 10) · ₠Quantum

Exchange (spin 10)

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The exchange interaction is a quantum mechanical process that only happens between identical particles in chemistry and physics. The energy produced when two or more electrons with the same spin swap locations in a subshell's degenerate orbitals .

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On the instinctual level, people may internally stress and externally express the need to protect themselves (self-preservation), to connect with important others or partners (sexual), or to get along or succeed in groups (social).


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Runners (spin 11)

In this Feynman diagram, an electron (e−) and a positron (e+) annihilate, producing a photon (γ, represented by the blue sine wave) that becomes a quark–antiquark pair (quark q, antiquark q̄), after which the antiquark radiates a gluon (g, represented by the green helix).

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Runners are the machines that execute jobs in a GitHub Actions workflow. You can access Variables and Contexts information in specific OS. For example, a runner can clone your repository locally, install testing software, and then run commands.


+# Sample workflow for building and deploying a Jekyll site to GitHub Pages
+name: Build and deploy Jekyll site
+
+# 💎 Runs on deployment targeting the default branch
+on:
+  # push:
+    # branches: [eQ19]
+  workflow_run:
+    types: [completed] #requested
+    workflows: ["pages-build-deployment"]
+
+# 🪂 Allow only one concurrent deployment across the branches
+concurrency:
+  group: "pages"
+  cancel-in-progress: true
+  
+# Sets permissions of the GITHUB_TOKEN
+permissions: write-all
+
+# Sets global environtment variables
+env:
+  OWNER: ${{ github.repository_owner }}
+
+jobs:
+  # Build job
+  github-pages:
+    if: github.event.workflow_run.conclusion == 'success'
+    runs-on: ${{ vars.OWNER != 'FeedMapping' && 'ubuntu-latest' || 'windows-latest' }}
+    steps:
+      - name: 📂 Checkout
+        uses: actions/checkout@v3
+        with:
+          submodules: recursive
+ 
+      - name: 💎 Build on Linux
+        if: runner.os == 'Linux'
+        uses: eq19/feed@v2
+        with:
+          pre_build_commands: 'make build'
+          token: ${{ secrets.JEKYLL_GITHUB_TOKEN }}
+
+      - name: 💎 Build on Windows
+        if: runner.os == 'Windows'
+        uses: eq19/maps@v1
+        id: stepid
+        with:
+          dotnet-version: '3.1.x'
+
+

By deploying containers on Compute Engine, you can simplify app deployment while controlling four dimensional space. You can configure a virtual machine (VM) instance or an instance template to deploy and launch a Docker container.

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This property would tend the ballancing scheme of MEC30 so it will let 30-18=12 pairing with another 12 of 24 spins prime hexagon. The 24 goes to the center of True Prime Pairs ny the prime pair 13 and 11 and let the crancks of 2,3,5,7 inside the 10 ranks.

                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   feeding    |     mapping     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         |    |
+                                |                             |                         |    |
+                                 ------------ 10 -------------                          |    |
+                                                                                        ↓    ↓ |
+                                                                                +----+----+----+
+                                                                                |  2 | 60 | 40 |
+                                                                                +----+----+----+
+                                                                                        |    | |
+                                                                                     2+100 ◄- 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

This 71 is a conformation that it has the same result as we have explained on the residual objects of 571 turn to a vektor of 71 while the rest of 500 turn to 200 objects of 3's identity and the last objects of 300 goes to the next cycles.

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So now out of 1000 numbers that generated from 1000 primes we will get the rest of 1000 - 100 = 900. This 900 will behave as matrix square 30x30 and act as the base frame of 2nd and 3rd layer which are working on π(π(100x100))-1=200 primes:

                            33+34=67=19th prime
+ |----------------------------------|-------------------------------------------------------------|
+ |             33                   |                             34                              |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |     lexering = π(1000)           |                    parsering = 1000/Φ                       |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |   feeding    |      mapping      |          syntaxing           |          grammaring          |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 |  39 | 40 | 41 | 42 | 43 | 44 | 45  | 46 | 47 | 48 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1  | 30 | 30 | 5  | 1  | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |       2'     |        3'         |              5'              |               7'             | 
+

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The GitHub hosted runner is assigned to run the Linux container and a Windows Server Core container simultaneously. This is an experimental feature of Microsoft WSL2 and may have some issues. One known problem is volumes are not stable.

Set WSL

The 10 ranks will coordinate with the 18 to raise up the symmetrical behaviour of 12+24=36 which is prime pair 17+19=36 and let the 2 and 3 out of 2,3,5,7 to begin a new cycle while the 5,7 will pair the 11,13 and 17,19 as True Prime Pairs.

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\ No newline at end of file diff --git a/identition/folder11/file12.html b/identition/folder11/file12.html new file mode 100644 index 00000000..e8f7b704 --- /dev/null +++ b/identition/folder11/file12.html @@ -0,0 +1,118 @@ + Manifest (spin 12) · ₠Quantum

Manifest (spin 12)

---+-----+-----
+ 1 | {1} | {2}
+---+-----+-----
+ 2 |  3  | 101
+---+-----+-----
+ 3 |{102}| 111
+---+-----+-----
+

There are some mathematical shape of this residual objects. Torus is basically a donut shape, which has the property of of having variable Gaussian curvature. Some parts of the surface has positive curvature, others zero, others negative.

The blue parts of the torus above have positive curvature, the red parts negative and the top grey band has zero curvature. If our 3 dimensional space was like the surface areas of a 4 dimensional torus, the parts would have different angle sums.

Torus

These are two more bizarre shapes with strange properties. Mobius strip only has one side, if you start anywhere on its surface and follow the curvature round you will eventually return to the same place having travelled on every part of the surface.

Mobius

The Klein bottle is in someways a 3D version of the Mobius strip and even though it exists in 3 dimensions, to make a true one you need to "fold through" the 4th dimension.

Klein bottle

By our project, this partition stands as the prime identity. The tabulation below shows the 2nd prime identity where the 20 out of the largest part = 21 goes to rank = 10 via crank = 20-11 = 9. These 10 and 9 are associated with the 19th prime identitity.

           largest part = 21 → 11+13+12 = 36  →  MEC30
+                        ↓                      |
+---+-----+-----+-----+-----+                   ↓
+ 1 | 19  | 1   | 20  | 21  |-------------------|-----
+---+-----+-----+-----+-----+                   ↓     |
+ 2 | 18  | 21  | 39  | 60  |-------------------      |
+---+-----+-----+-----+-----+                   |     |
+ 3 |{63} | 40  | 103 | 143 |-------------      |     |
+---+-----+-----+-----+-----+             |     |     |
+ 4 | 37  | 104 | 141 | 245 |-------      |     |     |
+---+-----+-----+-----+-----+       |     |     |     |
+ 5 | 10* | 142 | 152 | 294 |- 11** | 13  | 12  | 12  | 18
+---+-----+-----+-----+-----+       |     |     |     |
+ 6 | 24  | 153 | 177 | 332 |-------      |     |     |
+---+-----+-----+-----+-----+             |     |     |
+ 7 | 75  | 178 | 253 | 431 |-------------      |     |
+---+-----+-----+-----+-----+                   |     |
+ 8 | 30  | 254 | 284 | 538 |-------------------      |
+---+-----+-----+-----+-----+                   ↓     |
+ 9 | 1   | 285 | 286 | 571 |-------------------|-----
+===+=====+=====+=====+=====+                   ↓
+45 | 277 |                      ← 11+13+12=36 ←  MEC30
+---+-----+                                     |
+ ↑
+Note:
+10* stands as the central rank
+11** stands as the central parts
+

In order to describe real physical phenomena using string theory, one must therefore imagine scenarios in which these extra dimensions would not be observed in experiments so it would become the irrational partitions.

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17) (₠Quantum).

$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6®
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6®
+      |  6  | 19
+ -----+-----+---------
+  
+layer | node | sub |  i  |  f                               
+------+------+-----+---------- 
+      |      |     |  1  | -------------------- _site ---  71 = 72-1
+      |      |  1  +-----+                        |
+      |  1   |     |  2  | (5)                  _saas
+      |      |-----+-----+                        |
+      |      |     |  3  | ---------            _data
+  1   +------+  2  +-----+----      |             |
+      |      |     |  4  |         5x ---       _posts
+      |      +-----+-----+          |     |       |
+      |  2   |     |  5  | (7) -----      |     _drafts
+      |      |  3  +-----+                |       |
+289+11=300   |     |  6  |                |     _plugins
+------+------+-----+-----+----- 72 x 6   7x ------------ 11x = 77 (rational)◄--
+      |      |     |  7  |                |     _includes                      |
+      |      |  4  +-----+                |       |                            |
+      |  3   |     |  8  | (11)  ---      |     _layouts                       |
+      |      +-----+-----+          |     |       |                            |
+      |      |     |  9  |         2x ---        assets  (69 = 72-3)           |
+  2   +------|  5  +-----+-----     |             |                            |
+      |      |     |  10 | ---------            _saas                          |
+      |      |-----+-----+                        |                            |
+      |  4   |     |  11 | (13) ----------------_site --  71 = 72-1            |
+      |      |  6  +-----+                                                     |
+329+71=400   |     |  12 |------------------------------  70 = 72-2            |
+------+------+-----+-----+                                                    11x
+      |      |     |  13 |                                                     |
+      |      |  7  +-----+                                                     |
+      |  5   |     |  14 | (17) ◄------------------------------------------- (17)
+      |      |-----+-----+                                                     |
+      |      |     |  15 | ◄-- 42 x 6 partitions of 13 (irrational)            |
+  3   +------+  8  +-----+-----                                                +
+      |      |     |  16 |                                                     |  
+      |      |-----+-----+                                                     |
+      |  6   |     |  17 | (19) ◄------------------------------------------- (19)
+      |      |  9  +-----+                                                     |
+168+32=200   |  |  |  18 |------------------------------  68 = 72-4            |
+------|------|--|--+-----+                                                     |
+       900 -----                                                               |
+                                                                               |
+Tabulate Prime by Power of 10                                                  |
+  loop(10) = π(10)-π(1) = 4-0 = 4                                            (36)
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19                                   |
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114                       |
+                                                                               |
+  -----------------------+----+----+----+----+----+----+----+----+----+-----   |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum    |
+  =======================+====+====+====+====+====+====+====+====+====+=====   |
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  (19)    
+  -----------------------+----+----+----+----+----+----+----+----+----+-----   +     
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  (17)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th    |
+  =======================+====+====+====+====+====+====+====+====+====+=====   |
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th   11x
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+  
+

Within a cycle this scheme would generate the prime platform which is performing the rank of 10 shapes starting with the primes 2,3,5,7. Via the 11 partitions as the lexer and 13 frames as the parser we do a recombination to build the grammar in 6 periods.

6 minor hexagons

For starters, it possesses a perfectly balanced structural and numeric symmetries. So it conforms the intervals between the prime roots of the Prime Spiral Sieve (and every subsequent row or rotation of the sieve) with the period eight (8) difference sequence.

default

These two (2) exponent are acting as the exchange zones of the MEC30 behaviour of the other two operators. This interactions is managed in between 4 identities of (26 to 29) and 2 identities (30 to 31) by means of Triangular waves.

MEC30

When the subclasses of partitions are flatten out into a matrix, you want to take the Jacobian of each of a stack of targets with respect to a stack of sources, where the Jacobians for each target-source pair are independent .

It's possible to build a Hessian matrix for a Newton's method step using the Jacobian method. You would first flatten out its axes into a matrix, and flatten out the gradient into a vector (Tensorflow).

Batch Jacobian

By The GitHub Runner you can connect to the Google COS Instance. For self-hosted runners defined at the organization level, configure runs-on.group in your workflow file to target a runner groups or combine groups and labels.

A seemingly unrelated construction is the j-function of number theory. This object belongs to a special class of functions called modular functions, whose graphs form a certain kind of repeating pattern.

Although this function appears in a branch of mathematics that seems very different from the theory of finite groups, the two subjects turn out to be intimately related (Wikipedia).

Monstrous moonshine

We propose a new higher dimensional version of the McKay correspondence which enables us to understand the Hodge theory assigned to singular Gorenstein varieties by physicists, and so-called Higgs bundles.

Hodge theory can be extended to cohomology with coefficients in nonabelian groups between flat vector bundles which, by the Riemann-Hilbert correspondence, are the same as local systems (Hodge Theory in String Theory)

Hodge conjecture

Our results lead to the conjecture that string theory indicates the existence of some new cohomology theory for algebraic varieties with Gorenstein singularities.


₠Quantum
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GitHub
Homepage
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\ No newline at end of file diff --git a/identition/folder11/index.html b/identition/folder11/index.html new file mode 100644 index 00000000..ac3710bf --- /dev/null +++ b/identition/folder11/index.html @@ -0,0 +1,126 @@ + Manifest (11th-dimension) · ₠Quantum

Manifest (11th-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

There are some mathematical shape of this residual objects. Torus is basically a donut shape, which has the property of of having variable Gaussian curvature. Some parts of the surface has positive curvature, others zero, others negative.

The blue parts of the torus above have positive curvature, the red parts negative and the top grey band has zero curvature. If our 3 dimensional space was like the surface areas of a 4 dimensional torus, the parts would have different angle sums.

Torus

These are two more bizarre shapes with strange properties. Mobius strip only has one side, if you start anywhere on its surface and follow the curvature round you will eventually return to the same place having travelled on every part of the surface.

Mobius

The Klein bottle is in someways a 3D version of the Mobius strip and even though it exists in 3 dimensions, to make a true one you need to "fold through" the 4th dimension.

Klein bottle

By our project, this partition stands as the prime identity. The tabulation below shows the 2nd prime identity where the 20 out of the largest part = 21 goes to rank = 10 via crank = 20-11 = 9. These 10 and 9 are associated with the 19th prime identitity.

           largest part = 21 → 11+13+12 = 36  →  MEC30
+                        ↓                      |
+---+-----+-----+-----+-----+                   ↓
+ 1 | 19  | 1   | 20  | 21  |-------------------|-----
+---+-----+-----+-----+-----+                   ↓     |
+ 2 | 18  | 21  | 39  | 60  |-------------------      |
+---+-----+-----+-----+-----+                   |     |
+ 3 |{63} | 40  | 103 | 143 |-------------      |     |
+---+-----+-----+-----+-----+             |     |     |
+ 4 | 37  | 104 | 141 | 245 |-------      |     |     |
+---+-----+-----+-----+-----+       |     |     |     |
+ 5 | 10* | 142 | 152 | 294 |- 11** | 13  | 12  | 12  | 18
+---+-----+-----+-----+-----+       |     |     |     |
+ 6 | 24  | 153 | 177 | 332 |-------      |     |     |
+---+-----+-----+-----+-----+             |     |     |
+ 7 | 75  | 178 | 253 | 431 |-------------      |     |
+---+-----+-----+-----+-----+                   |     |
+ 8 | 30  | 254 | 284 | 538 |-------------------      |
+---+-----+-----+-----+-----+                   ↓     |
+ 9 | 1   | 285 | 286 | 571 |-------------------|-----
+===+=====+=====+=====+=====+                   ↓
+45 | 277 |                      ← 11+13+12=36 ←  MEC30
+---+-----+                                     |
+ ↑
+Note:
+10* stands as the central rank
+11** stands as the central parts
+

In order to describe real physical phenomena using string theory, one must therefore imagine scenarios in which these extra dimensions would not be observed in experiments so it would become the irrational partitions.

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17) (₠Quantum).

$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6®
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6®
+      |  6  | 19
+ -----+-----+---------
+  
+layer | node | sub |  i  |  f                               
+------+------+-----+---------- 
+      |      |     |  1  | -------------------- _site ---  71 = 72-1
+      |      |  1  +-----+                        |
+      |  1   |     |  2  | (5)                  _saas
+      |      |-----+-----+                        |
+      |      |     |  3  | ---------            _data
+  1   +------+  2  +-----+----      |             |
+      |      |     |  4  |         5x ---       _posts
+      |      +-----+-----+          |     |       |
+      |  2   |     |  5  | (7) -----      |     _drafts
+      |      |  3  +-----+                |       |
+289+11=300   |     |  6  |                |     _plugins
+------+------+-----+-----+----- 72 x 6   7x ------------ 11x = 77 (rational)◄--
+      |      |     |  7  |                |     _includes                      |
+      |      |  4  +-----+                |       |                            |
+      |  3   |     |  8  | (11)  ---      |     _layouts                       |
+      |      +-----+-----+          |     |       |                            |
+      |      |     |  9  |         2x ---        assets  (69 = 72-3)           |
+  2   +------|  5  +-----+-----     |             |                            |
+      |      |     |  10 | ---------            _saas                          |
+      |      |-----+-----+                        |                            |
+      |  4   |     |  11 | (13) ----------------_site --  71 = 72-1            |
+      |      |  6  +-----+                                                     |
+329+71=400   |     |  12 |------------------------------  70 = 72-2            |
+------+------+-----+-----+                                                    11x
+      |      |     |  13 |                                                     |
+      |      |  7  +-----+                                                     |
+      |  5   |     |  14 | (17) ◄------------------------------------------- (17)
+      |      |-----+-----+                                                     |
+      |      |     |  15 | ◄-- 42 x 6 partitions of 13 (irrational)            |
+  3   +------+  8  +-----+-----                                                +
+      |      |     |  16 |                                                     |  
+      |      |-----+-----+                                                     |
+      |  6   |     |  17 | (19) ◄------------------------------------------- (19)
+      |      |  9  +-----+                                                     |
+168+32=200   |  |  |  18 |------------------------------  68 = 72-4            |
+------|------|--|--+-----+                                                     |
+       900 -----                                                               |
+                                                                               |
+Tabulate Prime by Power of 10                                                  |
+  loop(10) = π(10)-π(1) = 4-0 = 4                                            (36)
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19                                   |
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114                       |
+                                                                               |
+  -----------------------+----+----+----+----+----+----+----+----+----+-----   |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum    |
+  =======================+====+====+====+====+====+====+====+====+====+=====   |
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  (19)    
+  -----------------------+----+----+----+----+----+----+----+----+----+-----   +     
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  (17)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th    |
+  =======================+====+====+====+====+====+====+====+====+====+=====   |
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th   11x
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+  
+

Within a cycle this scheme would generate the prime platform which is performing the rank of 10 shapes starting with the primes 2,3,5,7. Via the 11 partitions as the lexer and 13 frames as the parser we do a recombination to build the grammar in 6 periods.

6 minor hexagons

For starters, it possesses a perfectly balanced structural and numeric symmetries. So it conforms the intervals between the prime roots of the Prime Spiral Sieve (and every subsequent row or rotation of the sieve) with the period eight (8) difference sequence.

default

These two (2) exponent are acting as the exchange zones of the MEC30 behaviour of the other two operators. This interactions is managed in between 4 identities of (26 to 29) and 2 identities (30 to 31) by means of Triangular waves.

MEC30

When the subclasses of partitions are flatten out into a matrix, you want to take the Jacobian of each of a stack of targets with respect to a stack of sources, where the Jacobians for each target-source pair are independent .

It's possible to build a Hessian matrix for a Newton's method step using the Jacobian method. You would first flatten out its axes into a matrix, and flatten out the gradient into a vector (Tensorflow).

Batch Jacobian

By The GitHub Runner you can connect to the Google COS Instance. For self-hosted runners defined at the organization level, configure runs-on.group in your workflow file to target a runner groups or combine groups and labels.

A seemingly unrelated construction is the j-function of number theory. This object belongs to a special class of functions called modular functions, whose graphs form a certain kind of repeating pattern.

Although this function appears in a branch of mathematics that seems very different from the theory of finite groups, the two subjects turn out to be intimately related (Wikipedia).

Monstrous moonshine

We propose a new higher dimensional version of the McKay correspondence which enables us to understand the Hodge theory assigned to singular Gorenstein varieties by physicists, and so-called Higgs bundles.

Hodge theory can be extended to cohomology with coefficients in nonabelian groups between flat vector bundles which, by the Riemann-Hilbert correspondence, are the same as local systems (Hodge Theory in String Theory)

Hodge conjecture

Our results lead to the conjecture that string theory indicates the existence of some new cohomology theory for algebraic varieties with Gorenstein singularities.


₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder2/file01.html b/identition/folder2/file01.html new file mode 100644 index 00000000..5cdb1d8c --- /dev/null +++ b/identition/folder2/file01.html @@ -0,0 +1,134 @@ + DNA Recombination · ₠Quantum

DNA Recombination

This imajinary unit is the product of reciprocal complex numbers of the trivial and complex roots that goes recursively with their residual objects. By the nature such as DNA this residual is taken as genetic exchange to generate a better recombination.

Recombination is a process that results in genetic exchange between chromosomes or regions. Recombination counteracts physical linkage between adjacent genes, thereby reducing genetic hitchhiking (Wikipedia).

Recombination can also generate particular types of mutations if chromosomes are misaligned. Recombination involves the breakage and rejoining of two chromosomes (M and F) to produce two re-arranged chromosomes (C1 and C2).

The result of genes results in more efficient selection, meaning that regions with higher recombination will harbor fewer detrimental mutations, more selectively favored variants, and fewer errors in replication and repair (Wikipedia).

Consider that by the True Prime Pairs the 36 is the smallest square expressible as the sum of consecutive prime in two (2) ways of 4 (four) primes and 2 (two) primes.

2nd identity (objects) = 500 x 2/(2+3) = 500 x 2/5 = 200 objects

$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6® by 4 primes
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6® by 2 primes --------------------
+      |  6  | 19                                            |
+ -----+-----+---------                                      |
+                                                            |
+                                                            |
+layer | node | sub |  i  |  f                               |
+------+------+-----+---------- 
+      |      |     |  1  | -----------------------   71 by 2 identities √
+      |      |  1  +-----+                        |
+      |  1   |     |  2  | (5)                    |
+      |      |-----+-----+                        |
+      |      |     |  3  |                        |
+  1   +------+  2  +-----+----                    |
+      |      |     |  4  |                        |
+      |      +-----+-----+                        |
+      |  2   |     |  5  | (7)                    |
+      |      |  3  +-----+                        |
+      |      |     |  6  |                        | 11x
+------+------+-----+-----+------      } (36)      |
+      |      |     |  7  |                        |
+      |      |  4  +-----+                        |
+      |  3   |     |  8  | (11)                   |
+      |      +-----+-----+                        |
+      |      |     |  9  |                        |
+  2   +------|  5  +-----+-----                   |
+      |      |     |  10 |                        |
+      |      |-----+-----+                        |
+      |  4   |     |  11 | (13) ------------------   71 by 4 identities √
+      |      |  6  +-----+
+      |      |     |  12 |---------------------  (72 - 2) by 1 identity √
+------+------+-----+-----+
+      |      |     |  13 |
+      |      |  7  +-----+
+      |  5   |     |  14 | (17)
+      |      |-----+-----+
+      |      |     |  15 |
+  3   +------+  8  +-----+-----  
+      |      |     |  16 |
+      |      |-----+-----+
+      |  6   |     |  17 | (19)
+      |      |  9  +-----+
+      |      |     |  18 |---------------------  (72 - 4) by 1 identity √
+------|------|-----+-----+
+

Since the position of 19 acts as the exchange base then a new recombination would be re-arranged which is resulting a linkage between 2 (two) and four (4) of prime identities aligned by the residual tensor of 71.

(2 x 32 x 109) − (2 x 32 x 89) = 360

layer | node | sub |  i  |  f
+------+------+-----+----------                                               ---
+      |      |     |  1  | 71 (2,3) √ ------------                            |
+      |      |  1  +-----+                        |                           |
+      |  1   |     |  2  |                        |                          (5) 
+      |      |-----+-----+                        |                           |
+      |      |     |  3  |                        |                           |
+  1   +------+  2  +-----+----                    |                          ---
+      |      |     |  4  |                        |                           |
+      |      +-----+-----+                        |                           |
+      |  2   |     |  5  |                        |                          (7) 
+      |      |  3  +-----+                        |                           |
+      |      |     |  6  |                        | {6®} √                    |
+------+------+-----+-----+------      } (36)      |                          ---
+      |      |     |  7  |                        |                           |
+      |      |  4  +-----+                        |                           |
+      |  3   |     |  8  |                        |                         (11) 
+      |      +-----+-----+                        |                           |
+      |      |     |  9  |                        |                           |
+  2   +------|  5  +-----+-----                   |                          ---
+      |      |     |  10 |                        |                           |
+      |      |-----+-----+                        |                           |
+      |  4   |     |  11 | 71 (29,30,31,32) √ ----                          (13)
+      |      |  6  +-----+                                                    |
+      |      |     |  12 | {70} (36)                                          |
+------+------+-----+-----+------------------                                 ---
+      |      |     |  13 |                                                    |
+      |      |  7  +-----+                                                    |
+      |  5   |     |  14 |                                                  (17) 
+      |      |-----+-----+                                                    |
+      |      |     |  15 |                                                    |
+  3   +------+  8  +-----+-----       } (36)                                 ---
+      |      |     |  16 |                                                    |
+      |      |-----+-----+                                                    |
+      |  6   |     |  17 | 100 (10 x 500/100)                                (19) 
+      |      |  9  +-----+                                                    |
+      |      |     |  18 | 10 x 500/100 (68)                                  |
+------|------|-----+-----+------                                             ---
+

By the 2x25=500/10=50 and 10x10=11+89=100 which is identified from the factorization of 285+286=571 object. Meanwhile 32 is expanded to 32+36=68. So finally the tensor of 71 will be derived to 7×10=68+2=72-2=70 at the center of the scheme.

(10th)th prime = 29th prime = 109 = 110 - 1

layer | node | sub |  i  |  f
+------+------+-----+----------                                               ---
+      |      |     |  1  | 71 (2,3) --------------                            |
+      |      |  1  +-----+                        |                           |
+      |  1   |     |  2  |                        |                          (5) 
+      |      |-----+-----+                        |                           |
+      |      |     |  3  |                        |                           |
+  1   +------+  2  +-----+----                    |                          ---
+      |      |     |  4  |                        |                           |
+      |      +-----+-----+                        |                           |
+      |  2   |     |  5  |                        |                          (7) 
+      |      |  3  +-----+                        |                           |
+      |      |     |  6  |                        | {6®} = 11 x 30            |
+------+------+-----+-----+------      } (36)      |                          ---
+      |      |     |  7  |                        |                           |
+      |      |  4  +-----+                        |                           |
+      |  3   |     |  8  |--- 109 √ ---           | 110-1 by 1 identity √    (11) 
+      |      +-----+-----+             |          |                           |
+      |      |     |  9  |---- 69 √    | {2®} √   |  71-2 by 1 identity √     |
+  2   +------|  5  +-----+-----        |          |                          ---
+      |      |     |  10 |--- 109 √ ---           | 110-1 by 1 identity √     |
+      |      |-----+-----+                        |                           |
+      |  4   |     |  11 | 71 (29,30,31,32) ------                          (13)
+      |      |  6  +-----+                                                    |
+      |      |     |  12 |                                                    |
+------+------+-----+-----+------------------ 329 = 330 - 1 = 309 + 20        ---
+      |      |     |  13 |                                                    |
+      |      |  7  +-----+                                                    |
+      |  5   |     |  14 |                                                  (17) 
+      |      |-----+-----+                                                    |
+      |      |     |  15 |                                                    |
+  3   +------+  8  +-----+-----                                              ---
+      |      |     |  16 |                                                    |
+      |      |-----+-----+                                                    |
+      |  6   |     |  17 | 100(50)                                          (19) 
+168 √ |      |  9  +-----+                                                    |
+|     |      |     |  18 | 50(68)                                             |
+------|------|-----+-----+------                                             ---
+

Palindromic behaviour

The main scheme is two (2) by five (5) objects expressed by three (3) operation of addition (2+5=7), multiplication (2x5=10) and exponentiation (5²=25 and 2^5=32). Here we correlate 11's additive sums with 3960, 7920 and the first 1000 prime numbers.

11's additive sums

image

In the matrix pictured below, we list the first 24 elements of our domain, take their squares, calculate the modulo 90 congruence and digital roots of each square, and display the digital root factorization dyad for each square (and map their collective bilateral 9 sum symmetry) (Primesdemystified).

Distribution of Perfect Squares

Deep Symmetry

default

Diving deeper yet, here we show the absolute value delta differences of simple reversal sets in relation to primes 89 and 109 contextualized with the first 1000 prime numbers.

image

Achim Frenzel's popular scientific book, which is illustrated with numerous graphics, is treated as an approach that should definitely be further researched by science. In addition, as a future-oriented project, the book is intended to lead to an interdisciplinary doctorate and therefore refers to its own website as an Internet discussion platform.

An Independent claim is also included for the localization and determination of (I), or their material structures, by graphical representation of base sequences on various media, based on the new assignments and the derived vibrations and amplitudes (Open Patent Data DE19991049059).

See on the left side contains of odd numbers less and equal to 19 while the right is the even number less and equal to 18. By the left side only 9 and 15 that are not primes

Since this bilateral sums of 9 are laid on the prime spiral sieve then the symmetrical behaviour will occur by three (3) rotations of 360. By the 20 objects of 1st prime identity, this 360 will then be separated to 3x100=300 and 3x20=60.

89^2 - 1 = 7921 - 1 = 7920 = 22 x 360 = 66 x 120

Deep Symmetries

By the 500 objects of the 2nd prime identity, the 300 goes to the 29 while the rest of 200 goes as 3rd prime identity to the 89. So the involved objects on the both sides are 300+29=329 and 200+89=289 thus the total will be 329+289=618 objects.


₠Quantum
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\ No newline at end of file diff --git a/identition/folder2/file02.html b/identition/folder2/file02.html new file mode 100644 index 00000000..64bd4fa7 --- /dev/null +++ b/identition/folder2/file02.html @@ -0,0 +1,16 @@ + file02.md · ₠Quantum

default

 |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  ° |ΔΔΔΔ  ΦΦ | •   ΔΔ   ΔΔ   ¤ | •   ΔΔ   ΦΦΦ    Φ   ΦΦ  ¤¤¤¤|  •   ΔΔ   ΦΦΦ    Φ   ¤¤   ΦΦ |  
+ 
+ |----- 102  ---|-----  66  ------|-------- 329 = 7 x 47 -------|- 289 = (8+9)² = 2 & (2³+9²) -|
+ |---2x3x(8+9)--|--- 2x3x(2+9) ---|---- (1+2) & (2x9)+(2+9) ----|------ 2 & (8x9)+(8+9) -------|
+ |--------- 168 = π(1000) --------|------ 1229 = π(10000) ------|------ π(89²) = 1000 ---------|
+ |--------- 168 = π(618xΦ) -------|----- 618 = 1000/Φ = 1000x1000/1618 = 10^6/(2x8)&(2x9) -----|
+
+

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₠Quantum
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\ No newline at end of file diff --git a/identition/folder2/file02.md b/identition/folder2/file02.md new file mode 100644 index 00000000..f909576d --- /dev/null +++ b/identition/folder2/file02.md @@ -0,0 +1,24 @@ +[![default](https://user-images.githubusercontent.com/8466209/195963923-0796217c-7a87-4b2d-ba93-f47465304c03.png)](https://www.nausetschools.org/cms/lib/MA02212418/Centricity/Domain/204/Linkage%20Map%20Worksheet%20Genetics%202017.pdf) + +``` + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | ° |ΔΔΔΔ ΦΦ | • ΔΔ ΔΔ ¤ | • ΔΔ ΦΦΦ Φ ΦΦ ¤¤¤¤| • ΔΔ ΦΦΦ Φ ¤¤ ΦΦ | + + |----- 102 ---|----- 66 ------|-------- 329 = 7 x 47 -------|- 289 = (8+9)² = 2 & (2³+9²) -| + |---2x3x(8+9)--|--- 2x3x(2+9) ---|---- (1+2) & (2x9)+(2+9) ----|------ 2 & (8x9)+(8+9) -------| + |--------- 168 = π(1000) --------|------ 1229 = π(10000) ------|------ π(89²) = 1000 ---------| + |--------- 168 = π(618xΦ) -------|----- 618 = 1000/Φ = 1000x1000/1618 = 10^6/(2x8)&(2x9) -----| + +``` + +[![default](https://user-images.githubusercontent.com/8466209/198915985-f3280a15-1ca4-45bf-855c-ac277fa2ca2e.png)](https://www.hexspin.com/defining-the-prime-hexagon/) + +![default](https://user-images.githubusercontent.com/8466209/198837916-57284efa-bdb7-42d8-80f6-584b3c3bbd19.png) + diff --git a/identition/folder2/file03.html b/identition/folder2/file03.html new file mode 100644 index 00000000..432a9a9c --- /dev/null +++ b/identition/folder2/file03.html @@ -0,0 +1 @@ + file03.md · ₠Quantum

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We color-code the six hexagons, identifying patterns in key number sequences, including the Fibonacci sequence, powers of two and three, and power of pi. For the series of consecutive powers of pi, we have found that **no two fall within the same six-cell hexagon**. We have computed this for pi^32, which has less than a 1/400 chance of occurring randomly.


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\ No newline at end of file diff --git a/identition/folder2/file03.md b/identition/folder2/file03.md new file mode 100644 index 00000000..91ea480d --- /dev/null +++ b/identition/folder2/file03.md @@ -0,0 +1,12 @@ +![default](https://user-images.githubusercontent.com/8466209/198918182-0d350710-64b3-48de-bd7e-a45ae4390380.png) +![default](https://user-images.githubusercontent.com/8466209/198918275-c88e4875-938e-4f18-b1ae-696026f9fd30.png) +![default](https://user-images.githubusercontent.com/8466209/198918564-8441195d-e47b-45e2-8e87-6d4cf8f60a84.png) + +![default](https://user-images.githubusercontent.com/8466209/198918345-a1997048-4993-4934-b094-95a297992ed4.png) +![default](https://user-images.githubusercontent.com/8466209/198918641-e33a7d60-d10a-40a4-bedf-af07b1d57d13.png) +![default](https://user-images.githubusercontent.com/8466209/198918951-0fd19fcd-59e4-444a-8774-dcd39f3044c1.png) + +[![default](https://user-images.githubusercontent.com/8466209/198917703-9e333c1b-d74d-4862-9f26-4e3f58509827.png)](https://github.com/kaustubhcs/prime-hexagon) + +We color-code the six hexagons, identifying patterns in key number sequences, including the Fibonacci sequence, powers of two and three, and power of pi. For the series of consecutive powers of pi, we have found that *****no two fall within the same six-cell hexagon*****. We have computed this for pi^32, which has less than a 1/400 chance of occurring randomly. + diff --git a/identition/folder2/file04.html b/identition/folder2/file04.html new file mode 100644 index 00000000..7a1fbc16 --- /dev/null +++ b/identition/folder2/file04.html @@ -0,0 +1,169 @@ + Mass vs Gap (Δ) · ₠Quantum

Mass vs Gap (Δ)

This section will be the last one of our presentation of 18th prime identity. Here we are going to explain one more item that is still open or undiscussed which is about what the 77 objects are going to do within the 19 vs 18 Scenario.

15 + 35 + 28 = 15 + 63 = 78 = 77 + 1

---+-----+-----
+ 1 | 1   | 15
+---+-----+-----
+ 2 | 16  | 25
+---+-----+-----
+ 3 | 26  | 50
+---+-----+-----
+ 4 | 51  | 84
+---+-----+-----
+ 5 | 85  | 99
+---+-----+-----
+
$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6®
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6®
+      |  6  | 19
+ -----+-----+---------
+

In many ways, a black hole acts like an ideal black body, as it reflects no light. Here is an animated simulation of a Schwarzschild black hole with a galaxy passing behind. Around the time of alignment, extreme gravitational lensing of the galaxy is observed.

black hole

                largest part=21 → 11+13+12=36 →  MEC30
+                        ↓                      |
+---+-----+-----+-----+-----+                   ↓
+ 1 | 19  | 1   | 20  | 21  |-------------------|-----
+---+-----+-----+-----+-----+                   ↓     |
+ 2 | 18  | 21  | 39  | 60  |-------------------      |
+---+-----+-----+-----+-----+                   |     |
+ 3 |{63} | 40  | 103 | 143 |-------------      |     |
+---+-----+-----+-----+-----+             |     |     |
+ 4 | 37  | 104 | 141 | 245 |-------      |     |     |
+---+-----+-----+-----+-----+       |     |     |     |
+ 5 | 10* | 142 | 152 | 294 |- 11** | 13  | 12  | 12  | 18
+---+-----+-----+-----+-----+       |     |     |     |
+ 6 | 24  | 153 | 177 | 332 |-------      |     |     |
+---+-----+-----+-----+-----+             |     |     |
+ 7 | 75  | 178 | 253 | 431 |-------------      |     |
+---+-----+-----+-----+-----+                   |     |
+ 8 | 30  | 254 | 284 | 538 |-------------------      |
+---+-----+-----+-----+-----+                   ↓     |
+ 9 | 1   | 285 | 286 | 571 |-------------------|-----
+===+=====+=====+=====+=====+                   ↓
+45 | 277 |                      ← 11+13+12=36 ←  MEC30
+---+-----+                                     |
+ ↑
+Note:
+10* stands as the central rank
+11** stands as the central parts
+

According to the observations made by NASA, Astronomers have uncovered TON 618 as the record breaking supermassive black hole, weighing 66 trillion and brilliantly as 140 trillion times that of the Sun, making it one of the brightest object in the Universe.

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If the statement that it is indeed located at the center of our universe then the said black hole would behave as the exchange position between twin (2) universes. This would for sure strengthen the syntax algorithm of our implementation.

7 x 11 = 77 = 99 - 22 = 11 x (9 -2)

  #8  |------- 5® --------|------------ 7® --------------|
+      | 1 |-------------- 77 = 4² + 5² + 6² -------------|
+------+---|---+---+---+---+---+---+---+---+----+----+----+
+ repo |{1}|{2}| 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+------+---|---+---+---+---+---+---+---+---+----+----+----+
+ user | 7 | - | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+------+---|---+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main | - | 9 | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+------+---|---+---+---+---+---+---+---+---+----+----+----+
+        Δ | Δ             |                      Δ  |   Δ
+       Φ17|Φ29            |                    96-99|  100 - 123 ({24})
+          |--- A,T,G,C ---|                         |  └── 100 - 103 (4x) » 100
+          Δ    2x2 = 4x   |-------  2x3 = 6x -------|  └── 104 - 109 (6x) » 30
+         {98}                                       |  └── 110 - 123 (14x)» 70
+
+
Direction:
+- The initial of 168 & 329 brings the 102 as 100+2 to π(π(10000))-1=200 or 100 x 2.
+- Then the 289 lets this 100x2 to 100² so it brings 100 to 10000 by the power of 2.
+- At the last it will be separated by the scheme of 168 to 102 goes back 100 and 2.
+ 
+Conclution:
+- All of the other primes than 2 is 1 less than the number n times the number of 2. 
+- Those Mersenne primes is generated as 1 less than the power n of the number of 2. 
+- Thus they will conseqently be carried out by the same scheme of this number of 2.
+

Perceptually, everything is separate and finite. But actually, everything is connected and infinite. It is this infinite connection, despite our limited finite perceptions, that makes us one with the cosmos.

Primes Platform

Each result goes to the 9th object of prime 67 which is 19th prime. This mass gap of (Δ > 0) is actually the quantum way of our algorithm which is discused in details by the 19th prime identity.

So when the cycle has passed the 10th object then the 43 objects will be laid by 9 collumns and slightly forming bilateral 9 sum which facilitate them to finaly generate 1000 primes.

1 instance + 7 blocks + 29 flats + 77 rooms = 114 objects

True Prime Pairs:
+(5,7), (11,13), (17,19)
+                
+-----+-----+-----+-----+-----+     -----------------------------------------------
+{786}| 1,2 |  2  | 2,3 | 3,4 | {19}                                          |
+-----+-----+-----+-----+-----+                                               |
+ {86}|  4  | 4,5 | 5,6 |{6,7}| 17                                        Base Zone
+     +-----+-----+-----+-----+                                               |
+ {78}|{7,8}| 8,9 | 12 (M dan F) ----> Δ                                      |
+     +-----+-----+-----+                                               -----------
+ {67}| 9,11|11,12|12,14| 11 <----------- Mid Zone                            |
+ ----+-----+-----+-----+-----+                                               |
+  {6}|15,16|17,18|18,20|21,22| 19                                      Mirror Zone
+     +-----+-----+-----+-----+                                               |
+  {8}|23,25|25,27|27,29| 18                                                  |
+     +-----+-----+-----+-----+-----+-----+-----+-----+-------+         -----------
+  {7}|29,33|33,36|36,39|39,41|41,45|46,51|51,57|58,66|{67,77}| 43 (C1 dan C2)<---Δ
+-----+-----+-----+-----+-----+-----+-----+-----+-----+-------+         -----------
+     |  1     2     3  |   4     5     6 |   7     8      9  |
+     |------ 29' ------|--------------- 139' ----------------|
+     |------ 102¨ -----|---------------  66¨ ----------------|
+

When recombination is occur then the prime 13 is forced to → 12 where the impact (Δ1) goes to 18+13+12=43 on the last 7th row forming the Primes Platform. Thus we got 109 objects including for the 7 rows back to the original stage.

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+Sequence:
+ By the next layer the 89² will become 89 and 5 become 5² or 25.
+ This 89 and 25 are in the same layer with total of 114 or prime 619
+ So sequence from the first prime is 1,4,7,10,29,68,89,114,139,168,329,618.
+

[(6 + 6) x 6] + [6 + (6 x 6)] = 72 + 42 = 71 + 42 + 1 = 114 objects

The Prime Recycling ζ(s):
+(2,3), (29,89), (36,68), (72,42), (100,50), (2,3), (29,89), ...**infinity**
+----------------------+-----+-----+-----+                                    ---
+     7 --------- 1,2:1|   1 |  30 |  40 | 71 (2,3) ‹-------------@----        |
+     |                +-----+-----+-----+-----+                        |      |
+     |  8 ‹------  3:2|   1 |  30 |  40 |  90 | 161 (7) ‹---           |      5¨  encapsulation
+     |  |             +-----+-----+-----+-----+             |          |      |
+     |  |  6 ‹-- 4,6:3|   1 |  30 | 200 | 231 (10,11,12) ‹--|---       |      |
+     |  |  |          +-----+-----+-----+-----+             |   |      |     ---
+      --|--|-----» 7:4|   1 |  30 |  40 | 200 | 271 (13) --›    | {5®} |      |
+        |  |          +-----+-----+-----+-----+                 |      |      |
+         --|---› 8,9:5|   1 |  30 | 200 | 231 (14,15) ---------›       |      7¨  abstraction
+289        |          +-----+-----+-----+-----+-----+                  |      |
+ |          ----› 10:6|  20 |   5 |  10 |  70 |  90 | 195 (19) --› Φ   | {6®} |
+  --------------------+-----+-----+-----+-----+-----+                  |     ---
+     67 --------› 11:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   ---› 14:10|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+                              |      |
+     |   ---› 15,18:11|   1 |  30 |  40 | 71 (29,30,31,32) ----------        13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
+   -------------------+-----+-----+                                          ---
+    786 ‹------- 20:13|  90 |  90 (38) ‹-------------- ¤                      |
+     |                +-----+-----+                                           |
+     | 618 ‹- 21,22:14|   8 |  40 |  48 (40,41) ‹----------------------      17¨  class
+     |  |             +-----+-----+-----+-----+-----+                  |      |
+     |  | 594 ‹- 23:15|   8 |  40 |  70 |  60 | 100 | 278 (42) «--     |{6'®} |
+     |  |  |          +-----+-----+-----+-----+-----+             |    |     ---
+      --|--|-»24,27:16|   8 |  40 |  48 (43,44,45,46) ------------|----       |
+        |  |          +-----+-----+                               |           |
+         --|---› 28:17| 100 | {100} (50) ------------------------»           19¨  object
+168        |          +-----+                                                 |
+|         102 -› 29:18| 50  | 50(68) ---------> Δ18                           |
+----------------------+-----+                                                ---
+

The above is observed following the W0 (assumptions of relativistic quantum mechanics) for the Existence and Mass Gap which transform under the homogeneous group as a four-vector and has a mass gap Δ > 0.

Yang–Mills Existence and Mass Gap. Prove that for any compact simple gauge group G, a non-trivial quantum Yang–Mills theory exists on R^4 and has a mass gap Δ > 0 (Wikipedia).

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\ No newline at end of file diff --git a/identition/folder2/file05.html b/identition/folder2/file05.html new file mode 100644 index 00000000..18a8b035 --- /dev/null +++ b/identition/folder2/file05.html @@ -0,0 +1,594 @@ + Container-Optimized · ₠Quantum

Container-Optimized

$ cat /etc/os-release
+
+NAME="Container-Optimized OS"
+ID=cos
+PRETTY_NAME="Container-Optimized OS from Google"
+HOME_URL="https://cloud.google.com/container-optimized-os/docs"
+BUG_REPORT_URL="https://cloud.google.com/container-optimized-os/docs/resources/support-policy#contact_us"
+GOOGLE_METRICS_PRODUCT_ID=26
+GOOGLE_CRASH_ID=Lakitu
+KERNEL_COMMIT_ID=4c0ef99fbc74bd4a4dce8851652be68038bec83e
+VERSION=105
+VERSION_ID=105
+BUILD_ID=17412.101.4
+
Pipe to sort -V for sorted output. Ex: to see all executables in your PATH on your system, and all aliases, all sorted, run: compgen -c sortsee all executables in your PATH
$ find ${PATH//:/ } -maxdepth 1 -executable | sort
+
+find: ‘/usr/local/bin': No such file or directory
+find: ‘/opt/bin': No such file or directory
+/bin
+/bin/attr
+/bin/basename
+/bin/bash
+/bin/bunzip2
+/bin/bzcat
+/bin/bzip2
+/bin/cat
+/bin/chacl
+/bin/chgrp
+/bin/chmod
+/bin/chown
+/bin/chroot
+/bin/cp
+/bin/cut
+/bin/dash
+/bin/date
+/bin/dd
+/bin/df
+/bin/dir
+/bin/dirname
+/bin/dmesg
+/bin/dnsdomainname
+/bin/du
+/bin/echo
+/bin/egrep
+/bin/env
+/bin/expr
+/bin/false
+/bin/fgrep
+/bin/findmnt
+/bin/getfacl
+/bin/getfattr
+/bin/getsubids
+/bin/grep
+/bin/groups
+/bin/gsed
+/bin/gunzip
+/bin/gzip
+/bin/head
+/bin/hostname
+/bin/ifconfig
+/bin/ip
+/bin/keyctl
+/bin/kill
+/bin/kmod
+/bin/ln
+/bin/login
+/bin/ls
+/bin/lsblk
+/bin/lsmod
+/bin/mkdir
+/bin/mkfifo
+/bin/mknod
+/bin/mktemp
+/bin/modinfo
+/bin/more
+/bin/mount
+/bin/mountpoint
+/bin/mv
+/bin/nano
+/bin/netstat
+/bin/ps
+/bin/pwd
+/bin/rbash
+/bin/readlink
+/bin/rm
+/bin/rmdir
+/bin/rnano
+/bin/route
+/bin/run-parts
+/bin/sed
+/bin/seq
+/bin/setfacl
+/bin/setfattr
+/bin/sh
+/bin/sleep
+/bin/sort
+/bin/stty
+/bin/su
+/bin/sync
+/bin/tail
+/bin/tar
+/bin/tempfile
+/bin/touch
+/bin/tr
+/bin/true
+/bin/tty
+/bin/umount
+/bin/uname
+/bin/vdir
+/bin/wc
+/bin/wdctl
+/bin/yes
+/bin/zcat
+/usr/bin
+/usr/bin/2to3
+/usr/bin/2to3-3.8
+/usr/bin/[
+/usr/bin/arch
+/usr/bin/argon2
+/usr/bin/aulast
+/usr/bin/aulastlog
+/usr/bin/ausyscall
+/usr/bin/auvirt
+/usr/bin/awk
+/usr/bin/b2sum
+/usr/bin/base32
+/usr/bin/base64
+/usr/bin/basename
+/usr/bin/basenc
+/usr/bin/bashbug
+/usr/bin/brotli
+/usr/bin/bsdcat
+/usr/bin/bsdcpio
+/usr/bin/bsdtar
+/usr/bin/busctl
+/usr/bin/bzcmp
+/usr/bin/bzdiff
+/usr/bin/bzegrep
+/usr/bin/bzfgrep
+/usr/bin/bzgrep
+/usr/bin/bzip2recover
+/usr/bin/bzless
+/usr/bin/bzmore
+/usr/bin/c_rehash
+/usr/bin/cal
+/usr/bin/captest
+/usr/bin/captoinfo
+/usr/bin/cbfstool
+/usr/bin/cbmem
+/usr/bin/cgpt
+/usr/bin/chage
+/usr/bin/chardetect
+/usr/bin/chattr
+/usr/bin/chcon
+/usr/bin/chfn
+/usr/bin/chmem
+/usr/bin/choom
+/usr/bin/chromeos-pgmem
+/usr/bin/chromeos-tpm-recovery
+/usr/bin/chronyc
+/usr/bin/chroot
+/usr/bin/chrt
+/usr/bin/chsh
+/usr/bin/cis_scanner
+/usr/bin/cksum
+/usr/bin/clear
+/usr/bin/cloud-id
+/usr/bin/cloud-init
+/usr/bin/cloud-init-per
+/usr/bin/cmp
+/usr/bin/col
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+/usr/bin/containerd-stress
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+/usr/bin/dbus-test-tool
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+/usr/bin/dbus-uuidgen
+/usr/bin/dev_debug_vboot
+/usr/bin/diff
+/usr/bin/diff-highlight
+/usr/bin/diff3
+/usr/bin/dir
+/usr/bin/dircolors
+/usr/bin/dirname
+/usr/bin/docker
+/usr/bin/docker-containerd
+/usr/bin/docker-containerd-shim
+/usr/bin/docker-credential-gcr
+/usr/bin/docker-init
+/usr/bin/docker-proxy
+/usr/bin/docker-runc
+/usr/bin/dockerd
+/usr/bin/du
+/usr/bin/dumpRSAPublicKey
+/usr/bin/dump_fmap
+/usr/bin/dump_kernel_config
+/usr/bin/dumpsexp
+/usr/bin/easy_install
+/usr/bin/eject
+/usr/bin/elogtool
+/usr/bin/enable_dev_usb_boot
+/usr/bin/env
+/usr/bin/event_rpcgen.py
+/usr/bin/ex
+/usr/bin/expand
+/usr/bin/expiry
+/usr/bin/expr
+/usr/bin/factor
+/usr/bin/faillog
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+/usr/bin/filan
+/usr/bin/file
+/usr/bin/filecap
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+/usr/bin/find
+/usr/bin/flock
+/usr/bin/fluent-bit
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+/usr/bin/ftdi_eeprom
+/usr/bin/fusermount
+/usr/bin/futility
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+/usr/bin/gbb_utility
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+/usr/bin/gdbm_load
+/usr/bin/gdbmtool
+/usr/bin/gdbus
+/usr/bin/getopt
+/usr/bin/gfind
+/usr/bin/gio
+/usr/bin/gio-querymodules
+/usr/bin/git
+/usr/bin/git-cvsserver
+/usr/bin/git-receive-pack
+/usr/bin/git-shell
+/usr/bin/git-upload-archive
+/usr/bin/git-upload-pack
+/usr/bin/glib-compile-resources
+/usr/bin/glib-compile-schemas
+/usr/bin/glib-gettextize
+/usr/bin/gobject-query
+/usr/bin/google_authorized_keys
+/usr/bin/google_authorized_keys_sk
+/usr/bin/google_guest_agent
+/usr/bin/google_metadata_script_runner
+/usr/bin/google_osconfig_agent
+/usr/bin/google_oslogin_nss_cache
+/usr/bin/gpasswd
+/usr/bin/gpg-error
+/usr/bin/gsettings
+/usr/bin/gss-client
+/usr/bin/gtester
+/usr/bin/gxargs
+/usr/bin/gzexe
+/usr/bin/head
+/usr/bin/hexdump
+/usr/bin/hmac256
+/usr/bin/hostid
+/usr/bin/hostnamectl
+/usr/bin/id
+/usr/bin/idle
+/usr/bin/import-tars
+/usr/bin/infocmp
+/usr/bin/infotocap
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+/usr/bin/inteltool
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+/usr/bin/pidof
+/usr/bin/pigz
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+/usr/bin/pkill
+/usr/bin/pmap
+/usr/bin/portablectl
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+/usr/bin/printf
+/usr/bin/prlimit
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+/usr/bin/protoc-gen-go
+/usr/bin/protoc-gen-go-grpc
+/usr/bin/pscap
+/usr/bin/ptx
+/usr/bin/pv
+/usr/bin/pwdx
+/usr/bin/pwqcheck
+/usr/bin/pwqfilter
+/usr/bin/pwqgen
+/usr/bin/pydoc
+/usr/bin/pydoc3.8
+/usr/bin/pyjwt
+/usr/bin/pyserial-miniterm
+/usr/bin/pyserial-ports
+/usr/bin/python
+/usr/bin/python-exec2c
+/usr/bin/python3
+/usr/bin/python3.8
+/usr/bin/pyvenv
+/usr/bin/readlink
+/usr/bin/realpath
+/usr/bin/rename
+/usr/bin/renice
+/usr/bin/reset
+/usr/bin/resolvectl
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+/usr/bin/rootdev
+/usr/bin/rsync
+/usr/bin/rsync-ssl
+/usr/bin/runc
+/usr/bin/runcon
+/usr/bin/rview
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+/usr/bin/scriptreplay
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+/usr/bin/seq
+/usr/bin/setsid
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+/usr/bin/sexp-conv
+/usr/bin/sftp
+/usr/bin/sg
+/usr/bin/sha1sum
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+/usr/bin/wc
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+/usr/bin/x86_64-cros-linux-gnu-gio-querymodules
+/usr/bin/xargs
+/usr/bin/xmlcatalog
+/usr/bin/xmllint
+/usr/bin/xmlwf
+/usr/bin/xxd
+/usr/bin/xz
+/usr/bin/xzcat
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+/usr/bin/zgrep
+/usr/bin/zless
+/usr/bin/zmore
+/usr/bin/znew
+

default

default

default

default

default


₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder2/file05.md b/identition/folder2/file05.md new file mode 100644 index 00000000..34a470b6 --- /dev/null +++ b/identition/folder2/file05.md @@ -0,0 +1,612 @@ +## Container-Optimized + +``` +$ cat /etc/os-release + +NAME="Container-Optimized OS" +ID=cos +PRETTY_NAME="Container-Optimized OS from Google" +HOME_URL="https://cloud.google.com/container-optimized-os/docs" +BUG_REPORT_URL="https://cloud.google.com/container-optimized-os/docs/resources/support-policy#contact_us" +GOOGLE_METRICS_PRODUCT_ID=26 +GOOGLE_CRASH_ID=Lakitu +KERNEL_COMMIT_ID=4c0ef99fbc74bd4a4dce8851652be68038bec83e +VERSION=105 +VERSION_ID=105 +BUILD_ID=17412.101.4 +``` + +Pipe to sort -V for sorted output. Ex: to see all executables in your PATH on your system, and all aliases, all sorted, run: compgen -c | sortsee all executables in your PATH + +``` +$ find ${PATH//:/ } -maxdepth 1 -executable | sort + +find: ‘/usr/local/bin’: No such file or directory +find: ‘/opt/bin’: No such file or directory +/bin +/bin/attr +/bin/basename +/bin/bash +/bin/bunzip2 +/bin/bzcat +/bin/bzip2 +/bin/cat +/bin/chacl +/bin/chgrp +/bin/chmod +/bin/chown +/bin/chroot +/bin/cp +/bin/cut +/bin/dash +/bin/date +/bin/dd +/bin/df +/bin/dir +/bin/dirname +/bin/dmesg +/bin/dnsdomainname +/bin/du +/bin/echo +/bin/egrep +/bin/env +/bin/expr +/bin/false +/bin/fgrep +/bin/findmnt +/bin/getfacl +/bin/getfattr +/bin/getsubids +/bin/grep +/bin/groups +/bin/gsed +/bin/gunzip +/bin/gzip +/bin/head +/bin/hostname +/bin/ifconfig +/bin/ip +/bin/keyctl +/bin/kill +/bin/kmod +/bin/ln +/bin/login +/bin/ls +/bin/lsblk +/bin/lsmod +/bin/mkdir +/bin/mkfifo +/bin/mknod +/bin/mktemp +/bin/modinfo +/bin/more +/bin/mount +/bin/mountpoint +/bin/mv +/bin/nano +/bin/netstat +/bin/ps +/bin/pwd +/bin/rbash +/bin/readlink +/bin/rm +/bin/rmdir +/bin/rnano +/bin/route +/bin/run-parts +/bin/sed +/bin/seq +/bin/setfacl +/bin/setfattr +/bin/sh +/bin/sleep +/bin/sort +/bin/stty +/bin/su +/bin/sync +/bin/tail +/bin/tar +/bin/tempfile +/bin/touch +/bin/tr +/bin/true +/bin/tty +/bin/umount +/bin/uname +/bin/vdir +/bin/wc +/bin/wdctl +/bin/yes +/bin/zcat +/usr/bin +/usr/bin/2to3 +/usr/bin/2to3-3.8 +/usr/bin/[ +/usr/bin/arch +/usr/bin/argon2 +/usr/bin/aulast +/usr/bin/aulastlog +/usr/bin/ausyscall +/usr/bin/auvirt +/usr/bin/awk +/usr/bin/b2sum +/usr/bin/base32 +/usr/bin/base64 +/usr/bin/basename +/usr/bin/basenc +/usr/bin/bashbug +/usr/bin/brotli +/usr/bin/bsdcat +/usr/bin/bsdcpio +/usr/bin/bsdtar +/usr/bin/busctl +/usr/bin/bzcmp +/usr/bin/bzdiff +/usr/bin/bzegrep +/usr/bin/bzfgrep +/usr/bin/bzgrep +/usr/bin/bzip2recover +/usr/bin/bzless +/usr/bin/bzmore +/usr/bin/c_rehash +/usr/bin/cal +/usr/bin/captest +/usr/bin/captoinfo +/usr/bin/cbfstool +/usr/bin/cbmem +/usr/bin/cgpt +/usr/bin/chage +/usr/bin/chardetect +/usr/bin/chattr +/usr/bin/chcon +/usr/bin/chfn +/usr/bin/chmem +/usr/bin/choom +/usr/bin/chromeos-pgmem +/usr/bin/chromeos-tpm-recovery +/usr/bin/chronyc +/usr/bin/chroot +/usr/bin/chrt +/usr/bin/chsh +/usr/bin/cis_scanner +/usr/bin/cksum +/usr/bin/clear +/usr/bin/cloud-id +/usr/bin/cloud-init +/usr/bin/cloud-init-per +/usr/bin/cmp +/usr/bin/col +/usr/bin/colcrt +/usr/bin/colrm +/usr/bin/column +/usr/bin/comm +/usr/bin/compile_et +/usr/bin/containerd +/usr/bin/containerd-shim +/usr/bin/containerd-shim-runc-v1 +/usr/bin/containerd-shim-runc-v2 +/usr/bin/containerd-stress +/usr/bin/core2md +/usr/bin/coredumpctl +/usr/bin/coreutils +/usr/bin/cos-extensions +/usr/bin/crictl +/usr/bin/cros_installer +/usr/bin/crosid +/usr/bin/crossystem +/usr/bin/csplit +/usr/bin/ctr +/usr/bin/curl +/usr/bin/cut +/usr/bin/cvtsudoers +/usr/bin/dbus-cleanup-sockets +/usr/bin/dbus-daemon +/usr/bin/dbus-launch +/usr/bin/dbus-monitor +/usr/bin/dbus-run-session +/usr/bin/dbus-send +/usr/bin/dbus-test-tool +/usr/bin/dbus-update-activation-environment +/usr/bin/dbus-uuidgen +/usr/bin/dev_debug_vboot +/usr/bin/diff +/usr/bin/diff-highlight +/usr/bin/diff3 +/usr/bin/dir +/usr/bin/dircolors +/usr/bin/dirname +/usr/bin/docker +/usr/bin/docker-containerd +/usr/bin/docker-containerd-shim +/usr/bin/docker-credential-gcr +/usr/bin/docker-init +/usr/bin/docker-proxy +/usr/bin/docker-runc +/usr/bin/dockerd +/usr/bin/du +/usr/bin/dumpRSAPublicKey +/usr/bin/dump_fmap +/usr/bin/dump_kernel_config +/usr/bin/dumpsexp +/usr/bin/easy_install +/usr/bin/eject +/usr/bin/elogtool +/usr/bin/enable_dev_usb_boot +/usr/bin/env +/usr/bin/event_rpcgen.py +/usr/bin/ex +/usr/bin/expand +/usr/bin/expiry +/usr/bin/expr +/usr/bin/factor +/usr/bin/faillog +/usr/bin/fallocate +/usr/bin/filan +/usr/bin/file +/usr/bin/filecap +/usr/bin/fincore +/usr/bin/find +/usr/bin/flock +/usr/bin/fluent-bit +/usr/bin/fmt +/usr/bin/fold +/usr/bin/free +/usr/bin/ftdi_eeprom +/usr/bin/fusermount +/usr/bin/futility +/usr/bin/gapplication +/usr/bin/gbb_utility +/usr/bin/gdbm_dump +/usr/bin/gdbm_load +/usr/bin/gdbmtool +/usr/bin/gdbus +/usr/bin/getopt +/usr/bin/gfind +/usr/bin/gio +/usr/bin/gio-querymodules +/usr/bin/git +/usr/bin/git-cvsserver +/usr/bin/git-receive-pack +/usr/bin/git-shell +/usr/bin/git-upload-archive +/usr/bin/git-upload-pack +/usr/bin/glib-compile-resources +/usr/bin/glib-compile-schemas +/usr/bin/glib-gettextize +/usr/bin/gobject-query +/usr/bin/google_authorized_keys +/usr/bin/google_authorized_keys_sk +/usr/bin/google_guest_agent +/usr/bin/google_metadata_script_runner +/usr/bin/google_osconfig_agent +/usr/bin/google_oslogin_nss_cache +/usr/bin/gpasswd +/usr/bin/gpg-error +/usr/bin/gsettings +/usr/bin/gss-client +/usr/bin/gtester +/usr/bin/gxargs +/usr/bin/gzexe +/usr/bin/head +/usr/bin/hexdump +/usr/bin/hmac256 +/usr/bin/hostid +/usr/bin/hostnamectl +/usr/bin/id +/usr/bin/idle +/usr/bin/import-tars +/usr/bin/infocmp +/usr/bin/infotocap +/usr/bin/install +/usr/bin/inteltool +/usr/bin/ionice +/usr/bin/ipcmk +/usr/bin/ipcrm +/usr/bin/ipcs +/usr/bin/iptables-xml +/usr/bin/irqtop +/usr/bin/join +/usr/bin/journalctl +/usr/bin/jq +/usr/bin/jsondiff +/usr/bin/jsonpatch +/usr/bin/jsonpointer +/usr/bin/jsonschema +/usr/bin/kdestroy +/usr/bin/kernel-install +/usr/bin/kinit +/usr/bin/klist +/usr/bin/kpasswd +/usr/bin/kubectl +/usr/bin/kubelet +/usr/bin/last +/usr/bin/lastb +/usr/bin/lastlog +/usr/bin/less +/usr/bin/lessecho +/usr/bin/lesskey +/usr/bin/lesspipe +/usr/bin/line +/usr/bin/link +/usr/bin/logger +/usr/bin/loginctl +/usr/bin/logname +/usr/bin/look +/usr/bin/lsattr +/usr/bin/lscpu +/usr/bin/lsipc +/usr/bin/lsirq +/usr/bin/lslocks +/usr/bin/lslogins +/usr/bin/lsmem +/usr/bin/lsns +/usr/bin/lsof +/usr/bin/lz4 +/usr/bin/lz4c +/usr/bin/lz4cat +/usr/bin/lzcat +/usr/bin/lzcmp +/usr/bin/lzdiff +/usr/bin/lzegrep +/usr/bin/lzfgrep +/usr/bin/lzgrep +/usr/bin/lzless +/usr/bin/lzma +/usr/bin/lzmadec +/usr/bin/lzmainfo +/usr/bin/lzmore +/usr/bin/mawk +/usr/bin/mcookie +/usr/bin/md5sum +/usr/bin/metrics_client +/usr/bin/mk_cmds +/usr/bin/mkfifo +/usr/bin/mktemp +/usr/bin/mpicalc +/usr/bin/namei +/usr/bin/nc +/usr/bin/netcap +/usr/bin/nettle-hash +/usr/bin/nettle-lfib-stream +/usr/bin/nettle-pbkdf2 +/usr/bin/networkctl +/usr/bin/newgidmap +/usr/bin/newgrp +/usr/bin/newuidmap +/usr/bin/nice +/usr/bin/nl +/usr/bin/nohup +/usr/bin/nproc +/usr/bin/nsenter +/usr/bin/numfmt +/usr/bin/nvramtool +/usr/bin/od +/usr/bin/oomctl +/usr/bin/openssl +/usr/bin/passwd +/usr/bin/paste +/usr/bin/pathchk +/usr/bin/pcre2grep +/usr/bin/pcre2test +/usr/bin/pcregrep +/usr/bin/pcretest +/usr/bin/perf +/usr/bin/perfetto +/usr/bin/pg +/usr/bin/pgrep +/usr/bin/pidof +/usr/bin/pigz +/usr/bin/pinky +/usr/bin/pkcs1-conv +/usr/bin/pkill +/usr/bin/pmap +/usr/bin/portablectl +/usr/bin/pr +/usr/bin/printenv +/usr/bin/printf +/usr/bin/prlimit +/usr/bin/procan +/usr/bin/protoc-gen-go +/usr/bin/protoc-gen-go-grpc +/usr/bin/pscap +/usr/bin/ptx +/usr/bin/pv +/usr/bin/pwdx +/usr/bin/pwqcheck +/usr/bin/pwqfilter +/usr/bin/pwqgen +/usr/bin/pydoc +/usr/bin/pydoc3.8 +/usr/bin/pyjwt +/usr/bin/pyserial-miniterm +/usr/bin/pyserial-ports +/usr/bin/python +/usr/bin/python-exec2c +/usr/bin/python3 +/usr/bin/python3.8 +/usr/bin/pyvenv +/usr/bin/readlink +/usr/bin/realpath +/usr/bin/rename +/usr/bin/renice +/usr/bin/reset +/usr/bin/resolvectl +/usr/bin/rev +/usr/bin/rootdev +/usr/bin/rsync +/usr/bin/rsync-ssl +/usr/bin/runc +/usr/bin/runcon +/usr/bin/rview +/usr/bin/rvim +/usr/bin/scmp_sys_resolver +/usr/bin/scp +/usr/bin/script +/usr/bin/scriptlive +/usr/bin/scriptreplay +/usr/bin/sdiff +/usr/bin/seq +/usr/bin/setsid +/usr/bin/setterm +/usr/bin/sexp-conv +/usr/bin/sftp +/usr/bin/sg +/usr/bin/sha1sum +/usr/bin/sha224sum +/usr/bin/sha256sum +/usr/bin/sha384sum +/usr/bin/sha512sum +/usr/bin/shlibsign +/usr/bin/shred +/usr/bin/shuf +/usr/bin/slabtop +/usr/bin/sleep +/usr/bin/smbinfo +/usr/bin/socat +/usr/bin/sort +/usr/bin/sos +/usr/bin/sos-collector +/usr/bin/sosreport +/usr/bin/split +/usr/bin/ssh +/usr/bin/ssh-add +/usr/bin/ssh-agent +/usr/bin/ssh-copy-id +/usr/bin/ssh-keygen +/usr/bin/ssh-keyscan +/usr/bin/stat +/usr/bin/stdbuf +/usr/bin/sudo +/usr/bin/sudoedit +/usr/bin/sudoreplay +/usr/bin/sum +/usr/bin/superiotool +/usr/bin/systemctl +/usr/bin/systemd-analyze +/usr/bin/systemd-ask-password +/usr/bin/systemd-cat +/usr/bin/systemd-cgls +/usr/bin/systemd-cgtop +/usr/bin/systemd-creds +/usr/bin/systemd-delta +/usr/bin/systemd-detect-virt +/usr/bin/systemd-dissect +/usr/bin/systemd-escape +/usr/bin/systemd-id128 +/usr/bin/systemd-inhibit +/usr/bin/systemd-machine-id-setup +/usr/bin/systemd-mount +/usr/bin/systemd-notify +/usr/bin/systemd-nspawn +/usr/bin/systemd-path +/usr/bin/systemd-repart +/usr/bin/systemd-resolve +/usr/bin/systemd-run +/usr/bin/systemd-socket-activate +/usr/bin/systemd-stdio-bridge +/usr/bin/systemd-sysext +/usr/bin/systemd-tmpfiles +/usr/bin/systemd-tty-ask-password-agent +/usr/bin/systemd-umount +/usr/bin/tabs +/usr/bin/tac +/usr/bin/tail +/usr/bin/taskset +/usr/bin/tee +/usr/bin/test +/usr/bin/tic +/usr/bin/timedatectl +/usr/bin/timeout +/usr/bin/tini +/usr/bin/tload +/usr/bin/toe +/usr/bin/toolbox +/usr/bin/top +/usr/bin/touch +/usr/bin/tpm-nvsize +/usr/bin/tpmc +/usr/bin/tput +/usr/bin/tr +/usr/bin/trace +/usr/bin/traced +/usr/bin/traced_probes +/usr/bin/truncate +/usr/bin/tset +/usr/bin/tsort +/usr/bin/tty +/usr/bin/udevadm +/usr/bin/ul +/usr/bin/ulockmgr_server +/usr/bin/uname +/usr/bin/unexpand +/usr/bin/uniq +/usr/bin/unlink +/usr/bin/unlz4 +/usr/bin/unlzma +/usr/bin/unpigz +/usr/bin/unshare +/usr/bin/unxz +/usr/bin/update_engine_client +/usr/bin/uptime +/usr/bin/userdbctl +/usr/bin/users +/usr/bin/utmpdump +/usr/bin/uuidgen +/usr/bin/uuidparse +/usr/bin/vbutil_firmware +/usr/bin/vbutil_kernel +/usr/bin/vbutil_key +/usr/bin/vbutil_keyblock +/usr/bin/vdir +/usr/bin/verity +/usr/bin/vi +/usr/bin/view +/usr/bin/vim +/usr/bin/vimdiff +/usr/bin/vmstat +/usr/bin/w +/usr/bin/watch +/usr/bin/wc +/usr/bin/wget +/usr/bin/whereis +/usr/bin/which +/usr/bin/who +/usr/bin/whoami +/usr/bin/x86_64-cros-linux-gnu-gio-querymodules +/usr/bin/xargs +/usr/bin/xmlcatalog +/usr/bin/xmllint +/usr/bin/xmlwf +/usr/bin/xxd +/usr/bin/xz +/usr/bin/xzcat +/usr/bin/xzcmp +/usr/bin/xzdec +/usr/bin/xzdiff +/usr/bin/xzegrep +/usr/bin/xzfgrep +/usr/bin/xzgrep +/usr/bin/xzless +/usr/bin/xzmore +/usr/bin/yat2m +/usr/bin/yes +/usr/bin/zcmp +/usr/bin/zdiff +/usr/bin/zegrep +/usr/bin/zfgrep +/usr/bin/zforce +/usr/bin/zgrep +/usr/bin/zless +/usr/bin/zmore +/usr/bin/znew +``` + +![default](https://user-images.githubusercontent.com/8466209/238171017-8d377ade-1fe0-4ef8-8594-76ca65023ca8.png) + +![default](https://user-images.githubusercontent.com/8466209/198938102-de43af86-2e1a-445c-80d7-d1f4cbbbb9a7.png) + +![default](https://user-images.githubusercontent.com/8466209/198938226-aa4679bc-2912-409d-9a09-642bdebfcc65.png) + +![default](https://user-images.githubusercontent.com/8466209/198938652-5a366a20-08c6-4b7c-b48f-a551575dec7f.png) + +![default](https://user-images.githubusercontent.com/8466209/198939140-2d553b06-c3d8-47f6-80f8-acb42e29d54d.png) diff --git a/identition/folder2/file06.html b/identition/folder2/file06.html new file mode 100644 index 00000000..20d93013 --- /dev/null +++ b/identition/folder2/file06.html @@ -0,0 +1,180 @@ + System Storage · ₠Quantum

System Storage

GitHub allows developers to run GitHub Actions workflows on your own runners. This Docker image allows you to create your own runners on Docker, you can enable Docker siblings by binding the host Docker daemon socket.

$ cat /etc/os-release
+
+PRETTY_NAME="Debian GNU/Linux 10 (buster)"
+NAME="Debian GNU/Linux"
+VERSION_ID="10"
+VERSION="10 (buster)"
+VERSION_CODENAME=buster
+ID=debian
+HOME_URL="https://www.debian.org/"
+SUPPORT_URL="https://www.debian.org/support"
+BUG_REPORT_URL="https://bugs.debian.org/"
+

By default, the df command shows the disk space used and available disk space in kilobytes. To display information about disk drives in human-readable format (kilobytes, megabytes, gigabytes and so on), invoke the df command with the -h option

$ df -h
+Filesystem      Size  Used Avail Use% Mounted on
+/dev/root       2.0G  1.1G  902M  54% /
+devtmpfs        484M     0  484M   0% /dev
+tmpfs           487M     0  487M   0% /dev/shm
+tmpfs           195M  512K  195M   1% /run
+tmpfs           487M  112K  487M   1% /etc/machine-id
+tmpfs           256K     0  256K   0% /mnt/disks
+tmpfs           487M     0  487M   0% /tmp
+overlayfs       487M  112K  487M   1% /etc
+/dev/sda8        11M   24K   11M   1% /usr/share/oem
+/dev/sda1       5.7G  3.5G  2.2G  62% /mnt/stateful_partition
+tmpfs           2.0M  128K  1.9M   7% /var/lib/cloud
+/dev/sdb1        49G  9.9G   38G  22% /mnt/disks/Linux              ◄- DEEP LEARNING
+

On Unix-like operating systems, the set command is a built-in function of the Bourne shell ( sh ), C shell ( csh ), and Korn shell ( ksh ), which is used to define and determine the values of the system environment.

$ set
+
+ACTIONS_ID_TOKEN_REQUEST_TOKEN=***
+ACTIONS_ID_TOKEN_REQUEST_URL='https://pipelines.actions.githubusercontent.com/a18hGIuIy4qbY5KTUvkKiuBNsSHDVCEtnJ8x8NEYFPEBFH2tOZ/00000000-0000-0000-0000-000000000000/_apis/distributedtask/hubs/Actions/plans/7534b9e1-5505-4cff-9f7a-440ad58fadf5/jobs/55c239b7-523f-5586-aeb6-60a00c959946/idtoken?api-version=2.0'
+AGENT_TOOLSDIRECTORY=/opt/hostedtoolcache
+BASH=/bin/bash
+BASHOPTS=checkwinsize:cmdhist:complete_fullquote:extquote:force_fignore:globasciiranges:hostcomplete:interactive_comments:progcomp:promptvars:sourcepath
+BASH_ALIASES=()
+BASH_ARGC=()
+BASH_ARGV=()
+BASH_CMDS=()
+BASH_LINENO=([0]="0")
+BASH_SOURCE=([0]="/home/runner/_work/_temp/b00557e9-dc1d-40fb-a211-db6869b65693.sh")
+BASH_VERSINFO=([0]="5" [1]="0" [2]="3" [3]="1" [4]="release" [5]="x86_64-pc-linux-gnu")
+BASH_VERSION='5.0.3(1)-release'
+CI=true
+DIRSTACK=()
+EUID=0
+GITHUB_ACCESS_TOKEN=***
+GITHUB_ACTION=__run
+GITHUB_ACTIONS=true
+GITHUB_ACTION_REF=
+GITHUB_ACTION_REPOSITORY=
+GITHUB_ACTOR=eq19
+GITHUB_ACTOR_ID=8466209
+GITHUB_API_URL=https://api.github.com
+GITHUB_BASE_REF=
+GITHUB_ENV=/home/runner/_work/_temp/_runner_file_commands/set_env_acae127c-173c-43fd-abea-f6d3fe882641
+GITHUB_EVENT_NAME=push
+GITHUB_EVENT_PATH=/home/runner/_work/_temp/_github_workflow/event.json
+GITHUB_GRAPHQL_URL=https://api.github.com/graphql
+GITHUB_HEAD_REF=
+GITHUB_JOB=github-pages
+GITHUB_OUTPUT=/home/runner/_work/_temp/_runner_file_commands/set_output_acae127c-173c-43fd-abea-f6d3fe882641
+GITHUB_PATH=/home/runner/_work/_temp/_runner_file_commands/add_path_acae127c-173c-43fd-abea-f6d3fe882641
+GITHUB_REF=refs/heads/eQ19
+GITHUB_REF_NAME=eQ19
+GITHUB_REF_PROTECTED=false
+GITHUB_REF_TYPE=branch
+GITHUB_REPOSITORY=FeedMapping/Partition
+GITHUB_REPOSITORY_ID=550855238
+GITHUB_REPOSITORY_OWNER=FeedMapping
+GITHUB_REPOSITORY_OWNER_ID=11927583
+GITHUB_RETENTION_DAYS=90
+GITHUB_RUN_ATTEMPT=1
+GITHUB_RUN_ID=4975344786
+GITHUB_RUN_NUMBER=88
+GITHUB_SERVER_URL=https://github.com
+GITHUB_SHA=a5ee1d5f656adf586a43252afce0a4ddc838ade4
+GITHUB_STATE=/home/runner/_work/_temp/_runner_file_commands/save_state_acae127c-173c-43fd-abea-f6d3fe882641
+GITHUB_STEP_SUMMARY=/home/runner/_work/_temp/_runner_file_commands/step_summary_acae127c-173c-43fd-abea-f6d3fe882641
+GITHUB_TRIGGERING_ACTOR=eq19
+GITHUB_WORKFLOW='Build and deploy Jekyll site'
+GITHUB_WORKFLOW_REF=FeedMapping/Partition/.github/workflows/github-pages.yml@refs/heads/eQ19
+GITHUB_WORKFLOW_SHA=a5ee1d5f656adf586a43252afce0a4ddc838ade4
+GITHUB_WORKSPACE=/home/runner/_work/Partition/Partition
+GROUPS=()
+HOME=/root
+HOSTNAME=ef75abdc2b19
+HOSTTYPE=x86_64
+IFS=$' \t\n'
+MACHTYPE=x86_64-pc-linux-gnu
+OPTERR=1
+OPTIND=1
+OSTYPE=linux-gnu
+PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin
+PIPESTATUS=([0]="0")
+PPID=17188
+PS4='+ '
+***
+RUNNER_ALLOW_RUNASROOT=true
+RUNNER_ARCH=X64
+RUNNER_LABELS=
+RUNNER_NAME=Google-optimized-instance
+RUNNER_ORGANIZATION_URL=https://github.com/FeedMapping
+RUNNER_OS=Linux
+RUNNER_REPLACE_EXISTING=true
+RUNNER_REPOSITORY_URL=
+RUNNER_TEMP=/home/runner/_work/_temp
+RUNNER_TOKEN=ACAS6IJKEQK3RSYCNEQ3Z53EL2JM6
+RUNNER_TOOL_CACHE=/opt/hostedtoolcache
+RUNNER_TRACKING_ID=github_b2590dca-5a63-4f9a-a8e2-68924e311fdc
+RUNNER_WORKSPACE=/home/runner/_work/Partition
+RUNNER_WORK_DIRECTORY=_work
+SHELL=/bin/bash
+SHELLOPTS=braceexpand:errexit:hashall:interactive-comments
+SHLVL=1
+SUPERVISOR_ENABLED=1
+SUPERVISOR_GROUP_NAME=runner
+SUPERVISOR_PROCESS_NAME=runner
+TERM=dumb
+UID=0
+_=-V
+

docker-github-runner

docker info
+docker --version
+
+docker logout
+docker login
+
+git clone https://github.com/eq19/setup
+cd setup/docker
+docker build -t setup .
+
+docker images
+docker tag setup:latest eq19/setup:latest
+
+docker push eq19/setup:latest
+

For now, there are only Debian Buster (tagged with latest and vX.Y.Z) and Ubuntu Focal (tagged with ubuntu-20.04 and vX.Y.Z-ubuntu-20.04) images, but I may add more variants in the future. Feel free to create an issue if you want another base image.

default

When comparing Chromium OS vs Debian GNU/Linux, the Slant community recommends Debian GNU/Linux for most people. In the question"What are the best Linux distributions for desktops?" Debian GNU/Linux is ranked 3rd while Chromium OS is ranked 88th. The most important reason people chose Debian GNU/Linux is:

Debian offers stable and testing CD images specifically built for GNOME (the default), KDE Plasma Workspaces, Xfce and LXDE. Less common window managers such as Enlightenment, Openbox, Fluxbox, GNUstep, IceWM, Window Maker and others can also be installed (Slant).

chromium-os_vs_debian-gnu-linux

For most frameworks, Debian 10 is the default OS. Ubuntu 20.04 images are available for some frameworks. They are denoted by the -ubuntu-2004 suffixes in the image family name (see Listing all available versions). Debian 9 images have been deprecated.

Deep Learning VM Images

You can pull a container image and show the "history" for the container. This shows you how it is built and what the original starting image. This does not mean that you access the original image. You can add to and remove parts of the image. You can also export an image to a tar archive file, modify and then reimport


+$ docker history  gcr.io/deeplearning-platform-release/tf-cpu:m96 --format  " {{.CreatedBy}}" --no-trunc
+
+RUN |2 VERSION=1-15 CONTAINER_NAME=tf-cpu/1-15 /bin/sh -c cd /opt/google/licenses &&     chmod +x query_licenses.sh &&     ./query_licenses.sh # buildkit
+RUN |2 VERSION=1-15 CONTAINER_NAME=tf-cpu/1-15 /bin/sh -c BAZEL_INSTALLER_URL="https://github.com/bazelbuild/bazel/releases/download/0.19.0/bazel-0.19.0-installer-linux-x86_64.sh" &&     BAZEL_INSTALLER_FILE="bazel_installer.sh" &&     wget -q "${BAZEL_INSTALLER_URL}" -O "${BAZEL_INSTALLER_FILE}" &&     chmod +x "${BAZEL_INSTALLER_FILE}" &&     "./${BAZEL_INSTALLER_FILE}" &&     rm -rf "./${BAZEL_INSTALLER_FILE}" # buildkit
+RUN |2 VERSION=1-15 CONTAINER_NAME=tf-cpu/1-15 /bin/sh -c export CONDA_REPOSITORY="/tmp/conda" &&     chmod +x /opt/google/conda/install_to_env.sh &&     ENV_DOCKER=1 /opt/google/conda/install_to_env.sh base dlenv-tf-${VERSION}-cpu-meta # buildkit
+ENV KMP_SETTINGS=1
+ENV KMP_AFFINITY=granularity=fine,verbose,compact,1,0
+ENV KMP_BLOCKTIME=0
+ENV CONTAINER_NAME=tf-cpu/1-15
+ARG CONTAINER_NAME
+LABEL com.google.environment=Container: TensorFlow 1-15
+ARG VERSION
+CMD ["/run_jupyter.sh"]
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chmod +x run_jupyter.sh # buildkit
+COPY build/container/run_jupyter.sh /run_jupyter.sh # buildkit
+ENTRYPOINT ["/entrypoint.sh"]
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chmod +x entrypoint.sh # buildkit
+COPY build/container/entrypoint.sh /entrypoint.sh # buildkit
+COPY build/package/conda/channels.json /opt/google/conda/channels.json # buildkit
+COPY build/package/packages/jupyter/jupyter_notebook_config.py /opt/jupyter/.jupyter/jupyter_notebook_config.py # buildkit
+COPY build/package/packages/jupyter/ipython_kernel_config.py /etc/ipython/ipython_kernel_config.py # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chown -R "jupyter:jupyter" "/home/jupyter/." # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c adduser --uid 1000 --gid 1001 jupyter # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c addgroup --gid 1001 jupyter # buildkit
+ENV LD_LIBRARY_PATH=/usr/local/cuda/lib64:/usr/local/cuda/lib:/usr/local/lib/x86_64-linux-gnu:/usr/local/nvidia/lib:/usr/local/nvidia/lib64:
+VOLUME [/home/jupyter]
+EXPOSE map[8080/tcp:{}]
+ENV SHELL=/bin/bash
+ENV PATH=/opt/conda/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chmod +x /opt/google/conda/provision_conda.sh && /opt/google/conda/provision_conda.sh # buildkit
+ENV DL_ANACONDA_HOME=/opt/conda
+ENV ANACONDA_PYTHON_VERSION=3.7
+COPY build/vm/packer/generic/packages /opt/google # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c cd / &&     gsutil cp -r gs://dl-platform-binaries-builds/openmpi-4.0.2/v20191105/openmpi.tar.gz  . &&     tar xf openmpi.tar.gz &&     rm -f openmpi.tar.gz # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt update -y &&     apt install -y libnuma-dev # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c if dpkg -s libnccl2; then         echo "deb https://packages.cloud.google.com/apt google-fast-socket main" | tee /etc/apt/sources.list.d/google-fast-socket.list &&         curl -s -L https://packages.cloud.google.com/apt/doc/apt-key.gpg | apt-key add - &&         apt-get --allow-releaseinfo-change update && apt install -y google-fast-socket;     fi # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt-get --allow-releaseinfo-change update -y &&     apt-get install -y dirmngr &&     apt-key adv --keyserver keyserver.ubuntu.com --recv-keys 8B57C5C2836F4BEB &&     apt-key adv --keyserver keyserver.ubuntu.com --recv-keys FEEA9169307EA071 &&     apt-get --allow-releaseinfo-change update -y &&     echo "deb [signed-by=/usr/share/keyrings/cloud.google.gpg] https://packages.cloud.google.com/apt cloud-sdk main" | tee -a /etc/apt/sources.list.d/google-cloud-sdk.list &&     curl https://packages.cloud.google.com/apt/doc/apt-key.gpg | apt-key --keyring /usr/share/keyrings/cloud.google.gpg add - &&     apt-get --allow-releaseinfo-change update -y &&     apt-get install -y apt-transport-https ca-certificates gnupg &&     echo "deb http://packages.cloud.google.com/apt gcsfuse-focal main" | tee /etc/apt/sources.list.d/gcsfuse.list &&     curl https://packages.cloud.google.com/apt/doc/apt-key.gpg | apt-key add - &&     apt-get --allow-releaseinfo-change update -y &&     apt-get install -y google-cloud-sdk && apt-get install -y gcsfuse &&     rm -rf /var/lib/apt/lists/* # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt-get --allow-releaseinfo-change -o Acquire::Check-Valid-Until=false update -y &&     apt-get install --no-install-recommends -y -q        $(grep -vE "^\s*#" aptget-requirements.txt | tr "\n" " ") &&     rm -rf /var/lib/apt/lists/* &&     rm -rf aptget-requirements.txt # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c if [ "${BASE_IMAGE}" =~ "^nvidia. *" ]; then       apt update -y || true && apt install -y wget && apt install -yq software-properties-common &&       wget https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2004/x86_64/cuda-ubuntu2004.pin &&       mv cuda-ubuntu2004.pin /etc/apt/preferences.d/cuda-repository-pin-600 &&       apt-key adv --fetch-keys https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2004/x86_64/3bf863cc.pub &&       add-apt-repository "deb https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2004/x86_64/ /" &&       apt-get --allow-releaseinfo-change update;     fi # buildkit
+COPY build/vm/packer/base/aptget-requirements.txt /aptget-requirements.txt # buildkit
+RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt update --allow-releaseinfo-change -y &&     apt upgrade -y # buildkit
+ARG DEBIAN_FRONTEND=noninteractive
+ENV LANG=C.UTF-8
+ENV LC_ALL=C.UTF-8
+LABEL com.google.environment=Container: Minimal
+
+

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₠Quantum
profiles
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Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder2/file06.md b/identition/folder2/file06.md new file mode 100644 index 00000000..53736c12 --- /dev/null +++ b/identition/folder2/file06.md @@ -0,0 +1,228 @@ +## System Storage + +GitHub allows developers to run GitHub Actions workflows on your own runners. This [Docker image](https://hub.docker.com/r/tcardonne/github-runner#!) allows you to create your own runners on Docker, you can enable Docker siblings by binding the host Docker daemon socket. + +``` +$ cat /etc/os-release + +PRETTY_NAME="Debian GNU/Linux 10 (buster)" +NAME="Debian GNU/Linux" +VERSION_ID="10" +VERSION="10 (buster)" +VERSION_CODENAME=buster +ID=debian +HOME_URL="https://www.debian.org/" +SUPPORT_URL="https://www.debian.org/support" +BUG_REPORT_URL="https://bugs.debian.org/" +``` + +By default, the df command shows the disk space used and available disk space in kilobytes. To display information about disk drives in human-readable format (kilobytes, megabytes, gigabytes and so on), invoke the df command with the -h option + +``` +$ df -h +Filesystem Size Used Avail Use% Mounted on +/dev/root 2.0G 1.1G 902M 54% / +devtmpfs 484M 0 484M 0% /dev +tmpfs 487M 0 487M 0% /dev/shm +tmpfs 195M 512K 195M 1% /run +tmpfs 487M 112K 487M 1% /etc/machine-id +tmpfs 256K 0 256K 0% /mnt/disks +tmpfs 487M 0 487M 0% /tmp +overlayfs 487M 112K 487M 1% /etc +/dev/sda8 11M 24K 11M 1% /usr/share/oem +/dev/sda1 5.7G 3.5G 2.2G 62% /mnt/stateful_partition +tmpfs 2.0M 128K 1.9M 7% /var/lib/cloud +/dev/sdb1 49G 9.9G 38G 22% /mnt/disks/Linux ◄- DEEP LEARNING +``` + +On Unix-like operating systems, the set command is a built-in function of the Bourne shell ( sh ), C shell ( csh ), and Korn shell ( ksh ), which is used to define and determine the values of the system environment. + +``` +$ set + +ACTIONS_ID_TOKEN_REQUEST_TOKEN=*** +ACTIONS_ID_TOKEN_REQUEST_URL='https://pipelines.actions.githubusercontent.com/a18hGIuIy4qbY5KTUvkKiuBNsSHDVCEtnJ8x8NEYFPEBFH2tOZ/00000000-0000-0000-0000-000000000000/_apis/distributedtask/hubs/Actions/plans/7534b9e1-5505-4cff-9f7a-440ad58fadf5/jobs/55c239b7-523f-5586-aeb6-60a00c959946/idtoken?api-version=2.0' +AGENT_TOOLSDIRECTORY=/opt/hostedtoolcache +BASH=/bin/bash +BASHOPTS=checkwinsize:cmdhist:complete_fullquote:extquote:force_fignore:globasciiranges:hostcomplete:interactive_comments:progcomp:promptvars:sourcepath +BASH_ALIASES=() +BASH_ARGC=() +BASH_ARGV=() +BASH_CMDS=() +BASH_LINENO=([0]="0") +BASH_SOURCE=([0]="/home/runner/_work/_temp/b00557e9-dc1d-40fb-a211-db6869b65693.sh") +BASH_VERSINFO=([0]="5" [1]="0" [2]="3" [3]="1" [4]="release" [5]="x86_64-pc-linux-gnu") +BASH_VERSION='5.0.3(1)-release' +CI=true +DIRSTACK=() +EUID=0 +GITHUB_ACCESS_TOKEN=*** +GITHUB_ACTION=__run +GITHUB_ACTIONS=true +GITHUB_ACTION_REF= +GITHUB_ACTION_REPOSITORY= +GITHUB_ACTOR=eq19 +GITHUB_ACTOR_ID=8466209 +GITHUB_API_URL=https://api.github.com +GITHUB_BASE_REF= +GITHUB_ENV=/home/runner/_work/_temp/_runner_file_commands/set_env_acae127c-173c-43fd-abea-f6d3fe882641 +GITHUB_EVENT_NAME=push +GITHUB_EVENT_PATH=/home/runner/_work/_temp/_github_workflow/event.json +GITHUB_GRAPHQL_URL=https://api.github.com/graphql +GITHUB_HEAD_REF= +GITHUB_JOB=github-pages +GITHUB_OUTPUT=/home/runner/_work/_temp/_runner_file_commands/set_output_acae127c-173c-43fd-abea-f6d3fe882641 +GITHUB_PATH=/home/runner/_work/_temp/_runner_file_commands/add_path_acae127c-173c-43fd-abea-f6d3fe882641 +GITHUB_REF=refs/heads/eQ19 +GITHUB_REF_NAME=eQ19 +GITHUB_REF_PROTECTED=false +GITHUB_REF_TYPE=branch +GITHUB_REPOSITORY=FeedMapping/Partition +GITHUB_REPOSITORY_ID=550855238 +GITHUB_REPOSITORY_OWNER=FeedMapping +GITHUB_REPOSITORY_OWNER_ID=11927583 +GITHUB_RETENTION_DAYS=90 +GITHUB_RUN_ATTEMPT=1 +GITHUB_RUN_ID=4975344786 +GITHUB_RUN_NUMBER=88 +GITHUB_SERVER_URL=https://github.com +GITHUB_SHA=a5ee1d5f656adf586a43252afce0a4ddc838ade4 +GITHUB_STATE=/home/runner/_work/_temp/_runner_file_commands/save_state_acae127c-173c-43fd-abea-f6d3fe882641 +GITHUB_STEP_SUMMARY=/home/runner/_work/_temp/_runner_file_commands/step_summary_acae127c-173c-43fd-abea-f6d3fe882641 +GITHUB_TRIGGERING_ACTOR=eq19 +GITHUB_WORKFLOW='Build and deploy Jekyll site' +GITHUB_WORKFLOW_REF=FeedMapping/Partition/.github/workflows/github-pages.yml@refs/heads/eQ19 +GITHUB_WORKFLOW_SHA=a5ee1d5f656adf586a43252afce0a4ddc838ade4 +GITHUB_WORKSPACE=/home/runner/_work/Partition/Partition +GROUPS=() +HOME=/root +HOSTNAME=ef75abdc2b19 +HOSTTYPE=x86_64 +IFS=$' \t\n' +MACHTYPE=x86_64-pc-linux-gnu +OPTERR=1 +OPTIND=1 +OSTYPE=linux-gnu +PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin +PIPESTATUS=([0]="0") +PPID=17188 +PS4='+ ' +*** +RUNNER_ALLOW_RUNASROOT=true +RUNNER_ARCH=X64 +RUNNER_LABELS= +RUNNER_NAME=Google-optimized-instance +RUNNER_ORGANIZATION_URL=https://github.com/FeedMapping +RUNNER_OS=Linux +RUNNER_REPLACE_EXISTING=true +RUNNER_REPOSITORY_URL= +RUNNER_TEMP=/home/runner/_work/_temp +RUNNER_TOKEN=ACAS6IJKEQK3RSYCNEQ3Z53EL2JM6 +RUNNER_TOOL_CACHE=/opt/hostedtoolcache +RUNNER_TRACKING_ID=github_b2590dca-5a63-4f9a-a8e2-68924e311fdc +RUNNER_WORKSPACE=/home/runner/_work/Partition +RUNNER_WORK_DIRECTORY=_work +SHELL=/bin/bash +SHELLOPTS=braceexpand:errexit:hashall:interactive-comments +SHLVL=1 +SUPERVISOR_ENABLED=1 +SUPERVISOR_GROUP_NAME=runner +SUPERVISOR_PROCESS_NAME=runner +TERM=dumb +UID=0 +_=-V +``` + +[![docker-github-runner](https://user-images.githubusercontent.com/8466209/229943878-e3d1cae4-15fd-43ab-9d7f-904a343b745c.png)](https://github.com/eq19/setup) + + +``` +docker info +docker --version + +docker logout +docker login + +git clone https://github.com/eq19/setup +cd setup/docker +docker build -t setup . + +docker images +docker tag setup:latest eq19/setup:latest + +docker push eq19/setup:latest +``` + +For now, there are only Debian Buster (tagged with latest and vX.Y.Z) and Ubuntu Focal (tagged with ubuntu-20.04 and vX.Y.Z-ubuntu-20.04) images, but I may add more variants in the future. Feel free to create an issue if you want another base image. + +[![default](https://user-images.githubusercontent.com/8466209/238171580-d65c5bcb-7ae9-498d-841f-b645e08c49b2.png)](https://registry.hub.docker.com/r/tcardonne/github-runner/tags) + +When comparing Chromium OS vs Debian GNU/Linux, the Slant community recommends Debian GNU/Linux for most people. In the question“What are the best Linux distributions for desktops?” Debian GNU/Linux is ranked 3rd while Chromium OS is ranked 88th. The most important reason people chose Debian GNU/Linux is: + +> Debian offers stable and testing CD images specifically built for GNOME (the default), KDE Plasma Workspaces, Xfce and LXDE. Less common window managers such as Enlightenment, Openbox, Fluxbox, GNUstep, IceWM, Window Maker and others can also be installed _([Slant](https://www.slant.co/versus/2691/2692/~chromium-os_vs_debian-gnu-linux))_. + +[![chromium-os_vs_debian-gnu-linux](https://user-images.githubusercontent.com/8466209/238179595-7f087116-910c-4cf9-8b1b-1051e74f93d4.png)](https://www.slant.co/versus/2691/2692/~chromium-os_vs_debian-gnu-linux) + +For most frameworks, Debian 10 is the default OS. Ubuntu 20.04 images are available for some frameworks. They are denoted by the -ubuntu-2004 suffixes in the image family name (see [Listing all available versions](https://cloud.google.com/deep-learning-vm/docs/images#listing-versions)). Debian 9 images have been deprecated. + +[![Deep Learning VM Images +](https://user-images.githubusercontent.com/8466209/238179451-d71d776a-883f-4978-b60a-50a25a6c8572.png)](https://cloud.google.com/deep-learning-vm/docs/images#choosing_an_operating_system) + +You can pull a container image and show the "[history](https://stackoverflow.com/a/75291419/2023941)" for the container. This shows you how it is built and what the original starting image. This does not mean that you access the original image. You can add to and remove parts of the image. You can also export an image to a tar archive file, modify and then reimport + +``` +{% raw %} +$ docker history gcr.io/deeplearning-platform-release/tf-cpu:m96 --format " {{.CreatedBy}}" --no-trunc + +RUN |2 VERSION=1-15 CONTAINER_NAME=tf-cpu/1-15 /bin/sh -c cd /opt/google/licenses && chmod +x query_licenses.sh && ./query_licenses.sh # buildkit +RUN |2 VERSION=1-15 CONTAINER_NAME=tf-cpu/1-15 /bin/sh -c BAZEL_INSTALLER_URL="https://github.com/bazelbuild/bazel/releases/download/0.19.0/bazel-0.19.0-installer-linux-x86_64.sh" && BAZEL_INSTALLER_FILE="bazel_installer.sh" && wget -q "${BAZEL_INSTALLER_URL}" -O "${BAZEL_INSTALLER_FILE}" && chmod +x "${BAZEL_INSTALLER_FILE}" && "./${BAZEL_INSTALLER_FILE}" && rm -rf "./${BAZEL_INSTALLER_FILE}" # buildkit +RUN |2 VERSION=1-15 CONTAINER_NAME=tf-cpu/1-15 /bin/sh -c export CONDA_REPOSITORY="/tmp/conda" && chmod +x /opt/google/conda/install_to_env.sh && ENV_DOCKER=1 /opt/google/conda/install_to_env.sh base dlenv-tf-${VERSION}-cpu-meta # buildkit +ENV KMP_SETTINGS=1 +ENV KMP_AFFINITY=granularity=fine,verbose,compact,1,0 +ENV KMP_BLOCKTIME=0 +ENV CONTAINER_NAME=tf-cpu/1-15 +ARG CONTAINER_NAME +LABEL com.google.environment=Container: TensorFlow 1-15 +ARG VERSION +CMD ["/run_jupyter.sh"] +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chmod +x run_jupyter.sh # buildkit +COPY build/container/run_jupyter.sh /run_jupyter.sh # buildkit +ENTRYPOINT ["/entrypoint.sh"] +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chmod +x entrypoint.sh # buildkit +COPY build/container/entrypoint.sh /entrypoint.sh # buildkit +COPY build/package/conda/channels.json /opt/google/conda/channels.json # buildkit +COPY build/package/packages/jupyter/jupyter_notebook_config.py /opt/jupyter/.jupyter/jupyter_notebook_config.py # buildkit +COPY build/package/packages/jupyter/ipython_kernel_config.py /etc/ipython/ipython_kernel_config.py # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chown -R "jupyter:jupyter" "/home/jupyter/." # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c adduser --uid 1000 --gid 1001 jupyter # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c addgroup --gid 1001 jupyter # buildkit +ENV LD_LIBRARY_PATH=/usr/local/cuda/lib64:/usr/local/cuda/lib:/usr/local/lib/x86_64-linux-gnu:/usr/local/nvidia/lib:/usr/local/nvidia/lib64: +VOLUME [/home/jupyter] +EXPOSE map[8080/tcp:{}] +ENV SHELL=/bin/bash +ENV PATH=/opt/conda/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chmod +x /opt/google/conda/provision_conda.sh && /opt/google/conda/provision_conda.sh # buildkit +ENV DL_ANACONDA_HOME=/opt/conda +ENV ANACONDA_PYTHON_VERSION=3.7 +COPY build/vm/packer/generic/packages /opt/google # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c cd / && gsutil cp -r gs://dl-platform-binaries-builds/openmpi-4.0.2/v20191105/openmpi.tar.gz . && tar xf openmpi.tar.gz && rm -f openmpi.tar.gz # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt update -y && apt install -y libnuma-dev # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c if dpkg -s libnccl2; then echo "deb https://packages.cloud.google.com/apt google-fast-socket main" | tee /etc/apt/sources.list.d/google-fast-socket.list && curl -s -L https://packages.cloud.google.com/apt/doc/apt-key.gpg | apt-key add - && apt-get --allow-releaseinfo-change update && apt install -y google-fast-socket; fi # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt-get --allow-releaseinfo-change update -y && apt-get install -y dirmngr && apt-key adv --keyserver keyserver.ubuntu.com --recv-keys 8B57C5C2836F4BEB && apt-key adv --keyserver keyserver.ubuntu.com --recv-keys FEEA9169307EA071 && apt-get --allow-releaseinfo-change update -y && echo "deb [signed-by=/usr/share/keyrings/cloud.google.gpg] https://packages.cloud.google.com/apt cloud-sdk main" | tee -a /etc/apt/sources.list.d/google-cloud-sdk.list && curl https://packages.cloud.google.com/apt/doc/apt-key.gpg | apt-key --keyring /usr/share/keyrings/cloud.google.gpg add - && apt-get --allow-releaseinfo-change update -y && apt-get install -y apt-transport-https ca-certificates gnupg && echo "deb http://packages.cloud.google.com/apt gcsfuse-focal main" | tee /etc/apt/sources.list.d/gcsfuse.list && curl https://packages.cloud.google.com/apt/doc/apt-key.gpg | apt-key add - && apt-get --allow-releaseinfo-change update -y && apt-get install -y google-cloud-sdk && apt-get install -y gcsfuse && rm -rf /var/lib/apt/lists/* # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt-get --allow-releaseinfo-change -o Acquire::Check-Valid-Until=false update -y && apt-get install --no-install-recommends -y -q $(grep -vE "^\s*#" aptget-requirements.txt | tr "\n" " ") && rm -rf /var/lib/apt/lists/* && rm -rf aptget-requirements.txt # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c if [ "${BASE_IMAGE}" =~ "^nvidia. *" ]; then apt update -y || true && apt install -y wget && apt install -yq software-properties-common && wget https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2004/x86_64/cuda-ubuntu2004.pin && mv cuda-ubuntu2004.pin /etc/apt/preferences.d/cuda-repository-pin-600 && apt-key adv --fetch-keys https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2004/x86_64/3bf863cc.pub && add-apt-repository "deb https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2004/x86_64/ /" && apt-get --allow-releaseinfo-change update; fi # buildkit +COPY build/vm/packer/base/aptget-requirements.txt /aptget-requirements.txt # buildkit +RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt update --allow-releaseinfo-change -y && apt upgrade -y # buildkit +ARG DEBIAN_FRONTEND=noninteractive +ENV LANG=C.UTF-8 +ENV LC_ALL=C.UTF-8 +LABEL com.google.environment=Container: Minimal +{% endraw %} +``` +![Untitled](https://user-images.githubusercontent.com/8466209/255381318-7cd95f34-ee40-4d02-bea8-3d72ff9bb4af.png) + +![default](https://user-images.githubusercontent.com/8466209/198933143-1d783ccf-22a1-4415-9a11-8effe98d1741.png) + +![default](https://user-images.githubusercontent.com/8466209/198837916-57284efa-bdb7-42d8-80f6-584b3c3bbd19.png) + +![default](https://user-images.githubusercontent.com/8466209/198934268-1570c3cc-5a90-48b3-a1e6-b016c2d93ab4.png) diff --git a/identition/folder2/file07.html b/identition/folder2/file07.html new file mode 100644 index 00000000..a4a29d93 --- /dev/null +++ b/identition/folder2/file07.html @@ -0,0 +1,42 @@ + file07.md · ₠Quantum

---+-----+-----
+ 1 | {1} | {9}
+---+-----+-----
+ 2 | 10  |{32}
+---+-----+-----
+ 3 | 33  | 63  
+---+-----+-----
+ 4 |{64} | 101 
+---+-----+-----
+ 5 |{102}| 120 
+---+-----+-----
+ 6 | 121 |{189}
+---+-----+-----
+ 7 | 190 |{200}
+---+-----+-----
+
$ cat /etc/os-release
+
+NAME="Alpine Linux"
+ID=alpine
+VERSION_ID=3.18.0
+PRETTY_NAME="Alpine Linux v3.18"
+HOME_URL="https://alpinelinux.org/"
+BUG_REPORT_URL="https://gitlab.alpinelinux.org/alpine/aports/-/issues"
+

flow

default

default

default

default

default

default

default

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17).

default

default

There might be cases where you want to install and use Ruby with Anaconda or Miniconda. By doing this, Ruby becomes usable. however, it will not compile gems that use native extensions.

Since it is nearly impossible to use Ruby without utilizing native extensions, this method is not very practical.Instead, you can simply install Ruby from conda-forge and install the compilers package at the same time. This way, you can easily use Ruby within Conda environments like Anaconda or Miniconda (Using Ruby with Conda).

conda install -c conda-forge ruby
+conda install -c conda-forge compilers
+
+conda install -c "conda-forge/label/broken" ruby
+conda install -c "conda-forge/label/cf201901" ruby
+conda install -c "conda-forge/label/cf202003" ruby
+conda install -c "conda-forge/label/gcc7" ruby
+

default

In gRPC, a client application can directly call a method on a server application on a different machine as if it were a local object, making it easier for you to create distributed applications and services.

$ find / -type f -name "Gemfile"
+
+/mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/ruby/Gemfile
+/mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/ruby/pubsub/Gemfile
+
+$ cat /mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/ruby/pubsub/Gemfile
+
+source 'https://rubygems.org/'
+
+gem 'grpc', '~> 1.0'
+gem 'googleauth', '>= 0.5.1', '< 0.7'
+

gRPC and protocol buffers


₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder2/file07.md b/identition/folder2/file07.md new file mode 100644 index 00000000..6d9b1465 --- /dev/null +++ b/identition/folder2/file07.md @@ -0,0 +1,87 @@ +``` +---+-----+----- + 1 | {1} | {9} +---+-----+----- + 2 | 10 |{32} +---+-----+----- + 3 | 33 | 63 +---+-----+----- + 4 |{64} | 101 +---+-----+----- + 5 |{102}| 120 +---+-----+----- + 6 | 121 |{189} +---+-----+----- + 7 | 190 |{200} +---+-----+----- +``` + +``` +$ cat /etc/os-release + +NAME="Alpine Linux" +ID=alpine +VERSION_ID=3.18.0 +PRETTY_NAME="Alpine Linux v3.18" +HOME_URL="https://alpinelinux.org/" +BUG_REPORT_URL="https://gitlab.alpinelinux.org/alpine/aports/-/issues" +``` + +[![](https://user-images.githubusercontent.com/8466209/200228344-9f344f49-3e5d-480f-b11c-6e30a20a8f44.jpg)](https://www.primesdemystified.com/First1000Primes.html) + +![flow](https://user-images.githubusercontent.com/36441664/128732737-81762604-0ae0-4a90-b5a8-30921cf46efb.png) + +![default](https://user-images.githubusercontent.com/8466209/198934312-25311775-edd3-48b7-8faa-8da45c380392.png) + +[![default](https://user-images.githubusercontent.com/8466209/198933986-e0c6ab91-bbb6-4413-b75b-3d11bd2ccfab.png)](https://github.com/chetabahana/tensorflow/wiki) + +[![default](https://user-images.githubusercontent.com/8466209/198919975-7e61e7db-06ec-4e16-bd36-10cc9048e9e7.png)](https://github.com/kaustubhcs/prime-hexagon) + +[![default](https://user-images.githubusercontent.com/8466209/198921109-f1e4671d-a845-4c05-8a1d-f6c05ad490a0.png)](https://github.com/kaustubhcs/prime-hexagon/tree/66b8653a102c848084e137aa614e8762b40d5c1f) + +[![default](https://user-images.githubusercontent.com/8466209/198920712-ebff2050-95ac-4617-bfd4-4c8ba930c65c.png)](https://github.com/spacetimeengineer/spacetimeengine) + +[![default](https://user-images.githubusercontent.com/8466209/198922336-f69108be-c4db-45bc-ba4e-2f09539a139c.png)](https://github.com/FeedMapping/syntax) + +[![default](https://user-images.githubusercontent.com/8466209/198921851-eaa9d84d-ee62-4f04-be4d-c291677acb19.png)](https://github.com/eq19) + +Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17). + +![default](https://user-images.githubusercontent.com/8466209/198928812-cab7aef3-9c41-49f4-8b89-00b8fa3fc95a.png) + +![default](https://user-images.githubusercontent.com/8466209/198929326-da02dcc6-e502-4a01-a128-8c0ba03183f3.png) + +There might be cases where you want to install and use Ruby with Anaconda or Miniconda. By doing this, Ruby becomes usable. however, it will not compile gems that use native extensions. + +>Since it is nearly impossible to use Ruby without utilizing native extensions, this method is not very practical.Instead, you can simply install Ruby from conda-forge and install the compilers package at the same time. This way, you can easily use Ruby within Conda environments like Anaconda or Miniconda _([Using Ruby with Conda](https://dev.to/kojix2/using-ruby-with-conda-1hn))_. + +``` +conda install -c conda-forge ruby +conda install -c conda-forge compilers + +conda install -c "conda-forge/label/broken" ruby +conda install -c "conda-forge/label/cf201901" ruby +conda install -c "conda-forge/label/cf202003" ruby +conda install -c "conda-forge/label/gcc7" ruby +``` + +[![default](https://user-images.githubusercontent.com/8466209/239124983-1b99dc91-a1ad-498f-80a0-acb2d8b69185.png)](https://anaconda.org/conda-forge/ruby) + +In gRPC, a client application can directly call a method on a server application on a different machine as if it were a local object, making it easier for you to create distributed applications and services. + +``` +$ find / -type f -name "Gemfile" + +/mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/ruby/Gemfile +/mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/ruby/pubsub/Gemfile + +$ cat /mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/ruby/pubsub/Gemfile + +source 'https://rubygems.org/' + +gem 'grpc', '~> 1.0' +gem 'googleauth', '>= 0.5.1', '< 0.7' +``` + +[![gRPC and protocol buffers](https://user-images.githubusercontent.com/8466209/239118755-39dc1055-d92e-49cf-adcb-868d5a90cfa6.png)](https://grpc.io/docs/what-is-grpc/introduction/) + diff --git a/identition/folder2/index.html b/identition/folder2/index.html new file mode 100644 index 00000000..c38cf220 --- /dev/null +++ b/identition/folder2/index.html @@ -0,0 +1,31 @@ + Feeding (2nd-dimension) · ₠Quantum

Feeding (2nd-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

As shown in The Primes Platform this cycle goes to the prime 13 then reinjected through index 13:9 . So it forms The Scheme-139 through the infinitely primes cycling. This scheme will be implemented by taking the following as the syntax algorithm:

default

The Prime Spiral Sieve possesses remarkable structural and numeric symmetries. For starters, the intervals between the prime roots (and every subsequent row or rotation of the sieve) are perfectly balanced, with a period eight (8) difference sequence of: {6, 4, 2, 4, 2, 4, 6, 2} (Primesdemystified).

image

Speaking of the Fibonacci number sequence, there is symmetry mirroring the above in the relationship between the terminating digits of Fibonacci numbers and their index numbers equating to members of the array populating the Prime Spiral Sieve.

11's additive sums

These objects will then behave as a complex numbers that leads to trivial and complex roots of the 18th prime identity. 286 - (231x5)/(11x7) = 286 - 1155/77 = 286 - 15 = 200 + 71 = 271

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th ←------------ 10
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20 --------
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin                |
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 --------
+  =======================+====+====+====+====+====+====+====+====+====+===== bilateral 9 sums (2)+60+40=102
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 --------
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin                |
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20 --------
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+

The opposite direction will be made through switching beetween Linux and Windows which is proceed the old strand in the 3′ to 5′ direction, while the new strand is synthesized in the 5' to 3' direction. Here we set a remote self-host runner via WSL.

default

The rest of primes goes to the 33's of 15th axis that holding 102 primes of (2,60,40). By the bilateral way the form will be splitted to (1,30,20). Since the base frame shall be 40 so it will be forced to form (1,30,40) of prime 71.

default


₠Quantum
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file01.html b/identition/folder3/file01.html new file mode 100644 index 00000000..ae2fd06c --- /dev/null +++ b/identition/folder3/file01.html @@ -0,0 +1,420 @@ + Lexer vs Parser · ₠Quantum

Lexer vs Parser

enneatruth_anim

image

Notice how the 3, 9, and 6 is in red and does not connect at the base. That is because it is a vector. The 1,2,4,8,7,5 is the third dimension while the oscillation between the 3 and 6 demonstrates the fourth dimension, which is the higher dimensional magnetic field of an electrical coil.

image

The 3, 9, and 6 always occur together with the 9 as the control. In fact, the Yin/Yang is not a duality but rather a trinary. This is because the 3 and 6 represent each side of the Yin/Yang and the 9 is the "S" curve between them. Everything is based on thirds. We think that the universe is based on dualities because we see the effects not the cause.

Four (4) Vector

!

Φ(11,13) = (114 - 10²) + 13 = 27

1729 = 7 x 13 x 19
+1729 / 7 = 13 x 19 = 247
+
+1729 = 7 x 13 x 19
+       7 + 13 = 20 = d(2)
+                     └──  2 x 19 = 38
+
++----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+| {1}|  2 |  3 |  4 |  5 | {6}| {7}|  8 |  9 | 10 | 11 | 12 | 13 | 14 |
++----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+| {3}| {4}|  3 |  4 |  5 |  2 |  3 |  2 |  2 |  1 |  2 |  5 |  1 |  1 |{38}
++----+----+----+----+----+----+----+----+----+----+----+----+----+----+---- } 285
+|  3 |  8 |  9 | 16 | 25 |{12}|{21}| 16 | 18 | 10 | 22 | 60 |{13}|{14}|{247}
++----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+|-- 38 ---|              |-- 33 ---|                        |-- {27}--|
+

Four Spacetime Dimensions

------+------+-----+----------+-----+-----                                     |     ---
+      |      |     |     11:7 |   5 |   9 |  14 (20) --------› ¤               |      |
+      |      |  4  +----------+-----+-----+-----+                              |      |
+      |  3   |     |     12:8 |   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+      |      +-----+----------+-----+-----+-----+                       |      |      |
+      |      |     |     13:9 |   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+  2   +------|  5  +----------+-----+-----+-----+                       |      |     ---
+      |      |     |    14:19 |   9 |  60 |  40 | 109 (28) -------------       |      |
+      |      |-----+----------+-----+-----+-----+                              |      |
+      |  4   |     | 15,18:11 |   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+      |      |     |    20:13 |  90 |  90 (38) ‹-------------- ¤                      |
+      |      |  7  +----------+-----+                                                 |
+      |  5   |     |       14 |            -----------------------------             17¨  class
+      |      |-----+----------+           |                             |             |
+      |      |     |       15 |           |       LEADING SCHEME        |             |
+  3   +------+  8  +----------+-----      |    (Multiplication Zone)    |            ---
+      |      |     |       16 |           |                             |             |
+      |      |-----+----------+-----+      -----------------------------              |
+      |  6   |     |    28:17 | 100 |                                                19¨  object
+168   |      |  9  +----------+-----+                                                 |
+|     |      |     |    29:18 | 50  | 50(68) ---------> Δ18                           |
+------|------|-----+----------+-----+                                                ---
+

Diagram of Classes

COS instances come pre-installed with the Docker runtime and cloud-init. With a COS instance, you can bring up your Docker container at the same time you create your VM, with no on-host setup required.

Note: docker-credential-gcr writes credentials to $HOME/.docker/config.json. When running /usr/bin/docker-credential-gcr configure-docker in a unit file, you must set the environment variable $HOME. Otherwise, docker-credential-gcr will try to write credentials to /root/.docker/config.json, which is not permitted on Container-Optimized OS (Google Cloud).

#cloud-config
+
+users:
+- default
+- uid: 2000
+  name: runner
+  groups: admin,adm,video,docker,google-sudoers
+
+write_files:
+- owner: root
+  permissions: 0644
+  path: /etc/systemd/system/runner.service
+  content: |
+    [Unit]
+    Wants=gcr-online.target
+    After=gcr-online.target
+    Description=gcloud compute instances create instance-template --scopes=https://www.googleapis.com/auth/cloud-platform --network-interface=network=default,network-tier=PREMIUM --maintenance-policy=MIGRATE --provisioning-model=STANDARD --project=feedmapping --zone=us-central1-a --shielded-vtpm --shielded-integrity-monitoring --reservation-affinity=any --service-account=project-owner@feedmapping.iam.gserviceaccount.com --machine-type=e2-micro --enable-display-device --no-shielded-secure-boot --image-family cos-stable --image-project cos-cloud --metadata-from-file user-data=cloud-config --create-disk=auto-delete=yes,device-name=persistent-disk-1,boot=no,image-family=tf-ent-latest-gpu,mode=rw,size=50,type=pd-standard,image-project=deeplearning-platform-release 
+
+    [Service]
+    Environment="HOME=/home/runner"
+    ExecStartPre=/usr/bin/docker-credential-gcr configure-docker
+    ExecStart=/usr/bin/docker run --rm --name myrunner -e RUNNER_NAME=Google-optimized-instance -e RUNNER_ORGANIZATION_URL=https://github.com/FeedMapping -e RUNNER_WORK_DIRECTORY=/mnt/disks/Linux/tmp/_FeedMapping -e RUNNER_REPLACE_EXISTING=true -e GITHUB_ACCESS_TOKEN=ghp_XXXXXXXXXXXXXXXXXXXXXXXXXX -v /var/run/docker.sock:/var/run/docker.sock -v /mnt:/mnt eq19/setup
+    ExecStop=/usr/bin/docker stop myrunner
+    ExecStopPost=/usr/bin/docker rm myrunner
+
+runcmd:
+- systemctl daemon-reload
+- systemctl start runner.service
+- systemctl status runner.service
+
+bootcmd:
+- fsck.ext4 -tvy /dev/sdb1
+- mkdir -p /mnt/disks/Linux
+- mount -t ext4 -o discard,defaults /dev/sdb1 /mnt/disks/Linux
+

Using the advanced scenarios you can deploy multiple containers and configure Docker options using cloud-init, you can create a Compute Engine instance with your choice of COS image then proceed to configure with metadata.

docker run -it --name Google-optimized-instance \
+    -e RUNNER_NAME=Google-optimized-instance \
+    -e RUNNER_ORGANIZATION_URL=https://github.com/FeedMapping \
+    -e GITHUB_ACCESS_TOKEN=ghp_xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx \
+    -v /var/run/docker.sock:/var/run/docker.sock \
+    tcardonne/github-runner
+

The Google instance deployed through the Google Cloud console or the Google Cloud CLI, not the API. Use advanced scenarios to deploy multiple containers, and to use cloud-init for advanced configuration.

default

It will be managed by the boot disk of 10GB represent the central of addition zone with two (2) exponential zone each represent new lagging strand DNA, whose direction of synthesis is opposite to the direction of the growing replication fork.

Deep Learning

Base on above scheme here we are going to use Deep Learning VM Images from Google and Windows Server Images from Microsoft by the image disks of 32GB to represent imajinary part (i), and the 50GB to represent circle part (π).

The Cloud-init is a way to configure a COS instance when it boots up. The tool expects its configuration in the value of the user-data key of the instance metadata. The cloud-init tool understands multiple formats.

default

The COS Container has limited or no support for the gsutil tool. Passing a startup script for COS instance of #cloud-config from Cloud Storage is not possible therefore it needs to be stored in a local file and create-disk using gcloud.

gcloud compute instances create instance-template \
+--scopes=https://www.googleapis.com/auth/cloud-platform \
+--network-interface=network=default,network-tier=PREMIUM \
+--maintenance-policy=MIGRATE --provisioning-model=STANDARD \
+--project=feedmapping --zone=us-central1-a --shielded-vtpm \
+--shielded-integrity-monitoring --reservation-affinity=any \
+--service-account=project-owner@feedmapping.iam.gserviceaccount.com \
+--machine-type=e2-micro --enable-display-device --no-shielded-secure-boot \
+--image-family cos-stable --image-project cos-cloud \                          ◄- COS
+--metadata-from-file user-data=cloud-config \
+--create-disk=auto-delete=yes,device-name=persistent-disk-1,boot=no,\          ◄- LINUX
+image-family=tf-ent-latest-gpu,mode=rw,size=50,type=pd-standard,\
+image-project=deeplearning-platform-release \
+--create-disk=auto-delete=yes,device-name=persistent-disk-2,boot=no,\          ◄- WINDOWS
+image=projects/gce-uefi-images/global/images/windows-server-1909\
+-dc-core-for-containers-v20200609,mode=rw,size=32,type=pd-standard
+

Deep Learning VM Images are virtual machine images optimized for data science and machine learning tasks. Built with key ML frameworks, tools pre-installed, and can be used out of the box on instances with GPUs to accelerate data processing.

Deciding on an image family

In Linux dpkg is the primary package manager for Debian and Debian-based systems, such as Ubuntu. The tool installs, builds, removes, configures, and retrieves information for Debian packages. The command works with packages in .deb format.

$ dpkg -l
+
+Desired=Unknown/Install/Remove/Purge/Hold
+| Status=Not/Inst/Conf-files/Unpacked/halF-conf/Half-inst/trig-aWait/Trig-pend
+|/ Err?=(none)/Reinst-required (Status,Err: uppercase=bad)
+||/ Name                          Version                     Architecture Description
++++-=============================-===========================-============-===============================================================================
+ii  adduser                       3.118                       all          add and remove users and groups
+ii  apparmor                      2.13.2-10                   amd64        user-space parser utility for AppArmor
+ii  apt                           1.8.2.3                     amd64        commandline package manager
+ii  apt-transport-https           1.8.2.3                     all          transitional package for https support
+ii  base-files                    10.3+deb10u13               amd64        Debian base system miscellaneous files
+ii  base-passwd                   3.5.46                      amd64        Debian base system master password and group files
+ii  bash                          5.0-4                       amd64        GNU Bourne Again SHell
+ii  binutils                      2.31.1-16                   amd64        GNU assembler, linker and binary utilities
+ii  binutils-common:amd64         2.31.1-16                   amd64        Common files for the GNU assembler, linker and binary utilities
+ii  binutils-x86-64-linux-gnu     2.31.1-16                   amd64        GNU binary utilities, for x86-64-linux-gnu target
+ii  bsdutils                      1:2.33.1-0.1                amd64        basic utilities from 4.4BSD-Lite
+ii  build-essential               12.6                        amd64        Informational list of build-essential packages
+ii  bzip2                         1.0.6-9.2~deb10u2           amd64        high-quality block-sorting file compressor - utilities
+ii  ca-certificates               20200601~deb10u2            all          Common CA certificates
+ii  containerd.io                 1.6.20-1                    amd64        An open and reliable container runtime
+ii  coreutils                     8.30-3                      amd64        GNU core utilities
+ii  cpp                           4:8.3.0-1                   amd64        GNU C preprocessor (cpp)
+ii  cpp-8                         8.3.0-6                     amd64        GNU C preprocessor
+ii  curl                          7.64.0-4+deb10u5            amd64        command line tool for transferring data with URL syntax
+ii  dash                          0.5.10.2-5                  amd64        POSIX-compliant shell
+ii  dbus                          1.12.24-0+deb10u1           amd64        simple interprocess messaging system (daemon and utilities)
+ii  dbus-user-session             1.12.24-0+deb10u1           amd64        simple interprocess messaging system (systemd --user integration)
+ii  debconf                       1.5.71+deb10u1              all          Debian configuration management system
+ii  debian-archive-keyring        2019.1+deb10u1              all          GnuPG archive keys of the Debian archive
+ii  debianutils                   4.8.6.1                     amd64        Miscellaneous utilities specific to Debian
+ii  diffutils                     1:3.7-3                     amd64        File comparison utilities
+ii  dirmngr                       2.2.12-1+deb10u2            amd64        GNU privacy guard - network certificate management service
+ii  distro-info-data              0.41+deb10u6                all          information about the distributions' releases (data files)
+ii  dmsetup                       2:1.02.155-3                amd64        Linux Kernel Device Mapper userspace library
+ii  docker-buildx-plugin          0.10.4-1~debian.10~buster   amd64        Docker Buildx cli plugin.
+ii  docker-ce                     5:23.0.3-1~debian.10~buster amd64        Docker: the open-source application container engine
+ii  docker-ce-cli                 5:23.0.3-1~debian.10~buster amd64        Docker CLI: the open-source application container engine
+ii  docker-ce-rootless-extras     5:23.0.3-1~debian.10~buster amd64        Rootless support for Docker.
+ii  docker-compose-plugin         2.17.2-1~debian.10~buster   amd64        Docker Compose (V2) plugin for the Docker CLI.
+ii  dpkg                          1.19.8                      amd64        Debian package management system
+ii  dpkg-dev                      1.19.8                      all          Debian package development tools
+ii  e2fsprogs                     1.44.5-1+deb10u3            amd64        ext2/ext3/ext4 file system utilities
+ii  fakeroot                      1.23-1                      amd64        tool for simulating superuser privileges
+ii  fdisk                         2.33.1-0.1                  amd64        collection of partitioning utilities
+ii  file                          1:5.35-4+deb10u2            amd64        Recognize the type of data in a file using "magic" numbers
+ii  findutils                     4.6.0+git+20190209-2        amd64        utilities for finding files--find, xargs
+ii  g++                           4:8.3.0-1                   amd64        GNU C++ compiler
+ii  g++-8                         8.3.0-6                     amd64        GNU C++ compiler
+ii  gcc                           4:8.3.0-1                   amd64        GNU C compiler
+ii  gcc-8                         8.3.0-6                     amd64        GNU C compiler
+ii  gcc-8-base:amd64              8.3.0-6                     amd64        GCC, the GNU Compiler Collection (base package)
+ii  gettext                       0.19.8.1-9                  amd64        GNU Internationalization utilities
+ii  gettext-base                  0.19.8.1-9                  amd64        GNU Internationalization utilities for the base system
+ii  gir1.2-glib-2.0:amd64         1.58.3-2                    amd64        Introspection data for GLib, GObject, Gio and GModule
+ii  gir1.2-packagekitglib-1.0     1.1.12-5                    amd64        GObject introspection data for the PackageKit GLib library
+ii  git                           1:2.20.1-2+deb10u8          amd64        fast, scalable, distributed revision control system
+ii  git-man                       1:2.20.1-2+deb10u8          all          fast, scalable, distributed revision control system (manual pages)
+ii  gnupg                         2.2.12-1+deb10u2            all          GNU privacy guard - a free PGP replacement
+ii  gnupg-l10n                    2.2.12-1+deb10u2            all          GNU privacy guard - localization files
+ii  gnupg-utils                   2.2.12-1+deb10u2            amd64        GNU privacy guard - utility programs
+ii  gpg                           2.2.12-1+deb10u2            amd64        GNU Privacy Guard -- minimalist public key operations
+ii  gpg-agent                     2.2.12-1+deb10u2            amd64        GNU privacy guard - cryptographic agent
+ii  gpg-wks-client                2.2.12-1+deb10u2            amd64        GNU privacy guard - Web Key Service client
+ii  gpg-wks-server                2.2.12-1+deb10u2            amd64        GNU privacy guard - Web Key Service server
+ii  gpgconf                       2.2.12-1+deb10u2            amd64        GNU privacy guard - core configuration utilities
+ii  gpgsm                         2.2.12-1+deb10u2            amd64        GNU privacy guard - S/MIME version
+ii  gpgv                          2.2.12-1+deb10u2            amd64        GNU privacy guard - signature verification tool
+ii  grep                          3.3-1                       amd64        GNU grep, egrep and fgrep
+ii  gzip                          1.9-3+deb10u1               amd64        GNU compression utilities
+ii  hostname                      3.21                        amd64        utility to set/show the host name or domain name
+ii  init-system-helpers           1.56+nmu1                   all          helper tools for all init systems
+ii  iptables                      1.8.2-4                     amd64        administration tools for packet filtering and NAT
+ii  iputils-ping                  3:20180629-2+deb10u2        amd64        Tools to test the reachability of network hosts
+ii  iso-codes                     4.2-1                       all          ISO language, territory, currency, script codes and their translations
+ii  jq                            1.5+dfsg-2+b1               amd64        lightweight and flexible command-line JSON processor
+ii  krb5-locales                  1.17-3+deb10u5              all          internationalization support for MIT Kerberos
+ii  less                          487-0.1+b1                  amd64        pager program similar to more
+ii  libacl1:amd64                 2.2.53-4                    amd64        access control list - shared library
+ii  libalgorithm-diff-perl        1.19.03-2                   all          module to find differences between files
+ii  libalgorithm-diff-xs-perl     0.04-5+b1                   amd64        module to find differences between files (XS accelerated)
+ii  libalgorithm-merge-perl       0.08-3                      all          Perl module for three-way merge of textual data
+ii  libapparmor1:amd64            2.13.2-10                   amd64        changehat AppArmor library
+ii  libappstream4:amd64           0.12.5-1                    amd64        Library to access AppStream services
+ii  libapt-inst2.0:amd64          1.8.2.3                     amd64        deb package format runtime library
+ii  libapt-pkg5.0:amd64           1.8.2.3                     amd64        package management runtime library
+ii  libargon2-1:amd64             0~20171227-0.2              amd64        memory-hard hashing function - runtime library
+ii  libasan5:amd64                8.3.0-6                     amd64        AddressSanitizer -- a fast memory error detector
+ii  libassuan0:amd64              2.5.2-1                     amd64        IPC library for the GnuPG components
+ii  libatomic1:amd64              8.3.0-6                     amd64        support library providing __atomic built-in functions
+ii  libattr1:amd64                1:2.4.48-4                  amd64        extended attribute handling - shared library
+ii  libaudit-common               1:2.8.4-3                   all          Dynamic library for security auditing - common files
+ii  libaudit1:amd64               1:2.8.4-3                   amd64        Dynamic library for security auditing
+ii  libbinutils:amd64             2.31.1-16                   amd64        GNU binary utilities (private shared library)
+ii  libblkid1:amd64               2.33.1-0.1                  amd64        block device ID library
+ii  libbsd0:amd64                 0.9.1-2+deb10u1             amd64        utility functions from BSD systems - shared library
+ii  libbz2-1.0:amd64              1.0.6-9.2~deb10u2           amd64        high-quality block-sorting file compressor library - runtime
+ii  libc-bin                      2.28-10+deb10u2             amd64        GNU C Library: Binaries
+ii  libc-dev-bin                  2.28-10+deb10u2             amd64        GNU C Library: Development binaries
+ii  libc6:amd64                   2.28-10+deb10u2             amd64        GNU C Library: Shared libraries
+ii  libc6-dev:amd64               2.28-10+deb10u2             amd64        GNU C Library: Development Libraries and Header Files
+ii  libcap-ng0:amd64              0.7.9-2                     amd64        An alternate POSIX capabilities library
+ii  libcap2:amd64                 1:2.25-2                    amd64        POSIX 1003.1e capabilities (library)
+ii  libcap2-bin                   1:2.25-2                    amd64        POSIX 1003.1e capabilities (utilities)
+ii  libcc1-0:amd64                8.3.0-6                     amd64        GCC cc1 plugin for GDB
+ii  libcom-err2:amd64             1.44.5-1+deb10u3            amd64        common error description library
+ii  libcroco3:amd64               0.6.12-3                    amd64        Cascading Style Sheet (CSS) parsing and manipulation toolkit
+ii  libcryptsetup12:amd64         2:2.1.0-5+deb10u2           amd64        disk encryption support - shared library
+ii  libcurl3-gnutls:amd64         7.64.0-4+deb10u5            amd64        easy-to-use client-side URL transfer library (GnuTLS flavour)
+ii  libcurl4:amd64                7.64.0-4+deb10u5            amd64        easy-to-use client-side URL transfer library (OpenSSL flavour)
+ii  libcurl4-openssl-dev:amd64    7.64.0-4+deb10u5            amd64        development files and documentation for libcurl (OpenSSL flavour)
+ii  libdb5.3:amd64                5.3.28+dfsg1-0.5            amd64        Berkeley v5.3 Database Libraries [runtime]
+ii  libdbus-1-3:amd64             1.12.24-0+deb10u1           amd64        simple interprocess messaging system (library)
+ii  libdebconfclient0:amd64       0.249                       amd64        Debian Configuration Management System (C-implementation library)
+ii  libdevmapper1.02.1:amd64      2:1.02.155-3                amd64        Linux Kernel Device Mapper userspace library
+ii  libdpkg-perl                  1.19.8                      all          Dpkg perl modules
+ii  libedit2:amd64                3.1-20181209-1              amd64        BSD editline and history libraries
+ii  libelf1:amd64                 0.176-1.1                   amd64        library to read and write ELF files
+ii  liberror-perl                 0.17027-2                   all          Perl module for error/exception handling in an OO-ish way
+ii  libexpat1:amd64               2.2.6-2+deb10u6             amd64        XML parsing C library - runtime library
+ii  libext2fs2:amd64              1.44.5-1+deb10u3            amd64        ext2/ext3/ext4 file system libraries
+ii  libfakeroot:amd64             1.23-1                      amd64        tool for simulating superuser privileges - shared libraries
+ii  libfdisk1:amd64               2.33.1-0.1                  amd64        fdisk partitioning library
+ii  libffi6:amd64                 3.2.1-9                     amd64        Foreign Function Interface library runtime
+ii  libfile-fcntllock-perl        0.22-3+b5                   amd64        Perl module for file locking with fcntl(2)
+ii  libgcc-8-dev:amd64            8.3.0-6                     amd64        GCC support library (development files)
+ii  libgcc1:amd64                 1:8.3.0-6                   amd64        GCC support library
+ii  libgcrypt20:amd64             1.8.4-5+deb10u1             amd64        LGPL Crypto library - runtime library
+ii  libgdbm-compat4:amd64         1.18.1-4                    amd64        GNU dbm database routines (legacy support runtime version) 
+ii  libgdbm6:amd64                1.18.1-4                    amd64        GNU dbm database routines (runtime version) 
+ii  libgirepository-1.0-1:amd64   1.58.3-2                    amd64        Library for handling GObject introspection data (runtime library)
+ii  libglib2.0-0:amd64            2.58.3-2+deb10u4            amd64        GLib library of C routines
+ii  libglib2.0-bin                2.58.3-2+deb10u4            amd64        Programs for the GLib library
+ii  libglib2.0-data               2.58.3-2+deb10u4            all          Common files for GLib library
+ii  libgmp10:amd64                2:6.1.2+dfsg-4+deb10u1      amd64        Multiprecision arithmetic library
+ii  libgnutls30:amd64             3.6.7-4+deb10u10            amd64        GNU TLS library - main runtime library
+ii  libgomp1:amd64                8.3.0-6                     amd64        GCC OpenMP (GOMP) support library
+ii  libgpg-error0:amd64           1.35-1                      amd64        GnuPG development runtime library
+ii  libgpm2:amd64                 1.20.7-5                    amd64        General Purpose Mouse - shared library
+ii  libgssapi-krb5-2:amd64        1.17-3+deb10u5              amd64        MIT Kerberos runtime libraries - krb5 GSS-API Mechanism
+ii  libgstreamer1.0-0:amd64       1.14.4-1                    amd64        Core GStreamer libraries and elements
+ii  libhogweed4:amd64             3.4.1-1+deb10u1             amd64        low level cryptographic library (public-key cryptos)
+ii  libicu63:amd64                63.1-6+deb10u3              amd64        International Components for Unicode
+ii  libidn11:amd64                1.33-2.2                    amd64        GNU Libidn library, implementation of IETF IDN specifications
+ii  libidn2-0:amd64               2.0.5-1+deb10u1             amd64        Internationalized domain names (IDNA2008/TR46) library
+ii  libip4tc0:amd64               1.8.2-4                     amd64        netfilter libip4tc library
+ii  libip6tc0:amd64               1.8.2-4                     amd64        netfilter libip6tc library
+ii  libiptc0:amd64                1.8.2-4                     amd64        netfilter libiptc library
+ii  libisl19:amd64                0.20-2                      amd64        manipulating sets and relations of integer points bounded by linear constraints
+ii  libitm1:amd64                 8.3.0-6                     amd64        GNU Transactional Memory Library
+ii  libjansson4:amd64             2.12-1                      amd64        C library for encoding, decoding and manipulating JSON data
+ii  libjq1:amd64                  1.5+dfsg-2+b1               amd64        lightweight and flexible command-line JSON processor - shared library
+ii  libjson-c3:amd64              0.12.1+ds-2+deb10u1         amd64        JSON manipulation library - shared library
+ii  libk5crypto3:amd64            1.17-3+deb10u5              amd64        MIT Kerberos runtime libraries - Crypto Library
+ii  libkeyutils1:amd64            1.6-6                       amd64        Linux Key Management Utilities (library)
+ii  libkmod2:amd64                26-1                        amd64        libkmod shared library
+ii  libkrb5-3:amd64               1.17-3+deb10u5              amd64        MIT Kerberos runtime libraries
+ii  libkrb5support0:amd64         1.17-3+deb10u5              amd64        MIT Kerberos runtime libraries - Support library
+ii  libksba8:amd64                1.3.5-2+deb10u2             amd64        X.509 and CMS support library
+ii  libldap-2.4-2:amd64           2.4.47+dfsg-3+deb10u7       amd64        OpenLDAP libraries
+ii  libldap-common                2.4.47+dfsg-3+deb10u7       all          OpenLDAP common files for libraries
+ii  liblocale-gettext-perl        1.07-3+b4                   amd64        module using libc functions for internationalization in Perl
+ii  liblsan0:amd64                8.3.0-6                     amd64        LeakSanitizer -- a memory leak detector (runtime)
+ii  libltdl7:amd64                2.4.6-9                     amd64        System independent dlopen wrapper for GNU libtool
+ii  liblttng-ust-ctl4:amd64       2.10.3-1                    amd64        LTTng 2.0 Userspace Tracer (trace control library)
+ii  liblttng-ust0:amd64           2.10.3-1                    amd64        LTTng 2.0 Userspace Tracer (tracing libraries)
+ii  liblz4-1:amd64                1.8.3-1+deb10u1             amd64        Fast LZ compression algorithm library - runtime
+ii  liblzma5:amd64                5.2.4-1+deb10u1             amd64        XZ-format compression library
+ii  libmagic-mgc                  1:5.35-4+deb10u2            amd64        File type determination library using "magic" numbers (compiled magic file)
+ii  libmagic1:amd64               1:5.35-4+deb10u2            amd64        Recognize the type of data in a file using "magic" numbers - library
+ii  libmnl0:amd64                 1.0.4-2                     amd64        minimalistic Netlink communication library
+ii  libmount1:amd64               2.33.1-0.1                  amd64        device mounting library
+ii  libmpc3:amd64                 1.1.0-1                     amd64        multiple precision complex floating-point library
+ii  libmpdec2:amd64               2.4.2-2                     amd64        library for decimal floating point arithmetic (runtime library)
+ii  libmpfr6:amd64                4.0.2-1                     amd64        multiple precision floating-point computation
+ii  libmpx2:amd64                 8.3.0-6                     amd64        Intel memory protection extensions (runtime)
+ii  libncurses6:amd64             6.1+20181013-2+deb10u3      amd64        shared libraries for terminal handling
+ii  libncursesw6:amd64            6.1+20181013-2+deb10u3      amd64        shared libraries for terminal handling (wide character support)
+ii  libnetfilter-conntrack3:amd64 1.0.7-1                     amd64        Netfilter netlink-conntrack library
+ii  libnettle6:amd64              3.4.1-1+deb10u1             amd64        low level cryptographic library (symmetric and one-way cryptos)
+ii  libnfnetlink0:amd64           1.0.1-3+b1                  amd64        Netfilter netlink library
+ii  libnftables0:amd64            0.9.0-2                     amd64        Netfilter nftables high level userspace API library
+ii  libnftnl11:amd64              1.1.2-2                     amd64        Netfilter nftables userspace API library
+ii  libnghttp2-14:amd64           1.36.0-2+deb10u1            amd64        library implementing HTTP/2 protocol (shared library)
+ii  libnpth0:amd64                1.6-1                       amd64        replacement for GNU Pth using system threads
+ii  libnss-systemd:amd64          241-7~deb10u9               amd64        nss module providing dynamic user and group name resolution
+ii  libonig5:amd64                6.9.1-1                     amd64        regular expressions library
+ii  libp11-kit0:amd64             0.23.15-2+deb10u1           amd64        library for loading and coordinating access to PKCS#11 modules - runtime
+ii  libpackagekit-glib2-18:amd64  1.1.12-5                    amd64        Library for accessing PackageKit using GLib
+ii  libpam-cap:amd64              1:2.25-2                    amd64        POSIX 1003.1e capabilities (PAM module)
+ii  libpam-modules:amd64          1.3.1-5                     amd64        Pluggable Authentication Modules for PAM
+ii  libpam-modules-bin            1.3.1-5                     amd64        Pluggable Authentication Modules for PAM - helper binaries
+ii  libpam-runtime                1.3.1-5                     all          Runtime support for the PAM library
+ii  libpam-systemd:amd64          241-7~deb10u9               amd64        system and service manager - PAM module
+ii  libpam0g:amd64                1.3.1-5                     amd64        Pluggable Authentication Modules library
+ii  libpcre2-8-0:amd64            10.32-5+deb10u1             amd64        New Perl Compatible Regular Expression Library- 8 bit runtime files
+ii  libpcre3:amd64                2:8.39-12                   amd64        Old Perl 5 Compatible Regular Expression Library - runtime files
+ii  libperl5.28:amd64             5.28.1-6+deb10u1            amd64        shared Perl library
+ii  libpolkit-agent-1-0:amd64     0.105-25+deb10u1            amd64        PolicyKit Authentication Agent API
+ii  libpolkit-backend-1-0:amd64   0.105-25+deb10u1            amd64        PolicyKit backend API
+ii  libpolkit-gobject-1-0:amd64   0.105-25+deb10u1            amd64        PolicyKit Authorization API
+ii  libprocps7:amd64              2:3.3.15-2                  amd64        library for accessing process information from /proc
+ii  libpsl5:amd64                 0.20.2-2                    amd64        Library for Public Suffix List (shared libraries)
+ii  libpython-stdlib:amd64        2.7.16-1                    amd64        interactive high-level object-oriented language (Python2)
+ii  libpython2-stdlib:amd64       2.7.16-1                    amd64        interactive high-level object-oriented language (Python2)
+ii  libpython2.7-minimal:amd64    2.7.16-2+deb10u1            amd64        Minimal subset of the Python language (version 2.7)
+ii  libpython2.7-stdlib:amd64     2.7.16-2+deb10u1            amd64        Interactive high-level object-oriented language (standard library, version 2.7)
+ii  libpython3-stdlib:amd64       3.7.3-1                     amd64        interactive high-level object-oriented language (default python3 version)
+ii  libpython3.7-minimal:amd64    3.7.3-2+deb10u4             amd64        Minimal subset of the Python language (version 3.7)
+ii  libpython3.7-stdlib:amd64     3.7.3-2+deb10u4             amd64        Interactive high-level object-oriented language (standard library, version 3.7)
+ii  libquadmath0:amd64            8.3.0-6                     amd64        GCC Quad-Precision Math Library
+ii  libreadline7:amd64            7.0-5                       amd64        GNU readline and history libraries, run-time libraries
+ii  librtmp1:amd64                2.4+20151223.gitfa8646d.1-2 amd64        toolkit for RTMP streams (shared library)
+ii  libsasl2-2:amd64              2.1.27+dfsg-1+deb10u2       amd64        Cyrus SASL - authentication abstraction library
+ii  libsasl2-modules:amd64        2.1.27+dfsg-1+deb10u2       amd64        Cyrus SASL - pluggable authentication modules
+ii  libsasl2-modules-db:amd64     2.1.27+dfsg-1+deb10u2       amd64        Cyrus SASL - pluggable authentication modules (DB)
+ii  libseccomp2:amd64             2.3.3-4                     amd64        high level interface to Linux seccomp filter
+ii  libselinux1:amd64             2.8-1+b1                    amd64        SELinux runtime shared libraries
+ii  libsemanage-common            2.8-2                       all          Common files for SELinux policy management libraries
+ii  libsemanage1:amd64            2.8-2                       amd64        SELinux policy management library
+ii  libsepol1:amd64               2.8-1                       amd64        SELinux library for manipulating binary security policies
+ii  libsmartcols1:amd64           2.33.1-0.1                  amd64        smart column output alignment library
+ii  libsqlite3-0:amd64            3.27.2-3+deb10u2            amd64        SQLite 3 shared library
+ii  libss2:amd64                  1.44.5-1+deb10u3            amd64        command-line interface parsing library
+ii  libssh2-1:amd64               1.8.0-2.1                   amd64        SSH2 client-side library
+ii  libssl1.1:amd64               1.1.1n-0+deb10u4            amd64        Secure Sockets Layer toolkit - shared libraries
+ii  libstdc++-8-dev:amd64         8.3.0-6                     amd64        GNU Standard C++ Library v3 (development files)
+ii  libstdc++6:amd64              8.3.0-6                     amd64        GNU Standard C++ Library v3
+ii  libstemmer0d:amd64            0+svn585-1+b2               amd64        Snowball stemming algorithms for use in Information Retrieval
+ii  libsystemd0:amd64             241-7~deb10u9               amd64        systemd utility library
+ii  libtasn1-6:amd64              4.13-3+deb10u1              amd64        Manage ASN.1 structures (runtime)
+ii  libtinfo6:amd64               6.1+20181013-2+deb10u3      amd64        shared low-level terminfo library for terminal handling
+ii  libtsan0:amd64                8.3.0-6                     amd64        ThreadSanitizer -- a Valgrind-based detector of data races (runtime)
+ii  libubsan1:amd64               8.3.0-6                     amd64        UBSan -- undefined behaviour sanitizer (runtime)
+ii  libudev1:amd64                241-7~deb10u8               amd64        libudev shared library
+ii  libunistring2:amd64           0.9.10-1                    amd64        Unicode string library for C
+ii  liburcu6:amd64                0.10.2-1                    amd64        userspace RCU (read-copy-update) library
+ii  libuuid1:amd64                2.33.1-0.1                  amd64        Universally Unique ID library
+ii  libx11-6:amd64                2:1.6.7-1+deb10u2           amd64        X11 client-side library
+ii  libx11-data                   2:1.6.7-1+deb10u2           all          X11 client-side library
+ii  libxau6:amd64                 1:1.0.8-1+b2                amd64        X11 authorisation library
+ii  libxcb1:amd64                 1.13.1-2                    amd64        X C Binding
+ii  libxdmcp6:amd64               1:1.1.2-3                   amd64        X11 Display Manager Control Protocol library
+ii  libxext6:amd64                2:1.3.3-1+b2                amd64        X11 miscellaneous extension library
+ii  libxml2:amd64                 2.9.4+dfsg1-7+deb10u5       amd64        GNOME XML library
+ii  libxmuu1:amd64                2:1.1.2-2+b3                amd64        X11 miscellaneous micro-utility library
+ii  libxtables12:amd64            1.8.2-4                     amd64        netfilter xtables library
+ii  libyaml-0-2:amd64             0.2.1-1                     amd64        Fast YAML 1.1 parser and emitter library
+ii  libzstd1:amd64                1.3.8+dfsg-3+deb10u2        amd64        fast lossless compression algorithm
+ii  linux-libc-dev:amd64          4.19.269-1                  amd64        Linux support headers for userspace development
+ii  login                         1:4.5-1.1                   amd64        system login tools
+ii  lsb-base                      10.2019051400               all          Linux Standard Base init script functionality
+ii  lsb-release                   10.2019051400               all          Linux Standard Base version reporting utility
+ii  make                          4.2.1-1.2                   amd64        utility for directing compilation
+ii  manpages                      4.16-2                      all          Manual pages about using a GNU/Linux system
+ii  manpages-dev                  4.16-2                      all          Manual pages about using GNU/Linux for development
+ii  mawk                          1.3.3-17+b3                 amd64        a pattern scanning and text processing language
+ii  mime-support                  3.62                        all          MIME files 'mime.types' & 'mailcap', and support programs
+ii  mount                         2.33.1-0.1                  amd64        tools for mounting and manipulating filesystems
+ii  ncurses-base                  6.1+20181013-2+deb10u3      all          basic terminal type definitions
+ii  ncurses-bin                   6.1+20181013-2+deb10u3      amd64        terminal-related programs and man pages
+ii  netbase                       5.6                         all          Basic TCP/IP networking system
+ii  nftables                      0.9.0-2                     amd64        Program to control packet filtering rules by Netfilter project
+ii  openssh-client                1:7.9p1-10+deb10u2          amd64        secure shell (SSH) client, for secure access to remote machines
+ii  openssl                       1.1.1n-0+deb10u4            amd64        Secure Sockets Layer toolkit - cryptographic utility
+ii  packagekit                    1.1.12-5                    amd64        Provides a package management service
+ii  packagekit-tools              1.1.12-5                    amd64        Provides PackageKit command-line tools
+ii  passwd                        1:4.5-1.1                   amd64        change and administer password and group data
+ii  patch                         2.7.6-3+deb10u1             amd64        Apply a diff file to an original
+ii  perl                          5.28.1-6+deb10u1            amd64        Larry Wall's Practical Extraction and Report Language
+ii  perl-base                     5.28.1-6+deb10u1            amd64        minimal Perl system
+ii  perl-modules-5.28             5.28.1-6+deb10u1            all          Core Perl modules
+ii  pigz                          2.4-1                       amd64        Parallel Implementation of GZip
+ii  pinentry-curses               1.1.0-2                     amd64        curses-based PIN or pass-phrase entry dialog for GnuPG
+ii  policykit-1                   0.105-25+deb10u1            amd64        framework for managing administrative policies and privileges
+ii  procps                        2:3.3.15-2                  amd64        /proc file system utilities
+ii  psmisc                        23.2-1+deb10u1              amd64        utilities that use the proc file system
+ii  publicsuffix                  20220811.1734-0+deb10u1     all          accurate, machine-readable list of domain name suffixes
+ii  python                        2.7.16-1                    amd64        interactive high-level object-oriented language (Python2 version)
+ii  python-apt-common             1.8.4.3                     all          Python interface to libapt-pkg (locales)
+ii  python-meld3                  1.0.2-2                     all          HTML/XML templating system for Python
+ii  python-minimal                2.7.16-1                    amd64        minimal subset of the Python2 language
+ii  python-pkg-resources          40.8.0-1                    all          Package Discovery and Resource Access using pkg_resources
+ii  python2                       2.7.16-1                    amd64        interactive high-level object-oriented language (Python2 version)
+ii  python2-minimal               2.7.16-1                    amd64        minimal subset of the Python2 language
+ii  python2.7                     2.7.16-2+deb10u1            amd64        Interactive high-level object-oriented language (version 2.7)
+ii  python2.7-minimal             2.7.16-2+deb10u1            amd64        Minimal subset of the Python language (version 2.7)
+ii  python3                       3.7.3-1                     amd64        interactive high-level object-oriented language (default python3 version)
+ii  python3-apt                   1.8.4.3                     amd64        Python 3 interface to libapt-pkg
+ii  python3-dbus                  1.2.8-3                     amd64        simple interprocess messaging system (Python 3 interface)
+ii  python3-distro-info           0.21                        all          information about distributions' releases (Python 3 module)
+ii  python3-gi                    3.30.4-1                    amd64        Python 3 bindings for gobject-introspection libraries
+ii  python3-minimal               3.7.3-1                     amd64        minimal subset of the Python language (default python3 version)
+ii  python3-pycurl                7.43.0.2-0.1                amd64        Python bindings to libcurl (Python 3)
+ii  python3-software-properties   0.96.20.2-2                 all          manage the repositories that you install software from
+ii  python3.7                     3.7.3-2+deb10u4             amd64        Interactive high-level object-oriented language (version 3.7)
+ii  python3.7-minimal             3.7.3-2+deb10u4             amd64        Minimal subset of the Python language (version 3.7)
+ii  readline-common               7.0-5                       all          GNU readline and history libraries, common files
+ii  sed                           4.7-1                       amd64        GNU stream editor for filtering/transforming text
+ii  sensible-utils                0.0.12                      all          Utilities for sensible alternative selection
+ii  shared-mime-info              1.10-1                      amd64        FreeDesktop.org shared MIME database and spec
+ii  software-properties-common    0.96.20.2-2                 all          manage the repositories that you install software from (common)
+ii  sudo                          1.8.27-1+deb10u5            amd64        Provide limited super user privileges to specific users
+ii  supervisor                    3.3.5-1                     all          System for controlling process state
+ii  systemd                       241-7~deb10u9               amd64        system and service manager
+ii  systemd-sysv                  241-7~deb10u9               amd64        system and service manager - SysV links
+ii  sysvinit-utils                2.93-8                      amd64        System-V-like utilities
+ii  tar                           1.30+dfsg-6                 amd64        GNU version of the tar archiving utility
+ii  tzdata                        2021a-0+deb10u8             all          time zone and daylight-saving time data
+ii  ucf                           3.0038+nmu1                 all          Update Configuration File(s): preserve user changes to config files
+ii  unattended-upgrades           1.11.2                      all          automatic installation of security upgrades
+ii  unzip                         6.0-23+deb10u3              amd64        De-archiver for .zip files
+ii  util-linux                    2.33.1-0.1                  amd64        miscellaneous system utilities
+ii  xauth                         1:1.0.10-1                  amd64        X authentication utility
+ii  xdg-user-dirs                 0.17-2                      amd64        tool to manage well known user directories
+ii  xz-utils                      5.2.4-1+deb10u1             amd64        XZ-format compression utilities
+ii  zlib1g:amd64                  1:1.2.11.dfsg-1+deb10u2     amd64        compression library - runtime
+ii  zlib1g-dev:amd64              1:1.2.11.dfsg-1+deb10u2     amd64        compression library - development
+/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin
+/usr/bin/python
+Python 3.7.3
+curl 7.64.0 (x86_64-pc-linux-gnu) libcurl/7.64.0 OpenSSL/1.1.1n zlib/1.2.11 libidn2/2.0.5 libpsl/0.20.2 (+libidn2/2.0.5) libssh2/1.8.0 nghttp2/1.36.0 librtmp/2.3
+

₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file02.html b/identition/folder3/file02.html new file mode 100644 index 00000000..f51277d8 --- /dev/null +++ b/identition/folder3/file02.html @@ -0,0 +1,1043 @@ + Binary · ₠Quantum

Binary

Once the System Properties window opens, click on the "Environment Variables" button. In the "System Variables" box, look for a variable called Path. see all executables in your PATH on your system, and all aliases, all sorted

$ find ${PATH//:/ } -maxdepth 1 -executable | sort
+
+/bin
+/bin/bash
+/bin/bunzip2
+/bin/bzcat
+/bin/bzcmp
+/bin/bzdiff
+/bin/bzegrep
+/bin/bzexe
+/bin/bzfgrep
+/bin/bzgrep
+/bin/bzip2
+/bin/bzip2recover
+/bin/bzless
+/bin/bzmore
+/bin/cat
+/bin/chgrp
+/bin/chmod
+/bin/chown
+/bin/cp
+/bin/dash
+/bin/date
+/bin/dd
+/bin/df
+/bin/dir
+/bin/dmesg
+/bin/dnsdomainname
+/bin/domainname
+/bin/echo
+/bin/egrep
+/bin/false
+/bin/fgrep
+/bin/findmnt
+/bin/fuser
+/bin/grep
+/bin/gunzip
+/bin/gzexe
+/bin/gzip
+/bin/hostname
+/bin/journalctl
+/bin/kill
+/bin/less
+/bin/lessecho
+/bin/lessfile
+/bin/lesskey
+/bin/lesspipe
+/bin/ln
+/bin/login
+/bin/loginctl
+/bin/ls
+/bin/lsblk
+/bin/mkdir
+/bin/mknod
+/bin/mktemp
+/bin/more
+/bin/mount
+/bin/mountpoint
+/bin/mv
+/bin/networkctl
+/bin/nisdomainname
+/bin/pidof
+/bin/ping
+/bin/ping4
+/bin/ping6
+/bin/ps
+/bin/pwd
+/bin/rbash
+/bin/readlink
+/bin/rm
+/bin/rmdir
+/bin/run-parts
+/bin/sed
+/bin/sh
+/bin/sleep
+/bin/stty
+/bin/su
+/bin/sync
+/bin/systemctl
+/bin/systemd
+/bin/systemd-ask-password
+/bin/systemd-escape
+/bin/systemd-inhibit
+/bin/systemd-machine-id-setup
+/bin/systemd-notify
+/bin/systemd-sysusers
+/bin/systemd-tmpfiles
+/bin/systemd-tty-ask-password-agent
+/bin/tar
+/bin/tempfile
+/bin/touch
+/bin/true
+/bin/umount
+/bin/uname
+/bin/uncompress
+/bin/vdir
+/bin/wdctl
+/bin/which
+/bin/ypdomainname
+/bin/zcat
+/bin/zcmp
+/bin/zdiff
+/bin/zegrep
+/bin/zfgrep
+/bin/zforce
+/bin/zgrep
+/bin/zless
+/bin/zmore
+/bin/znew
+/sbin
+/sbin/agetty
+/sbin/apparmor_parser
+/sbin/badblocks
+/sbin/blkdeactivate
+/sbin/blkdiscard
+/sbin/blkid
+/sbin/blkzone
+/sbin/blockdev
+/sbin/capsh
+/sbin/cfdisk
+/sbin/chcpu
+/sbin/ctrlaltdel
+/sbin/debugfs
+/sbin/dmsetup
+/sbin/dmstats
+/sbin/dumpe2fs
+/sbin/e2fsck
+/sbin/e2image
+/sbin/e2label
+/sbin/e2mmpstatus
+/sbin/e2undo
+/sbin/fdisk
+/sbin/findfs
+/sbin/fsck
+/sbin/fsck.cramfs
+/sbin/fsck.ext2
+/sbin/fsck.ext3
+/sbin/fsck.ext4
+/sbin/fsck.minix
+/sbin/fsfreeze
+/sbin/fstab-decode
+/sbin/fstrim
+/sbin/getcap
+/sbin/getpcaps
+/sbin/getty
+/sbin/halt
+/sbin/hwclock
+/sbin/init
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+/usr/bin/ssh-keygen
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+/usr/bin/systemd-id128
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+/usr/bin/x86_64-linux-gnu-c++filt
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+/usr/bin/x86_64-linux-gnu-cpp-8
+/usr/bin/x86_64-linux-gnu-dwp
+/usr/bin/x86_64-linux-gnu-elfedit
+/usr/bin/x86_64-linux-gnu-g++
+/usr/bin/x86_64-linux-gnu-g++-8
+/usr/bin/x86_64-linux-gnu-gcc
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+/usr/bin/x86_64-linux-gnu-gcc-nm
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+/usr/bin/x86_64-linux-gnu-gcc-ranlib
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+/usr/bin/x86_64-linux-gnu-gcov
+/usr/bin/x86_64-linux-gnu-gcov-8
+/usr/bin/x86_64-linux-gnu-gcov-dump
+/usr/bin/x86_64-linux-gnu-gcov-dump-8
+/usr/bin/x86_64-linux-gnu-gcov-tool
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+/usr/bin/zipgrep
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+/usr/local/bin
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+/usr/local/sbin
+/usr/sbin
+/usr/sbin/aa-remove-unknown
+/usr/sbin/aa-status
+/usr/sbin/aa-teardown
+/usr/sbin/add-shell
+/usr/sbin/addgnupghome
+/usr/sbin/addgroup
+/usr/sbin/adduser
+/usr/sbin/apparmor_status
+/usr/sbin/applygnupgdefaults
+/usr/sbin/arptables
+/usr/sbin/arptables-nft
+/usr/sbin/arptables-nft-restore
+/usr/sbin/arptables-nft-save
+/usr/sbin/arptables-restore
+/usr/sbin/arptables-save
+/usr/sbin/chgpasswd
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+/usr/sbin/e2freefrag
+/usr/sbin/e4crypt
+/usr/sbin/e4defrag
+/usr/sbin/ebtables
+/usr/sbin/ebtables-nft
+/usr/sbin/ebtables-nft-restore
+/usr/sbin/ebtables-nft-save
+/usr/sbin/ebtables-restore
+/usr/sbin/ebtables-save
+/usr/sbin/fdformat
+/usr/sbin/filefrag
+/usr/sbin/groupadd
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+/usr/sbin/iconvconfig
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+/usr/sbin/ip6tables
+/usr/sbin/ip6tables-apply
+/usr/sbin/ip6tables-legacy
+/usr/sbin/ip6tables-legacy-restore
+/usr/sbin/ip6tables-legacy-save
+/usr/sbin/ip6tables-nft
+/usr/sbin/ip6tables-nft-restore
+/usr/sbin/ip6tables-nft-save
+/usr/sbin/ip6tables-restore
+/usr/sbin/ip6tables-restore-translate
+/usr/sbin/ip6tables-save
+/usr/sbin/ip6tables-translate
+/usr/sbin/iptables
+/usr/sbin/iptables-apply
+/usr/sbin/iptables-legacy
+/usr/sbin/iptables-legacy-restore
+/usr/sbin/iptables-legacy-save
+/usr/sbin/iptables-nft
+/usr/sbin/iptables-nft-restore
+/usr/sbin/iptables-nft-save
+/usr/sbin/iptables-restore
+/usr/sbin/iptables-restore-translate
+/usr/sbin/iptables-save
+/usr/sbin/iptables-translate
+/usr/sbin/ldattach
+/usr/sbin/mklost+found
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+/usr/sbin/readprofile
+/usr/sbin/remove-shell
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+/usr/sbin/rtcwake
+/usr/sbin/service
+/usr/sbin/tarcat
+/usr/sbin/tzconfig
+/usr/sbin/update-ca-certificates
+/usr/sbin/update-mime
+/usr/sbin/update-passwd
+/usr/sbin/update-rc.d
+/usr/sbin/useradd
+/usr/sbin/userdel
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+/usr/sbin/vigr
+/usr/sbin/vipw
+/usr/sbin/visudo
+/usr/sbin/xtables-legacy-multi
+/usr/sbin/xtables-monitor
+/usr/sbin/xtables-nft-multi
+/usr/sbin/zic
+

This was mostly a fun exercise for myself to see if it could be done using one line of Python code without resorting to using the exec function. In a more readable form, and with some comments, the code looks like this:

import os
+import sys
+
+# This is just to have a function to output something on the screen.
+# I'm using Python 2.7 in which 'print' is not a function and cannot
+# be used in the 'map' function.
+output = lambda(x) : sys.stdout.write(x + "\n")
+
+# Get a list of the components in the PATH environment variable. Will
+# abort the program is PATH doesn't exist
+paths = os.environ["PATH"].split(":")
+
+# os.listdir raises an error is something is not a path so I'm creating
+# a small function that only executes it if 'p' is a directory
+listdir = lambda(p) : os.listdir(p) if os.path.isdir(p) else [ ]
+
+# Checks if the path specified by x[0] and x[1] is a file
+isfile = lambda(x) : True if os.path.isfile(os.path.join(x[0],x[1])) else False
+
+# Checks if the path specified by x[0] and x[1] has the executable flag set
+isexe = lambda(x) : True if os.access(os.path.join(x[0],x[1]), os.X_OK) else False
+
+# Here, I'm using a list comprehension to build a list of all executable files
+# in the PATH, and abusing the map function to write every name in the resulting
+# list to the screen.
+map(output, [ os.path.join(p,f) for p in paths for f in listdir(p) if isfile((p,f)) and isexe((p,f)) ])
+

If you can run Python 2 in your shell, the following (ridiculously long) one-liner can be used as well:

$ python2 -c 'import os;import sys;output = lambda(x) : sys.stdout.write(x + "\n"); paths = os.environ["PATH"].split(":") ; listdir = lambda(p) : os.listdir(p) if os.path.isdir(p) else [ ] ; isfile = lambda(x) : True if os.path.isfile(os.path.join(x[0],x[1])) else False ; isexe = lambda(x) : True if os.access(os.path.join(x[0],x[1]), os.X_OK) else False ; map(output,[ os.path.join(p,f) for p in paths for f in listdir(p) if isfile((p,f)) and isexe((p,f)) ])'
+

Packages

If we need to list the installed packages in the Python shell, For terminal I recommend help("modules") or python -c "help(‘modules')".

$ python3.7 -c 'help("modules")'
+
+Please wait a moment while I gather a list of all available modules...
+
+__future__          _tracemalloc        getopt              rlcompleter
+_abc                _uuid               getpass             runpy
+_ast                _warnings           gettext             sched
+_asyncio            _weakref            gi                  secrets
+_bisect             _weakrefset         glob                select
+_blake2             _xxtestfuzz         grp                 selectors
+_bootlocale         abc                 gzip                shelve
+_bz2                aifc                hashlib             shlex
+_codecs             antigravity         heapq               shutil
+_codecs_cn          apt                 hmac                signal
+_codecs_hk          apt_inst            html                site
+_codecs_iso2022     apt_pkg             http                sitecustomize
+_codecs_jp          aptsources          imaplib             smtpd
+_codecs_kr          argparse            imghdr              smtplib
+_codecs_tw          array               imp                 sndhdr
+_collections        ast                 importlib           socket
+_collections_abc    asynchat            inspect             socketserver
+_compat_pickle      asyncio             io                  softwareproperties
+_compression        asyncore            ipaddress           spwd
+_contextvars        atexit              itertools           sqlite3
+_crypt              audioop             json                sre_compile
+_csv                base64              keyword             sre_constants
+_ctypes             bdb                 linecache           sre_parse
+_ctypes_test        binascii            locale              ssl
+_curses             binhex              logging             stat
+_curses_panel       bisect              lsb_release         statistics
+_datetime           builtins            lzma                string
+_dbm                bz2                 macpath             stringprep
+_dbus_bindings      cProfile            mailbox             struct
+_dbus_glib_bindings calendar            mailcap             subprocess
+_decimal            cgi                 marshal             sunau
+_dummy_thread       cgitb               math                symbol
+_elementtree        chunk               mimetypes           symtable
+_functools          cmath               mmap                sys
+_hashlib            cmd                 modulefinder        sysconfig
+_heapq              code                multiprocessing     syslog
+_imp                codecs              netrc               tabnanny
+_io                 codeop              nis                 tarfile
+_json               collections         nntplib             telnetlib
+_locale             colorsys            ntpath              tempfile
+_lsprof             compileall          nturl2path          termios
+_lzma               concurrent          numbers             test
+_markupbase         configparser        opcode              textwrap
+_md5                contextlib          operator            this
+_multibytecodec     contextvars         optparse            threading
+_multiprocessing    copy                os                  time
+_opcode             copyreg             ossaudiodev         timeit
+_operator           crypt               parser              token
+_osx_support        csv                 pathlib             tokenize
+_pickle             ctypes              pdb                 trace
+_posixsubprocess    curl                pickle              traceback
+_py_abc             curses              pickletools         tracemalloc
+_pydecimal          dataclasses         pipes               tty
+_pyio               datetime            pkgutil             turtle
+_queue              dbm                 platform            types
+_random             dbus                plistlib            typing
+_sha1               decimal             poplib              unicodedata
+_sha256             difflib             posix               unittest
+_sha3               dis                 posixpath           urllib
+_sha512             distro_info         pprint              uu
+_signal             distutils           profile             uuid
+_sitebuiltins       doctest             pstats              venv
+_socket             dummy_threading     pty                 warnings
+_sqlite3            email               pwd                 wave
+_sre                encodings           py_compile          weakref
+_ssl                enum                pyclbr              webbrowser
+_stat               errno               pycurl              wsgiref
+_string             faulthandler        pydoc               xdrlib
+_strptime           fcntl               pydoc_data          xml
+_struct             filecmp             pyexpat             xmlrpc
+_symtable           fileinput           pygtkcompat         xxlimited
+_sysconfigdata_m_linux_x86_64-linux-gnu fnmatch             queue
+_testbuffer         formatter           quopri              zipapp
+_testcapi           fractions           random              zipfile
+_testimportmultiple ftplib              re                  zipimport
+_testmultiphase     functools           readline            zlib
+_thread             gc                  reprlib             xxsubtype
+_threading_local    genericpath         resource
+
+Enter any module name to get more help.  Or, type "modules spam" to search
+for modules whose name or summary contain the string "spam".
+

I'm comparing five methods to retrieve installed "modules", all of which I've seen in this thread

                                iter_modules help("modules") builtin_module_names pip list working_set
+Includes distributions               ❌            ❌                ❌               ✔️         ✔️
+Includes modules (No built-in)       ✔️            ✔️                ❌               ❌         ❌
+Includes built-in modules            ❌            ✔️                ✔️               ❌         ❌
+Includes frozen                      ✔️            ✔️                ❌               ❌         ❌
+Includes venv                        ✔️            ✔️                ❌               ✔️         ✔️
+Includes global	                     ✔️            ✔️                ❌               ✔️         ✔️
+Includes editable installs           ✔️            ✔️                ❌               ✔️         ✔️
+Includes PyCharm helpers             ✔️            ❌                ❌               ❌         ❌
+Lowers capital letters               ❌            ❌                ❌               ❌         ✔️
+Time taken (665 modules total)    53.7 msec    1.03 sec           577 nsec         284 msec  36.2 usec
+

For programmatically I recommend iter_modules + builtin_module_names to pluck the module name out of the tuples generated by pkgutil.iter_modules() It is however very convoluted with information

$ python -c 'import pkgutil;print [x[1] for x in list(pkgutil.iter_modules())]'
+
+['BaseHTTPServer', 'Bastion', 'CGIHTTPServer', 'ConfigParser', 'Cookie', 'DocXMLRPCServer', 'HTMLParser', 
+'MimeWriter', 'Queue', 'SimpleHTTPServer', 'SimpleXMLRPCServer', 'SocketServer', 'StringIO', 'UserDict', 
+'UserList', 'UserString', '_LWPCookieJar', '_MozillaCookieJar', '__future__', '_abcoll', '_osx_support', 
+'_pyio', '_strptime', '_sysconfigdata', '_threading_local', '_weakrefset', 'abc', 'aifc', 'antigravity', 
+'anydbm', 'argparse', 'ast', 'asynchat', 'asyncore', 'atexit', 'audiodev', 'base64', 'bdb', 'binhex', 
+'bisect', 'bsddb', 'cProfile', 'calendar', 'cgi', 'cgitb', 'chunk', 'cmd', 'code', 'codecs', 'codeop', 
+'collections', 'colorsys', 'commands', 'compileall', 'compiler', 'contextlib', 'cookielib', 'copy', 
+'copy_reg', 'csv', 'ctypes', 'curses', 'dbhash', 'decimal', 'difflib', 'dircache', 'dis', 'distutils', 
+'doctest', 'dumbdbm', 'dummy_thread', 'dummy_threading', 'email', 'encodings', 'ensurepip', 'filecmp', 
+'fileinput', 'fnmatch', 'formatter', 'fpformat', 'fractions', 'ftplib', 'functools', 'genericpath', 
+'getopt', 'getpass', 'gettext', 'glob', 'gzip', 'hashlib', 'heapq', 'hmac', 'hotshot', 'htmlentitydefs', 
+'htmllib', 'httplib', 'ihooks', 'imaplib', 'imghdr', 'importlib', 'imputil', 'inspect', 'io', 'json', 
+'keyword', 'lib2to3', 'linecache', 'locale', 'logging', 'macpath', 'macurl2path', 'mailbox', 'mailcap', 
+'markupbase', 'md5', 'mhlib', 'mimetools', 'mimetypes', 'mimify', 'modulefinder', 'multifile', 
+'multiprocessing', 'mutex', 'netrc', 'new', 'nntplib', 'ntpath', 'nturl2path', 'numbers', 'opcode', 
+'optparse', 'os', 'os2emxpath', 'pdb', 'pickle', 'pickletools', 'pipes', 'pkgutil', 'platform', 
+'plistlib', 'popen2', 'poplib', 'posixfile', 'posixpath', 'pprint', 'profile', 'pstats', 'pty', 
+'py_compile', 'pyclbr', 'pydoc', 'pydoc_data', 'quopri', 'random', 're', 'repr', 'rexec', 'rfc822', 
+'rlcompleter', 'robotparser', 'runpy', 'sched', 'sets', 'sgmllib', 'sha', 'shelve', 'shlex', 'shutil', 
+'site', 'sitecustomize', 'smtpd', 'smtplib', 'sndhdr', 'socket', 'sqlite3', 'sre', 'sre_compile', 
+'sre_constants', 'sre_parse', 'ssl', 'stat', 'statvfs', 'string', 'stringold', 'stringprep', 'struct', 
+'subprocess', 'sunau', 'sunaudio', 'symbol', 'symtable', 'sysconfig', 'tabnanny', 'tarfile', 'telnetlib', 
+'tempfile', 'test', 'textwrap', 'this', 'threading', 'timeit', 'toaiff', 'token', 'tokenize', 'trace', 
+'traceback', 'tty', 'types', 'unittest', 'urllib', 'urllib2', 'urlparse', 'user', 'uu', 'uuid', 'warnings', 
+'wave', 'weakref', 'webbrowser', 'whichdb', 'wsgiref', 'xdrlib', 'xml', 'xmllib', 'xmlrpclib', 'zipfile', 
+'CDROM', 'DLFCN', 'IN', 'TYPES', '_sysconfigdata_nd', 'Canvas', 'Dialog', 'FileDialog', 'FixTk', 
+'ScrolledText', 'SimpleDialog', 'Tix', 'Tkconstants', 'Tkdnd', 'Tkinter', 'tkColorChooser', 'tkCommonDialog', 
+'tkFileDialog', 'tkFont', 'tkMessageBox', 'tkSimpleDialog', 'ttk', 'turtle', '_bsddb', '_codecs_cn', 
+'_codecs_hk', '_codecs_iso2022', '_codecs_jp', '_codecs_kr', '_codecs_tw', '_csv', '_ctypes', '_ctypes_test', 
+'_curses', '_curses_panel', '_elementtree', '_hashlib', '_hotshot', '_json', '_lsprof', '_multibytecodec', 
+'_multiprocessing', '_sqlite3', '_ssl', '_testcapi', 'audioop', 'bz2', 'crypt', 'dbm', 'future_builtins', 
+'linuxaudiodev', 'mmap', 'nis', 'ossaudiodev', 'parser', 'pyexpat', 'readline', 'resource', 'termios', 
+'lsb_release', 'meld3', 'pkg_resources', 'supervisor']
+

₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file02.md b/identition/folder3/file02.md new file mode 100644 index 00000000..807bb118 --- /dev/null +++ b/identition/folder3/file02.md @@ -0,0 +1,1073 @@ +## Binary + +Once the System Properties window opens, click on the “Environment Variables” button. In the “System Variables” box, look for a variable called Path. see all executables in your PATH on your system, and all aliases, all sorted + +``` +$ find ${PATH//:/ } -maxdepth 1 -executable | sort + +/bin +/bin/bash +/bin/bunzip2 +/bin/bzcat +/bin/bzcmp +/bin/bzdiff +/bin/bzegrep +/bin/bzexe +/bin/bzfgrep +/bin/bzgrep +/bin/bzip2 +/bin/bzip2recover +/bin/bzless +/bin/bzmore +/bin/cat +/bin/chgrp +/bin/chmod +/bin/chown +/bin/cp +/bin/dash +/bin/date +/bin/dd +/bin/df +/bin/dir +/bin/dmesg +/bin/dnsdomainname +/bin/domainname +/bin/echo +/bin/egrep +/bin/false +/bin/fgrep +/bin/findmnt +/bin/fuser +/bin/grep +/bin/gunzip +/bin/gzexe +/bin/gzip +/bin/hostname +/bin/journalctl +/bin/kill +/bin/less +/bin/lessecho +/bin/lessfile +/bin/lesskey +/bin/lesspipe +/bin/ln +/bin/login +/bin/loginctl +/bin/ls +/bin/lsblk +/bin/mkdir +/bin/mknod +/bin/mktemp +/bin/more +/bin/mount +/bin/mountpoint +/bin/mv +/bin/networkctl +/bin/nisdomainname +/bin/pidof +/bin/ping +/bin/ping4 +/bin/ping6 +/bin/ps +/bin/pwd +/bin/rbash +/bin/readlink +/bin/rm +/bin/rmdir +/bin/run-parts +/bin/sed +/bin/sh +/bin/sleep +/bin/stty +/bin/su +/bin/sync +/bin/systemctl +/bin/systemd +/bin/systemd-ask-password +/bin/systemd-escape +/bin/systemd-inhibit +/bin/systemd-machine-id-setup +/bin/systemd-notify +/bin/systemd-sysusers +/bin/systemd-tmpfiles +/bin/systemd-tty-ask-password-agent +/bin/tar +/bin/tempfile +/bin/touch +/bin/true +/bin/umount +/bin/uname +/bin/uncompress +/bin/vdir +/bin/wdctl +/bin/which +/bin/ypdomainname +/bin/zcat +/bin/zcmp +/bin/zdiff +/bin/zegrep +/bin/zfgrep +/bin/zforce +/bin/zgrep +/bin/zless +/bin/zmore +/bin/znew +/sbin +/sbin/agetty +/sbin/apparmor_parser +/sbin/badblocks +/sbin/blkdeactivate +/sbin/blkdiscard +/sbin/blkid +/sbin/blkzone +/sbin/blockdev +/sbin/capsh +/sbin/cfdisk +/sbin/chcpu +/sbin/ctrlaltdel +/sbin/debugfs +/sbin/dmsetup +/sbin/dmstats +/sbin/dumpe2fs +/sbin/e2fsck +/sbin/e2image +/sbin/e2label +/sbin/e2mmpstatus +/sbin/e2undo +/sbin/fdisk +/sbin/findfs +/sbin/fsck +/sbin/fsck.cramfs +/sbin/fsck.ext2 +/sbin/fsck.ext3 +/sbin/fsck.ext4 +/sbin/fsck.minix +/sbin/fsfreeze +/sbin/fstab-decode +/sbin/fstrim +/sbin/getcap +/sbin/getpcaps +/sbin/getty +/sbin/halt +/sbin/hwclock +/sbin/init +/sbin/installkernel +/sbin/ip6tables +/sbin/ip6tables-restore +/sbin/ip6tables-save +/sbin/iptables +/sbin/iptables-restore +/sbin/iptables-save +/sbin/isosize +/sbin/killall5 +/sbin/ldconfig +/sbin/logsave +/sbin/losetup +/sbin/mke2fs +/sbin/mkfs +/sbin/mkfs.bfs +/sbin/mkfs.cramfs +/sbin/mkfs.ext2 +/sbin/mkfs.ext3 +/sbin/mkfs.ext4 +/sbin/mkfs.minix +/sbin/mkhomedir_helper +/sbin/mkswap +/sbin/pam_tally +/sbin/pam_tally2 +/sbin/pivot_root +/sbin/poweroff +/sbin/raw +/sbin/reboot +/sbin/resize2fs +/sbin/runlevel +/sbin/runuser +/sbin/setcap +/sbin/sfdisk +/sbin/shadowconfig +/sbin/shutdown +/sbin/start-stop-daemon +/sbin/sulogin +/sbin/swaplabel +/sbin/swapoff +/sbin/swapon +/sbin/switch_root +/sbin/sysctl +/sbin/telinit +/sbin/tune2fs +/sbin/unix_chkpwd +/sbin/unix_update +/sbin/wipefs +/sbin/zramctl +/usr/bin +/usr/bin/2to3-2.7 +/usr/bin/[ +/usr/bin/aa-enabled +/usr/bin/aa-exec +/usr/bin/add-apt-repository +/usr/bin/addpart +/usr/bin/addr2line +/usr/bin/apt +/usr/bin/apt-add-repository +/usr/bin/apt-cache +/usr/bin/apt-cdrom +/usr/bin/apt-config +/usr/bin/apt-get +/usr/bin/apt-key +/usr/bin/apt-mark +/usr/bin/ar +/usr/bin/arch +/usr/bin/as +/usr/bin/awk +/usr/bin/b2sum +/usr/bin/base32 +/usr/bin/base64 +/usr/bin/basename +/usr/bin/bashbug +/usr/bin/bootctl +/usr/bin/busctl +/usr/bin/c++ +/usr/bin/c++filt +/usr/bin/c89 +/usr/bin/c89-gcc +/usr/bin/c99 +/usr/bin/c99-gcc +/usr/bin/c_rehash +/usr/bin/captoinfo +/usr/bin/catchsegv +/usr/bin/cc +/usr/bin/chage +/usr/bin/chattr +/usr/bin/chcon +/usr/bin/chfn +/usr/bin/choom +/usr/bin/chrt +/usr/bin/chsh +/usr/bin/cksum +/usr/bin/clear +/usr/bin/clear_console +/usr/bin/cmp +/usr/bin/comm +/usr/bin/compose +/usr/bin/containerd +/usr/bin/containerd-shim +/usr/bin/containerd-shim-runc-v1 +/usr/bin/containerd-shim-runc-v2 +/usr/bin/corelist +/usr/bin/cpan +/usr/bin/cpan5.28-x86_64-linux-gnu +/usr/bin/cpp +/usr/bin/cpp-8 +/usr/bin/csplit +/usr/bin/ctr +/usr/bin/curl +/usr/bin/curl-config +/usr/bin/cut +/usr/bin/cvtsudoers +/usr/bin/dbus-cleanup-sockets +/usr/bin/dbus-daemon +/usr/bin/dbus-monitor +/usr/bin/dbus-run-session +/usr/bin/dbus-send +/usr/bin/dbus-update-activation-environment +/usr/bin/dbus-uuidgen +/usr/bin/deb-systemd-helper +/usr/bin/deb-systemd-invoke +/usr/bin/debconf +/usr/bin/debconf-apt-progress +/usr/bin/debconf-communicate +/usr/bin/debconf-copydb +/usr/bin/debconf-escape +/usr/bin/debconf-set-selections +/usr/bin/debconf-show +/usr/bin/delpart +/usr/bin/dh_python2 +/usr/bin/diff +/usr/bin/diff3 +/usr/bin/dircolors +/usr/bin/dirmngr +/usr/bin/dirmngr-client +/usr/bin/dirname +/usr/bin/docker +/usr/bin/docker-init +/usr/bin/docker-proxy +/usr/bin/dockerd +/usr/bin/dockerd-rootless-setuptool.sh +/usr/bin/dockerd-rootless.sh +/usr/bin/dpkg +/usr/bin/dpkg-architecture +/usr/bin/dpkg-buildflags +/usr/bin/dpkg-buildpackage +/usr/bin/dpkg-checkbuilddeps +/usr/bin/dpkg-deb +/usr/bin/dpkg-distaddfile +/usr/bin/dpkg-divert +/usr/bin/dpkg-genbuildinfo +/usr/bin/dpkg-genchanges +/usr/bin/dpkg-gencontrol +/usr/bin/dpkg-gensymbols +/usr/bin/dpkg-maintscript-helper +/usr/bin/dpkg-mergechangelogs +/usr/bin/dpkg-name +/usr/bin/dpkg-parsechangelog +/usr/bin/dpkg-query +/usr/bin/dpkg-scanpackages +/usr/bin/dpkg-scansources +/usr/bin/dpkg-shlibdeps +/usr/bin/dpkg-source +/usr/bin/dpkg-split +/usr/bin/dpkg-statoverride +/usr/bin/dpkg-trigger +/usr/bin/dpkg-vendor +/usr/bin/du +/usr/bin/dwp +/usr/bin/echo_supervisord_conf +/usr/bin/edit +/usr/bin/elfedit +/usr/bin/enc2xs +/usr/bin/encguess +/usr/bin/env +/usr/bin/envsubst +/usr/bin/expand +/usr/bin/expiry +/usr/bin/expr +/usr/bin/factor +/usr/bin/faillog +/usr/bin/faked-sysv +/usr/bin/faked-tcp +/usr/bin/fakeroot +/usr/bin/fakeroot-sysv +/usr/bin/fakeroot-tcp +/usr/bin/fallocate +/usr/bin/file +/usr/bin/fincore +/usr/bin/find +/usr/bin/flock +/usr/bin/fmt +/usr/bin/fold +/usr/bin/free +/usr/bin/funzip +/usr/bin/g++ +/usr/bin/g++-8 +/usr/bin/gapplication +/usr/bin/gcc +/usr/bin/gcc-8 +/usr/bin/gcc-ar +/usr/bin/gcc-ar-8 +/usr/bin/gcc-nm +/usr/bin/gcc-nm-8 +/usr/bin/gcc-ranlib +/usr/bin/gcc-ranlib-8 +/usr/bin/gcov +/usr/bin/gcov-8 +/usr/bin/gcov-dump +/usr/bin/gcov-dump-8 +/usr/bin/gcov-tool +/usr/bin/gcov-tool-8 +/usr/bin/gdbus +/usr/bin/gencat +/usr/bin/getconf +/usr/bin/getent +/usr/bin/getopt +/usr/bin/gettext +/usr/bin/gettext.sh +/usr/bin/gettextize +/usr/bin/gio +/usr/bin/gio-querymodules +/usr/bin/git +/usr/bin/git-cvsserver +/usr/bin/git-receive-pack +/usr/bin/git-shell +/usr/bin/git-upload-archive +/usr/bin/git-upload-pack +/usr/bin/gitk +/usr/bin/glib-compile-schemas +/usr/bin/gold +/usr/bin/gpasswd +/usr/bin/gpg +/usr/bin/gpg-agent +/usr/bin/gpg-connect-agent +/usr/bin/gpg-wks-server +/usr/bin/gpg-zip +/usr/bin/gpgcompose +/usr/bin/gpgconf +/usr/bin/gpgparsemail +/usr/bin/gpgsm +/usr/bin/gpgsplit +/usr/bin/gpgtar +/usr/bin/gpgv +/usr/bin/gprof +/usr/bin/gresource +/usr/bin/groups +/usr/bin/gsettings +/usr/bin/h2ph +/usr/bin/h2xs +/usr/bin/head +/usr/bin/hostid +/usr/bin/hostnamectl +/usr/bin/i386 +/usr/bin/iconv +/usr/bin/id +/usr/bin/infocmp +/usr/bin/infotocap +/usr/bin/install +/usr/bin/instmodsh +/usr/bin/ionice +/usr/bin/ipcmk +/usr/bin/ipcrm +/usr/bin/ipcs +/usr/bin/iptables-xml +/usr/bin/ischroot +/usr/bin/join +/usr/bin/jq +/usr/bin/json_pp +/usr/bin/kbxutil +/usr/bin/kernel-install +/usr/bin/killall +/usr/bin/last +/usr/bin/lastb +/usr/bin/lastlog +/usr/bin/lcf +/usr/bin/ld +/usr/bin/ld.bfd +/usr/bin/ld.gold +/usr/bin/ldd +/usr/bin/less +/usr/bin/lessecho +/usr/bin/lessfile +/usr/bin/lesskey +/usr/bin/lesspipe +/usr/bin/libnetcfg +/usr/bin/link +/usr/bin/linux32 +/usr/bin/linux64 +/usr/bin/locale +/usr/bin/localectl +/usr/bin/localedef +/usr/bin/logger +/usr/bin/logname +/usr/bin/lsattr +/usr/bin/lsb_release +/usr/bin/lscpu +/usr/bin/lsipc +/usr/bin/lslocks +/usr/bin/lslogins +/usr/bin/lsmem +/usr/bin/lsns +/usr/bin/lspgpot +/usr/bin/lzcat +/usr/bin/lzcmp +/usr/bin/lzdiff +/usr/bin/lzegrep +/usr/bin/lzfgrep +/usr/bin/lzgrep +/usr/bin/lzless +/usr/bin/lzma +/usr/bin/lzmainfo +/usr/bin/lzmore +/usr/bin/make +/usr/bin/make-first-existing-target +/usr/bin/mawk +/usr/bin/mcookie +/usr/bin/md5sum +/usr/bin/md5sum.textutils +/usr/bin/mesg +/usr/bin/migrate-pubring-from-classic-gpg +/usr/bin/mkfifo +/usr/bin/msgattrib +/usr/bin/msgcat +/usr/bin/msgcmp +/usr/bin/msgcomm +/usr/bin/msgconv +/usr/bin/msgen +/usr/bin/msgexec +/usr/bin/msgfilter +/usr/bin/msgfmt +/usr/bin/msggrep +/usr/bin/msginit +/usr/bin/msgmerge +/usr/bin/msgunfmt +/usr/bin/msguniq +/usr/bin/mtrace +/usr/bin/namei +/usr/bin/nawk +/usr/bin/newgrp +/usr/bin/ngettext +/usr/bin/nice +/usr/bin/nl +/usr/bin/nm +/usr/bin/nohup +/usr/bin/nproc +/usr/bin/nsenter +/usr/bin/numfmt +/usr/bin/objcopy +/usr/bin/objdump +/usr/bin/od +/usr/bin/openssl +/usr/bin/pager +/usr/bin/partx +/usr/bin/passwd +/usr/bin/paste +/usr/bin/patch +/usr/bin/pathchk +/usr/bin/pdb +/usr/bin/pdb2 +/usr/bin/pdb2.7 +/usr/bin/pdb3 +/usr/bin/pdb3.7 +/usr/bin/peekfd +/usr/bin/perl +/usr/bin/perl5.28-x86_64-linux-gnu +/usr/bin/perl5.28.1 +/usr/bin/perlbug +/usr/bin/perldoc +/usr/bin/perlivp +/usr/bin/perlthanks +/usr/bin/pgrep +/usr/bin/piconv +/usr/bin/pidproxy +/usr/bin/pigz +/usr/bin/pinentry +/usr/bin/pinentry-curses +/usr/bin/pinky +/usr/bin/pkaction +/usr/bin/pkcheck +/usr/bin/pkcon +/usr/bin/pkexec +/usr/bin/pkill +/usr/bin/pkmon +/usr/bin/pkttyagent +/usr/bin/pl2pm +/usr/bin/pldd +/usr/bin/pmap +/usr/bin/pod2html +/usr/bin/pod2man +/usr/bin/pod2text +/usr/bin/pod2usage +/usr/bin/podchecker +/usr/bin/podselect +/usr/bin/pr +/usr/bin/print +/usr/bin/printenv +/usr/bin/printf +/usr/bin/prlimit +/usr/bin/prove +/usr/bin/prtstat +/usr/bin/pslog +/usr/bin/pstree +/usr/bin/pstree.x11 +/usr/bin/ptar 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+/usr/bin/select-editor +/usr/bin/sensible-browser +/usr/bin/sensible-editor +/usr/bin/sensible-pager +/usr/bin/seq +/usr/bin/setarch +/usr/bin/setpriv +/usr/bin/setsid +/usr/bin/setterm +/usr/bin/sftp +/usr/bin/sg +/usr/bin/sha1sum +/usr/bin/sha224sum +/usr/bin/sha256sum +/usr/bin/sha384sum +/usr/bin/sha512sum +/usr/bin/shasum +/usr/bin/shred +/usr/bin/shuf +/usr/bin/size +/usr/bin/skill +/usr/bin/slabtop +/usr/bin/slogin +/usr/bin/snice +/usr/bin/sort +/usr/bin/sotruss +/usr/bin/splain +/usr/bin/split +/usr/bin/sprof +/usr/bin/ssh +/usr/bin/ssh-add +/usr/bin/ssh-agent +/usr/bin/ssh-argv0 +/usr/bin/ssh-copy-id +/usr/bin/ssh-keygen +/usr/bin/ssh-keyscan +/usr/bin/stat +/usr/bin/stdbuf +/usr/bin/strings +/usr/bin/strip +/usr/bin/sudo +/usr/bin/sudoedit +/usr/bin/sudoreplay +/usr/bin/sum +/usr/bin/supervisorctl +/usr/bin/supervisord +/usr/bin/symcryptrun +/usr/bin/systemd-analyze +/usr/bin/systemd-cat +/usr/bin/systemd-cgls +/usr/bin/systemd-cgtop +/usr/bin/systemd-delta +/usr/bin/systemd-detect-virt +/usr/bin/systemd-id128 +/usr/bin/systemd-mount +/usr/bin/systemd-path +/usr/bin/systemd-resolve +/usr/bin/systemd-run +/usr/bin/systemd-socket-activate +/usr/bin/systemd-stdio-bridge +/usr/bin/systemd-umount +/usr/bin/tabs +/usr/bin/tac +/usr/bin/tail +/usr/bin/taskset +/usr/bin/tee +/usr/bin/test +/usr/bin/tic +/usr/bin/timedatectl +/usr/bin/timeout +/usr/bin/tload +/usr/bin/toe +/usr/bin/top +/usr/bin/touch +/usr/bin/tput +/usr/bin/tr +/usr/bin/truncate +/usr/bin/tset +/usr/bin/tsort +/usr/bin/tty +/usr/bin/tzselect +/usr/bin/ucf +/usr/bin/ucfq +/usr/bin/ucfr +/usr/bin/unattended-upgrade +/usr/bin/unattended-upgrades +/usr/bin/unexpand +/usr/bin/uniq +/usr/bin/unlink +/usr/bin/unlzma +/usr/bin/unpigz +/usr/bin/unshare +/usr/bin/unxz +/usr/bin/unzip +/usr/bin/unzipsfx +/usr/bin/update-alternatives +/usr/bin/update-mime-database +/usr/bin/uptime +/usr/bin/users +/usr/bin/utmpdump +/usr/bin/vmstat +/usr/bin/w +/usr/bin/w.procps +/usr/bin/wall +/usr/bin/watch +/usr/bin/watchgnupg +/usr/bin/wc +/usr/bin/whereis +/usr/bin/which +/usr/bin/who +/usr/bin/whoami +/usr/bin/x86_64 +/usr/bin/x86_64-linux-gnu-addr2line +/usr/bin/x86_64-linux-gnu-ar +/usr/bin/x86_64-linux-gnu-as +/usr/bin/x86_64-linux-gnu-c++filt +/usr/bin/x86_64-linux-gnu-cpp +/usr/bin/x86_64-linux-gnu-cpp-8 +/usr/bin/x86_64-linux-gnu-dwp +/usr/bin/x86_64-linux-gnu-elfedit +/usr/bin/x86_64-linux-gnu-g++ +/usr/bin/x86_64-linux-gnu-g++-8 +/usr/bin/x86_64-linux-gnu-gcc +/usr/bin/x86_64-linux-gnu-gcc-8 +/usr/bin/x86_64-linux-gnu-gcc-ar +/usr/bin/x86_64-linux-gnu-gcc-ar-8 +/usr/bin/x86_64-linux-gnu-gcc-nm +/usr/bin/x86_64-linux-gnu-gcc-nm-8 +/usr/bin/x86_64-linux-gnu-gcc-ranlib +/usr/bin/x86_64-linux-gnu-gcc-ranlib-8 +/usr/bin/x86_64-linux-gnu-gcov +/usr/bin/x86_64-linux-gnu-gcov-8 +/usr/bin/x86_64-linux-gnu-gcov-dump +/usr/bin/x86_64-linux-gnu-gcov-dump-8 +/usr/bin/x86_64-linux-gnu-gcov-tool +/usr/bin/x86_64-linux-gnu-gcov-tool-8 +/usr/bin/x86_64-linux-gnu-gold +/usr/bin/x86_64-linux-gnu-gprof +/usr/bin/x86_64-linux-gnu-ld +/usr/bin/x86_64-linux-gnu-ld.bfd +/usr/bin/x86_64-linux-gnu-ld.gold +/usr/bin/x86_64-linux-gnu-nm +/usr/bin/x86_64-linux-gnu-objcopy +/usr/bin/x86_64-linux-gnu-objdump +/usr/bin/x86_64-linux-gnu-ranlib +/usr/bin/x86_64-linux-gnu-readelf +/usr/bin/x86_64-linux-gnu-size +/usr/bin/x86_64-linux-gnu-strings +/usr/bin/x86_64-linux-gnu-strip +/usr/bin/xargs +/usr/bin/xauth +/usr/bin/xdg-user-dir +/usr/bin/xdg-user-dirs-update +/usr/bin/xgettext +/usr/bin/xsubpp +/usr/bin/xz +/usr/bin/xzcat +/usr/bin/xzcmp +/usr/bin/xzdiff +/usr/bin/xzegrep +/usr/bin/xzfgrep +/usr/bin/xzgrep +/usr/bin/xzless +/usr/bin/xzmore +/usr/bin/yes +/usr/bin/zdump +/usr/bin/zipdetails +/usr/bin/zipgrep +/usr/bin/zipinfo +/usr/local/bin +/usr/local/bin/docker-compose +/usr/local/sbin +/usr/sbin +/usr/sbin/aa-remove-unknown +/usr/sbin/aa-status +/usr/sbin/aa-teardown +/usr/sbin/add-shell +/usr/sbin/addgnupghome +/usr/sbin/addgroup +/usr/sbin/adduser +/usr/sbin/apparmor_status +/usr/sbin/applygnupgdefaults +/usr/sbin/arptables +/usr/sbin/arptables-nft +/usr/sbin/arptables-nft-restore +/usr/sbin/arptables-nft-save +/usr/sbin/arptables-restore +/usr/sbin/arptables-save +/usr/sbin/chgpasswd +/usr/sbin/chmem +/usr/sbin/chpasswd +/usr/sbin/chroot +/usr/sbin/cpgr +/usr/sbin/cppw +/usr/sbin/delgroup +/usr/sbin/deluser +/usr/sbin/dpkg-preconfigure +/usr/sbin/dpkg-reconfigure +/usr/sbin/e2freefrag +/usr/sbin/e4crypt +/usr/sbin/e4defrag +/usr/sbin/ebtables +/usr/sbin/ebtables-nft +/usr/sbin/ebtables-nft-restore +/usr/sbin/ebtables-nft-save +/usr/sbin/ebtables-restore +/usr/sbin/ebtables-save +/usr/sbin/fdformat +/usr/sbin/filefrag +/usr/sbin/groupadd +/usr/sbin/groupdel +/usr/sbin/groupmems +/usr/sbin/groupmod +/usr/sbin/grpck +/usr/sbin/grpconv +/usr/sbin/grpunconv +/usr/sbin/iconvconfig +/usr/sbin/invoke-rc.d +/usr/sbin/ip6tables +/usr/sbin/ip6tables-apply +/usr/sbin/ip6tables-legacy +/usr/sbin/ip6tables-legacy-restore +/usr/sbin/ip6tables-legacy-save +/usr/sbin/ip6tables-nft +/usr/sbin/ip6tables-nft-restore +/usr/sbin/ip6tables-nft-save +/usr/sbin/ip6tables-restore +/usr/sbin/ip6tables-restore-translate +/usr/sbin/ip6tables-save +/usr/sbin/ip6tables-translate +/usr/sbin/iptables +/usr/sbin/iptables-apply +/usr/sbin/iptables-legacy +/usr/sbin/iptables-legacy-restore +/usr/sbin/iptables-legacy-save +/usr/sbin/iptables-nft +/usr/sbin/iptables-nft-restore +/usr/sbin/iptables-nft-save +/usr/sbin/iptables-restore +/usr/sbin/iptables-restore-translate +/usr/sbin/iptables-save +/usr/sbin/iptables-translate +/usr/sbin/ldattach +/usr/sbin/mklost+found +/usr/sbin/newusers +/usr/sbin/nfnl_osf +/usr/sbin/nft +/usr/sbin/nologin +/usr/sbin/pam-auth-update +/usr/sbin/pam_getenv +/usr/sbin/pam_timestamp_check +/usr/sbin/policy-rc.d +/usr/sbin/pwck +/usr/sbin/pwconv +/usr/sbin/pwunconv +/usr/sbin/readprofile +/usr/sbin/remove-shell +/usr/sbin/rmt +/usr/sbin/rmt-tar +/usr/sbin/rtcwake +/usr/sbin/service +/usr/sbin/tarcat +/usr/sbin/tzconfig +/usr/sbin/update-ca-certificates +/usr/sbin/update-mime +/usr/sbin/update-passwd +/usr/sbin/update-rc.d +/usr/sbin/useradd +/usr/sbin/userdel +/usr/sbin/usermod +/usr/sbin/vigr +/usr/sbin/vipw +/usr/sbin/visudo +/usr/sbin/xtables-legacy-multi +/usr/sbin/xtables-monitor +/usr/sbin/xtables-nft-multi +/usr/sbin/zic +``` + +This was mostly a [fun exercise](https://unix.stackexchange.com/a/120943/158462) for myself to see if it could be done using one line of Python code without resorting to using the exec function. In a more readable form, and with some comments, the code looks like this: +``` +import os +import sys + +# This is just to have a function to output something on the screen. +# I'm using Python 2.7 in which 'print' is not a function and cannot +# be used in the 'map' function. +output = lambda(x) : sys.stdout.write(x + "\n") + +# Get a list of the components in the PATH environment variable. Will +# abort the program is PATH doesn't exist +paths = os.environ["PATH"].split(":") + +# os.listdir raises an error is something is not a path so I'm creating +# a small function that only executes it if 'p' is a directory +listdir = lambda(p) : os.listdir(p) if os.path.isdir(p) else [ ] + +# Checks if the path specified by x[0] and x[1] is a file +isfile = lambda(x) : True if os.path.isfile(os.path.join(x[0],x[1])) else False + +# Checks if the path specified by x[0] and x[1] has the executable flag set +isexe = lambda(x) : True if os.access(os.path.join(x[0],x[1]), os.X_OK) else False + +# Here, I'm using a list comprehension to build a list of all executable files +# in the PATH, and abusing the map function to write every name in the resulting +# list to the screen. +map(output, [ os.path.join(p,f) for p in paths for f in listdir(p) if isfile((p,f)) and isexe((p,f)) ]) +``` + +If you can run Python 2 in your shell, the following (ridiculously long) one-liner can be used as well: + +``` +$ python2 -c 'import os;import sys;output = lambda(x) : sys.stdout.write(x + "\n"); paths = os.environ["PATH"].split(":") ; listdir = lambda(p) : os.listdir(p) if os.path.isdir(p) else [ ] ; isfile = lambda(x) : True if os.path.isfile(os.path.join(x[0],x[1])) else False ; isexe = lambda(x) : True if os.access(os.path.join(x[0],x[1]), os.X_OK) else False ; map(output,[ os.path.join(p,f) for p in paths for f in listdir(p) if isfile((p,f)) and isexe((p,f)) ])' +``` + +### Packages + +If we need to [list the installed packages in the Python](https://stackoverflow.com/a/73958089/4058484) shell, For terminal I recommend help("modules") or python -c "help('modules')". + +``` +$ python3.7 -c 'help("modules")' + +Please wait a moment while I gather a list of all available modules... + +__future__ _tracemalloc getopt rlcompleter +_abc _uuid getpass runpy +_ast _warnings gettext sched +_asyncio _weakref gi secrets +_bisect _weakrefset glob select +_blake2 _xxtestfuzz grp selectors +_bootlocale abc gzip shelve +_bz2 aifc hashlib shlex +_codecs antigravity heapq shutil +_codecs_cn apt hmac signal +_codecs_hk apt_inst html site +_codecs_iso2022 apt_pkg http sitecustomize +_codecs_jp aptsources imaplib smtpd +_codecs_kr argparse imghdr smtplib +_codecs_tw array imp sndhdr +_collections ast importlib socket +_collections_abc asynchat inspect socketserver +_compat_pickle asyncio io softwareproperties +_compression asyncore ipaddress spwd +_contextvars atexit itertools sqlite3 +_crypt audioop json sre_compile +_csv base64 keyword sre_constants +_ctypes bdb linecache sre_parse +_ctypes_test binascii locale ssl +_curses binhex logging stat +_curses_panel bisect lsb_release statistics +_datetime builtins lzma string +_dbm bz2 macpath stringprep +_dbus_bindings cProfile mailbox struct +_dbus_glib_bindings calendar mailcap subprocess +_decimal cgi marshal sunau +_dummy_thread cgitb math symbol +_elementtree chunk mimetypes symtable +_functools cmath mmap sys +_hashlib cmd modulefinder sysconfig +_heapq code multiprocessing syslog +_imp codecs netrc tabnanny +_io codeop nis tarfile +_json collections nntplib telnetlib +_locale colorsys ntpath tempfile +_lsprof compileall nturl2path termios +_lzma concurrent numbers test +_markupbase configparser opcode textwrap +_md5 contextlib operator this +_multibytecodec contextvars optparse threading +_multiprocessing copy os time +_opcode copyreg ossaudiodev timeit +_operator crypt parser token +_osx_support csv pathlib tokenize +_pickle ctypes pdb trace +_posixsubprocess curl pickle traceback +_py_abc curses pickletools tracemalloc +_pydecimal dataclasses pipes tty +_pyio datetime pkgutil turtle +_queue dbm platform types +_random dbus plistlib typing +_sha1 decimal poplib unicodedata +_sha256 difflib posix unittest +_sha3 dis posixpath urllib +_sha512 distro_info pprint uu +_signal distutils profile uuid +_sitebuiltins doctest pstats venv +_socket dummy_threading pty warnings +_sqlite3 email pwd wave +_sre encodings py_compile weakref +_ssl enum pyclbr webbrowser +_stat errno pycurl wsgiref +_string faulthandler pydoc xdrlib +_strptime fcntl pydoc_data xml +_struct filecmp pyexpat xmlrpc +_symtable fileinput pygtkcompat xxlimited +_sysconfigdata_m_linux_x86_64-linux-gnu fnmatch queue +_testbuffer formatter quopri zipapp +_testcapi fractions random zipfile +_testimportmultiple ftplib re zipimport +_testmultiphase functools readline zlib +_thread gc reprlib xxsubtype +_threading_local genericpath resource + +Enter any module name to get more help. Or, type "modules spam" to search +for modules whose name or summary contain the string "spam". +``` + +I'm comparing five methods to retrieve installed "modules", all of which I've seen in this thread + +``` + iter_modules help("modules") builtin_module_names pip list working_set +Includes distributions ❌ ❌ ❌ ✔️ ✔️ +Includes modules (No built-in) ✔️ ✔️ ❌ ❌ ❌ +Includes built-in modules ❌ ✔️ ✔️ ❌ ❌ +Includes frozen ✔️ ✔️ ❌ ❌ ❌ +Includes venv ✔️ ✔️ ❌ ✔️ ✔️ +Includes global ✔️ ✔️ ❌ ✔️ ✔️ +Includes editable installs ✔️ ✔️ ❌ ✔️ ✔️ +Includes PyCharm helpers ✔️ ❌ ❌ ❌ ❌ +Lowers capital letters ❌ ❌ ❌ ❌ ✔️ +Time taken (665 modules total) 53.7 msec 1.03 sec 577 nsec 284 msec 36.2 usec +``` +For programmatically I recommend iter_modules + builtin_module_names to pluck the module name out of the tuples generated by [pkgutil.iter_modules()](http://docs.python.org/library/pkgutil.html#pkgutil.iter_modules) It is however very convoluted with information + +``` +$ python -c 'import pkgutil;print [x[1] for x in list(pkgutil.iter_modules())]' + +['BaseHTTPServer', 'Bastion', 'CGIHTTPServer', 'ConfigParser', 'Cookie', 'DocXMLRPCServer', 'HTMLParser', +'MimeWriter', 'Queue', 'SimpleHTTPServer', 'SimpleXMLRPCServer', 'SocketServer', 'StringIO', 'UserDict', +'UserList', 'UserString', '_LWPCookieJar', '_MozillaCookieJar', '__future__', '_abcoll', '_osx_support', +'_pyio', '_strptime', '_sysconfigdata', '_threading_local', '_weakrefset', 'abc', 'aifc', 'antigravity', +'anydbm', 'argparse', 'ast', 'asynchat', 'asyncore', 'atexit', 'audiodev', 'base64', 'bdb', 'binhex', +'bisect', 'bsddb', 'cProfile', 'calendar', 'cgi', 'cgitb', 'chunk', 'cmd', 'code', 'codecs', 'codeop', +'collections', 'colorsys', 'commands', 'compileall', 'compiler', 'contextlib', 'cookielib', 'copy', +'copy_reg', 'csv', 'ctypes', 'curses', 'dbhash', 'decimal', 'difflib', 'dircache', 'dis', 'distutils', +'doctest', 'dumbdbm', 'dummy_thread', 'dummy_threading', 'email', 'encodings', 'ensurepip', 'filecmp', +'fileinput', 'fnmatch', 'formatter', 'fpformat', 'fractions', 'ftplib', 'functools', 'genericpath', +'getopt', 'getpass', 'gettext', 'glob', 'gzip', 'hashlib', 'heapq', 'hmac', 'hotshot', 'htmlentitydefs', +'htmllib', 'httplib', 'ihooks', 'imaplib', 'imghdr', 'importlib', 'imputil', 'inspect', 'io', 'json', +'keyword', 'lib2to3', 'linecache', 'locale', 'logging', 'macpath', 'macurl2path', 'mailbox', 'mailcap', +'markupbase', 'md5', 'mhlib', 'mimetools', 'mimetypes', 'mimify', 'modulefinder', 'multifile', +'multiprocessing', 'mutex', 'netrc', 'new', 'nntplib', 'ntpath', 'nturl2path', 'numbers', 'opcode', +'optparse', 'os', 'os2emxpath', 'pdb', 'pickle', 'pickletools', 'pipes', 'pkgutil', 'platform', +'plistlib', 'popen2', 'poplib', 'posixfile', 'posixpath', 'pprint', 'profile', 'pstats', 'pty', +'py_compile', 'pyclbr', 'pydoc', 'pydoc_data', 'quopri', 'random', 're', 'repr', 'rexec', 'rfc822', +'rlcompleter', 'robotparser', 'runpy', 'sched', 'sets', 'sgmllib', 'sha', 'shelve', 'shlex', 'shutil', +'site', 'sitecustomize', 'smtpd', 'smtplib', 'sndhdr', 'socket', 'sqlite3', 'sre', 'sre_compile', +'sre_constants', 'sre_parse', 'ssl', 'stat', 'statvfs', 'string', 'stringold', 'stringprep', 'struct', +'subprocess', 'sunau', 'sunaudio', 'symbol', 'symtable', 'sysconfig', 'tabnanny', 'tarfile', 'telnetlib', +'tempfile', 'test', 'textwrap', 'this', 'threading', 'timeit', 'toaiff', 'token', 'tokenize', 'trace', +'traceback', 'tty', 'types', 'unittest', 'urllib', 'urllib2', 'urlparse', 'user', 'uu', 'uuid', 'warnings', +'wave', 'weakref', 'webbrowser', 'whichdb', 'wsgiref', 'xdrlib', 'xml', 'xmllib', 'xmlrpclib', 'zipfile', +'CDROM', 'DLFCN', 'IN', 'TYPES', '_sysconfigdata_nd', 'Canvas', 'Dialog', 'FileDialog', 'FixTk', +'ScrolledText', 'SimpleDialog', 'Tix', 'Tkconstants', 'Tkdnd', 'Tkinter', 'tkColorChooser', 'tkCommonDialog', +'tkFileDialog', 'tkFont', 'tkMessageBox', 'tkSimpleDialog', 'ttk', 'turtle', '_bsddb', '_codecs_cn', +'_codecs_hk', '_codecs_iso2022', '_codecs_jp', '_codecs_kr', '_codecs_tw', '_csv', '_ctypes', '_ctypes_test', +'_curses', '_curses_panel', '_elementtree', '_hashlib', '_hotshot', '_json', '_lsprof', '_multibytecodec', +'_multiprocessing', '_sqlite3', '_ssl', '_testcapi', 'audioop', 'bz2', 'crypt', 'dbm', 'future_builtins', +'linuxaudiodev', 'mmap', 'nis', 'ossaudiodev', 'parser', 'pyexpat', 'readline', 'resource', 'termios', +'lsb_release', 'meld3', 'pkg_resources', 'supervisor'] +``` diff --git a/identition/folder3/file03.html b/identition/folder3/file03.html new file mode 100644 index 00000000..0ae610e9 --- /dev/null +++ b/identition/folder3/file03.html @@ -0,0 +1,61 @@ + file03.md · ₠Quantum

This solution is primary based on modules importlib and pkgutil and work with CPython 3.4 and CPython 3.5, but has no support for the CPython 2.

python_modules_info.py

import sys
+import os
+import shutil
+import pkgutil
+import importlib
+import collections
+
+if sys.version_info.major == 2:
+    raise NotImplementedError('CPython 2 is not supported yet')
+
+
+def main():
+
+    # name this file (module)
+    this_module_name = os.path.basename(__file__).rsplit('.')[0]
+
+    # dict for loaders with their modules
+    loaders = collections.OrderedDict()
+
+    # names`s of build-in modules
+    for module_name in sys.builtin_module_names:
+
+        # find an information about a module by name
+        module = importlib.util.find_spec(module_name)
+
+        # add a key about a loader in the dict, if not exists yet
+        if module.loader not in loaders:
+            loaders[module.loader] = []
+
+        # add a name and a location about imported module in the dict
+        loaders[module.loader].append((module.name, module.origin))
+
+    # all available non-build-in modules
+    for module_name in pkgutil.iter_modules():
+
+        # ignore this module
+        if this_module_name == module_name[1]:
+            continue
+
+        # find an information about a module by name
+        module = importlib.util.find_spec(module_name[1])
+
+        # add a key about a loader in the dict, if not exists yet
+        loader = type(module.loader)
+        if loader not in loaders:
+            loaders[loader] = []
+
+        # add a name and a location about imported module in the dict
+        loaders[loader].append((module.name, module.origin))
+
+    # pretty print
+    line = '-' * shutil.get_terminal_size().columns
+    for loader, modules in loaders.items():
+        print('{0}\n{1}: {2}\n{0}'.format(line, len(modules), loader))
+        for module in modules:
+            print('{0:30} | {1}'.format(module[0], module[1]))
+
+
+if __name__ == '__main__':
+    main()
+

default

default

default

A better understanding of the distribution of prime numbers would be a major breakthrough in mathematics A continued relationship with the powers of pi could indicate a connection to circular geometry Other patterns can be analyzed to determine if they are related to the distribution of primes The speed and scalability of the cluster allows Tad Gallion and other researchers to check values of numbers that are significantly higher than any individual computer could compute in a reasonable time constraint The parallelization of the algorithm achieved a 9X speedup **using CUDA GPU programming** Because the cluster is managed over the internet, new compute nodes can be added with minimal effort Visualization tools enable researchers to explore the prime hexagon quickly and discover patterns that can be further analyzed Understanding the pattern of prime numbers could have effects in cryptography Many modern encryption algorithms depend on the factorization of very large primes which are hard to find


₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file03.md b/identition/folder3/file03.md new file mode 100644 index 00000000..222e23ef --- /dev/null +++ b/identition/folder3/file03.md @@ -0,0 +1,74 @@ + +This [solution](https://stackoverflow.com/a/42673938/4058484) is primary based on modules importlib and pkgutil and work with CPython 3.4 and CPython 3.5, but has no support for the CPython 2. + +python_modules_info.py +``` +import sys +import os +import shutil +import pkgutil +import importlib +import collections + +if sys.version_info.major == 2: + raise NotImplementedError('CPython 2 is not supported yet') + + +def main(): + + # name this file (module) + this_module_name = os.path.basename(__file__).rsplit('.')[0] + + # dict for loaders with their modules + loaders = collections.OrderedDict() + + # names`s of build-in modules + for module_name in sys.builtin_module_names: + + # find an information about a module by name + module = importlib.util.find_spec(module_name) + + # add a key about a loader in the dict, if not exists yet + if module.loader not in loaders: + loaders[module.loader] = [] + + # add a name and a location about imported module in the dict + loaders[module.loader].append((module.name, module.origin)) + + # all available non-build-in modules + for module_name in pkgutil.iter_modules(): + + # ignore this module + if this_module_name == module_name[1]: + continue + + # find an information about a module by name + module = importlib.util.find_spec(module_name[1]) + + # add a key about a loader in the dict, if not exists yet + loader = type(module.loader) + if loader not in loaders: + loaders[loader] = [] + + # add a name and a location about imported module in the dict + loaders[loader].append((module.name, module.origin)) + + # pretty print + line = '-' * shutil.get_terminal_size().columns + for loader, modules in loaders.items(): + print('{0}\n{1}: {2}\n{0}'.format(line, len(modules), loader)) + for module in modules: + print('{0:30} | {1}'.format(module[0], module[1])) + + +if __name__ == '__main__': + main() +``` + +[![default](https://user-images.githubusercontent.com/8466209/199131193-34b17216-1308-4efc-953c-708e31007505.png)](https://gist.github.com/eq19/8cab5e72d52ecb338a2f2187082a1699#file-4_quantum-md) + +[![default](https://user-images.githubusercontent.com/8466209/198928812-cab7aef3-9c41-49f4-8b89-00b8fa3fc95a.png)](https://gist.github.com/eq19/88d09204b2e5986237bd66d062406fde#file-lexer-md) + +[![default](https://user-images.githubusercontent.com/8466209/199133270-71ca3596-983b-435a-82f6-bcaa682ae650.png)](https://github.com/FeedMapping/prime-hexagon) + +A better understanding of the distribution of prime numbers would be a major breakthrough in mathematics A continued relationship with the powers of pi could indicate a connection to circular geometry Other patterns can be analyzed to determine if they are related to the distribution of primes The speed and scalability of the cluster allows Tad Gallion and other researchers to check values of numbers that are significantly higher than any individual computer could compute in a reasonable time constraint The parallelization of the algorithm achieved a 9X speedup *****using CUDA GPU programming***** Because the cluster is managed over the internet, new compute nodes can be added with minimal effort Visualization tools enable researchers to explore the prime hexagon quickly and discover patterns that can be further analyzed Understanding the pattern of prime numbers could have effects in cryptography Many modern encryption algorithms depend on the factorization of very large primes which are hard to find \ No newline at end of file diff --git a/identition/folder3/file04.html b/identition/folder3/file04.html new file mode 100644 index 00000000..29b973d2 --- /dev/null +++ b/identition/folder3/file04.html @@ -0,0 +1,548 @@ + Directory Structure · ₠Quantum

Directory Structure

This page walks through the steps required to train an object detection model with Recommended Directory Structure for Training and Evaluation for tf2_ai_platform

$ cat /mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/tf2_ai_platform/Dockerfile
+
+FROM tensorflow/tensorflow:latest-gpu
+
+ARG DEBIAN_FRONTEND=noninteractive
+
+# Install apt dependencies
+RUN apt-get update && apt-get install -y \
+    git \
+    gpg-agent \
+    python3-cairocffi \
+    protobuf-compiler \
+    python3-pil \
+    python3-lxml \
+    python3-tk \
+    python3-opencv \
+    wget
+
+# Installs google cloud sdk, this is mostly for using gsutil to export model.
+RUN wget -nv \
+    https://dl.google.com/dl/cloudsdk/release/google-cloud-sdk.tar.gz && \
+    mkdir /root/tools && \
+    tar xvzf google-cloud-sdk.tar.gz -C /root/tools && \
+    rm google-cloud-sdk.tar.gz && \
+    /root/tools/google-cloud-sdk/install.sh --usage-reporting=false \
+        --path-update=false --bash-completion=false \
+        --disable-installation-options && \
+    rm -rf /root/.config/* && \
+    ln -s /root/.config /config && \
+    rm -rf /root/tools/google-cloud-sdk/.install/.backup
+
+# Path configuration
+ENV PATH $PATH:/root/tools/google-cloud-sdk/bin
+# Make sure gsutil will use the default service account
+RUN echo '[GoogleCompute]\nservice_account = default' > /etc/boto.cfg
+
+WORKDIR /home/tensorflow
+
+## Copy this code (make sure you are under the ../models/research directory)
+COPY . /home/tensorflow/models
+
+# Compile protobuf configs
+RUN (cd /home/tensorflow/models/ && protoc object_detection/protos/*.proto --python_out=.)
+WORKDIR /home/tensorflow/models/
+
+RUN cp object_detection/packages/tf2/setup.py ./
+ENV PATH="/home/tensorflow/.local/bin:${PATH}"
+
+RUN python -m pip install -U pip
+RUN python -m pip install .
+
+ENTRYPOINT ["python", "object_detection/model_main_tf2.py"]
+

GitHub allows developers to run GitHub Actions workflows on your own runners. This Docker image allows you to create your own runners on Docker. The GitHub runner (the binary) will update itself when receiving a job, if a new release is available.

ARG FROM=debian:buster-slim
+FROM ${FROM}
+
+ARG DEBIAN_FRONTEND=noninteractive
+ARG GIT_VERSION="2.26.2"
+ARG GH_RUNNER_VERSION
+ARG DOCKER_COMPOSE_VERSION="1.27.4"
+
+ENV RUNNER_NAME=""
+ENV RUNNER_WORK_DIRECTORY="_work"
+ENV RUNNER_TOKEN=""
+ENV RUNNER_REPOSITORY_URL=""
+ENV RUNNER_LABELS=""
+ENV RUNNER_ALLOW_RUNASROOT=true
+ENV GITHUB_ACCESS_TOKEN=""
+ENV AGENT_TOOLSDIRECTORY=/opt/hostedtoolcache
+
+# Labels.
+LABEL maintainer="me@tcardonne.fr" \
+    org.label-schema.schema-version="1.0" \
+    org.label-schema.build-date=$BUILD_DATE \
+    org.label-schema.vcs-ref=$VCS_REF \
+    org.label-schema.name="tcardonne/github-runner" \
+    org.label-schema.description="Dockerized GitHub Actions runner." \
+    org.label-schema.url="https://github.com/tcardonne/docker-github-runner" \
+    org.label-schema.vcs-url="https://github.com/tcardonne/docker-github-runner" \
+    org.label-schema.vendor="Thomas Cardonne" \
+    org.label-schema.docker.cmd="docker run -it tcardonne/github-runner:latest"
+
+RUN DEBIAN_FRONTEND=noninteractive apt-get update && \
+    apt-get install -y \
+        curl \
+        unzip \
+        apt-transport-https \
+        ca-certificates \
+        software-properties-common \
+        sudo \
+        supervisor \
+        jq \
+        iputils-ping \
+        build-essential \
+        zlib1g-dev \
+        gettext \
+        liblttng-ust0 \
+        libcurl4-openssl-dev \
+        openssh-client && \
+    rm -rf /var/lib/apt/lists/* && \
+    apt-get clean
+
+COPY supervisord.conf /etc/supervisor/conf.d/supervisord.conf
+RUN chmod 644 /etc/supervisor/conf.d/supervisord.conf
+
+# Install Docker CLI
+RUN curl -fsSL https://get.docker.com -o- | sh && \
+    rm -rf /var/lib/apt/lists/* && \
+    apt-get clean
+
+# Install Docker-Compose
+RUN curl -L -o /usr/local/bin/docker-compose \
+    "https://github.com/docker/compose/releases/download/${DOCKER_COMPOSE_VERSION}/docker-compose-$(uname -s)-$(uname -m)" && \
+    chmod +x /usr/local/bin/docker-compose
+
+RUN cd /tmp && \
+    curl -sL -o git.tgz \
+    https://www.kernel.org/pub/software/scm/git/git-${GIT_VERSION}.tar.gz && \
+    tar zxf git.tgz  && \
+    cd git-${GIT_VERSION}  && \
+    ./configure --prefix=/usr  && \
+    make && \
+    make install && \
+    rm -rf /tmp/*
+
+RUN mkdir -p /home/runner ${AGENT_TOOLSDIRECTORY}
+
+WORKDIR /home/runner
+
+RUN GH_RUNNER_VERSION=${GH_RUNNER_VERSION:-$(curl --silent "https://api.github.com/repos/actions/runner/releases/latest" | grep tag_name | sed -E 's/.*"v([^"]+)".*/\1/')} \
+    && curl -L -O https://github.com/actions/runner/releases/download/v${GH_RUNNER_VERSION}/actions-runner-linux-x64-${GH_RUNNER_VERSION}.tar.gz \
+    && tar -zxf actions-runner-linux-x64-${GH_RUNNER_VERSION}.tar.gz \
+    && rm -f actions-runner-linux-x64-${GH_RUNNER_VERSION}.tar.gz \
+    && ./bin/installdependencies.sh \
+    && chown -R root: /home/runner \
+    && rm -rf /var/lib/apt/lists/* \
+    && apt-get clean
+
+COPY entrypoint.sh /entrypoint.sh
+RUN chmod +x /entrypoint.sh
+ENTRYPOINT ["/entrypoint.sh"]
+CMD ["/usr/bin/supervisord", "-c", "/etc/supervisor/conf.d/supervisord.conf"]
+

In order to allow the runner to exit and restart by itself, the binary is started by a supervisord process and entrypoint.

$ cat /etc/supervisord.conf
+
+[supervisord]
+user=root
+nodaemon=true
+logfile=/dev/fd/1
+logfile_maxbytes=0
+loglevel=error
+
+[program:runner]
+directory=/home/runner
+command=/home/runner/bin/runsvc.sh
+stdout_logfile=/dev/fd/1
+stdout_logfile_maxbytes=0
+redirect_stderr=true
+

The self-hosted runner application creates a detailed log file for each job that it processes. These files are stored in the diag directory where you installed the runner application, and the filename begins with Worker.

$ cat /home/runner/_diag/Runner_20230515-184422-utc.log
+
+[2023-05-15 18:44:22Z INFO HostContext] No proxy settings were found based on environmental variables (http_proxy/https_proxy/HTTP_PROXY/HTTPS_PROXY)
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Credentials': '/home/runner/.credentials'
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Runner': '/home/runner/.runner'
+[2023-05-15 18:44:22Z INFO Listener] Runner is built for Linux (X64) - linux-x64.
+[2023-05-15 18:44:22Z INFO Listener] RuntimeInformation: Linux 5.15.109+ #1 SMP Sat May 6 10:58:50 UTC 2023.
+[2023-05-15 18:44:22Z INFO Listener] Version: 2.303.0
+[2023-05-15 18:44:22Z INFO Listener] Commit: e676c7871817c1b484299cd93fabdf4b95e70741
+[2023-05-15 18:44:22Z INFO Listener] Culture: 
+[2023-05-15 18:44:22Z INFO Listener] UI Culture: 
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:22Z INFO Listener] Validating directory permissions for: '/home/runner'
+[2023-05-15 18:44:22Z INFO CommandLineParser] Parse
+[2023-05-15 18:44:22Z INFO CommandLineParser] Parsing 11 args
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: False
+[2023-05-15 18:44:22Z INFO CommandLineParser] Adding Command: configure
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] arg: url
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] Adding option 'url': 'https://github.com/FeedMapping'
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] arg: token
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] Adding option 'token': '***'
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] arg: name
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] Adding option 'name': 'Google-optimized-instance'
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] arg: work
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] Adding option 'work': '_work'
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] arg: replace
+[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument
+[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True
+[2023-05-15 18:44:22Z INFO CommandLineParser] arg: unattended
+[2023-05-15 18:44:22Z INFO CommandLineParser] Adding flag: replace
+[2023-05-15 18:44:22Z INFO Listener] Arguments parsed
+[2023-05-15 18:44:22Z INFO Runner] ExecuteCommand
+[2023-05-15 18:44:22Z INFO ConfigurationStore] currentAssemblyLocation: /home/runner/bin/Runner.Listener.dll
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:22Z INFO ConfigurationStore] binPath: /home/runner/bin
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:22Z INFO ConfigurationStore] RootFolder: /home/runner
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Runner': '/home/runner/.runner'
+[2023-05-15 18:44:22Z INFO ConfigurationStore] ConfigFilePath: /home/runner/.runner
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Credentials': '/home/runner/.credentials'
+[2023-05-15 18:44:22Z INFO ConfigurationStore] CredFilePath: /home/runner/.credentials
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'MigratedCredentials': '/home/runner/.credentials_migrated'
+[2023-05-15 18:44:22Z INFO ConfigurationStore] MigratedCredFilePath: /home/runner/.credentials_migrated
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Service': '/home/runner/.service'
+[2023-05-15 18:44:22Z INFO ConfigurationStore] ServiceConfigFilePath: /home/runner/.service
+[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'help': 'False'
+[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'version': 'False'
+[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'commit': 'False'
+[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'check': 'False'
+[2023-05-15 18:44:22Z INFO CommandSettings] Command 'configure': 'True'
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: 
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: --------------------------------------------------------------------------------
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: |        ____ _ _   _   _       _          _        _   _                      |
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: |       / ___(_) |_| | | |_   _| |__      / \   ___| |_(_) ___  _ __  ___      |
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: |      | |  _| | __| |_| | | | | '_ \    / _ \ / __| __| |/ _ \| '_ \/ __|     |
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: |      | |_| | | |_|  _  | |_| | |_) |  / ___ \ (__| |_| | (_) | | | \__ \     |
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: |       \____|_|\__|_| |_|\__,_|_.__/  /_/   \_\___|\__|_|\___/|_| |_|___/     |
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: |                                                                              |
+[2023-05-15 18:44:22Z INFO Terminal] WRITE: |                       
+[2023-05-15 18:44:22Z INFO Terminal] WRITE: Self-hosted runner registration
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE:                         |
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: |                                                                              |
+[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: --------------------------------------------------------------------------------
+[2023-05-15 18:44:22Z INFO ConfigurationManager] ConfigureAsync
+[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'generateServiceConfig': 'False'
+[2023-05-15 18:44:22Z INFO ConfigurationStore] IsConfigured()
+[2023-05-15 18:44:22Z INFO ConfigurationStore] IsConfigured: False
+[2023-05-15 18:44:22Z INFO ConfigurationManager] Is configured: False
+[2023-05-15 18:44:22Z INFO CommandSettings] Arg 'url': 'https://github.com/FeedMapping'
+[2023-05-15 18:44:22Z INFO CommandSettings] Remove url from Arg dictionary.
+[2023-05-15 18:44:22Z INFO CommandSettings] Arg 'token': '***'
+[2023-05-15 18:44:22Z INFO CommandSettings] Remove token from Arg dictionary.
+[2023-05-15 18:44:24Z INFO ConfigurationManager] Http response code: OK from 'POST https://api.github.com/actions/runner-registration' (E774:461B:1E7DC8F:3E4A2E3:64627D87)
+[2023-05-15 18:44:24Z INFO ConfigurationManager] cred retrieved via GitHub auth
+[2023-05-15 18:44:24Z INFO RunnerServer] EstablishVssConnection
+[2023-05-15 18:44:24Z INFO RunnerServer] Establish connection with 100 seconds timeout.
+[2023-05-15 18:44:24Z INFO GitHubActionsService] Starting operation Location.GetConnectionData
+[2023-05-15 18:44:24Z INFO RunnerServer] EstablishVssConnection
+[2023-05-15 18:44:24Z INFO RunnerServer] Establish connection with 60 seconds timeout.
+[2023-05-15 18:44:24Z INFO GitHubActionsService] Starting operation Location.GetConnectionData
+[2023-05-15 18:44:24Z INFO RunnerServer] EstablishVssConnection
+[2023-05-15 18:44:24Z INFO RunnerServer] Establish connection with 60 seconds timeout.
+[2023-05-15 18:44:24Z INFO GitHubActionsService] Starting operation Location.GetConnectionData
+[2023-05-15 18:44:24Z INFO GitHubActionsService] Finished operation Location.GetConnectionData
+[2023-05-15 18:44:24Z INFO GitHubActionsService] Finished operation Location.GetConnectionData
+[2023-05-15 18:44:24Z INFO GitHubActionsService] Finished operation Location.GetConnectionData
+[2023-05-15 18:44:25Z INFO Terminal] WRITE LINE: 
+[2023-05-15 18:44:25Z INFO ConfigurationManager] Test Connection complete.
+[2023-05-15 18:44:25Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:25Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:25Z INFO HostContext] Well known config file 'RSACredentials': '/home/runner/.credentials_rsaparams'
+[2023-05-15 18:44:25Z INFO RSAFileKeyManager] Creating new RSA key using 2048-bit key length
+[2023-05-15 18:44:25Z INFO RSAFileKeyManager] Successfully saved RSA key parameters to file /home/runner/.credentials_rsaparams
+[2023-05-15 18:44:25Z INFO RSAFileKeyManager] Which: 'chmod'
+[2023-05-15 18:44:25Z INFO RSAFileKeyManager] Location: '/bin/chmod'
+[2023-05-15 18:44:26Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:26Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Starting process:
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   File name: '/bin/chmod'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   Arguments: '600 /home/runner/.credentials_rsaparams'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   Working directory: '/home/runner'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   Require exit code zero: 'False'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   Encoding web name:  ; code page: ''
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   Force kill process on cancellation: 'False'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   Redirected STDIN: 'False'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   Persist current code page: 'False'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   Keep redirected STDIN open: 'False'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper]   High priority process: 'False'
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Updated oom_score_adj to 500 for PID: 75.
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Process started with process id 75, waiting for process exit.
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] STDOUT/STDERR stream read finished.
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] STDOUT/STDERR stream read finished.
+[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Finished process 75 with exit code 0, and elapsed time 00:00:00.2254015.
+[2023-05-15 18:44:26Z INFO RSAFileKeyManager] Successfully set permissions for RSA key parameters file /home/runner/.credentials_rsaparams
+[2023-05-15 18:44:26Z INFO CommandSettings] Arg 'runnergroup': ''
+[2023-05-15 18:44:26Z INFO CommandSettings] Flag 'unattended': 'True'
+[2023-05-15 18:44:26Z INFO PromptManager] ReadValue
+[2023-05-15 18:44:26Z INFO Terminal] WRITE LINE: 
+[2023-05-15 18:44:26Z INFO ConfigurationManager] Found a self-hosted runner group with id 1 and name Default
+[2023-05-15 18:44:26Z INFO CommandSettings] Flag 'disableupdate': 'False'
+[2023-05-15 18:44:26Z INFO CommandSettings] Flag 'ephemeral': 'False'
+[2023-05-15 18:44:26Z INFO CommandSettings] Arg 'name': 'Google-optimized-instance'
+[2023-05-15 18:44:26Z INFO CommandSettings] Remove name from Arg dictionary.
+[2023-05-15 18:44:26Z INFO Terminal] WRITE LINE: 
+[2023-05-15 18:44:26Z INFO CommandSettings] Arg 'labels': ''
+[2023-05-15 18:44:26Z INFO CommandSettings] Flag 'unattended': 'True'
+[2023-05-15 18:44:26Z INFO PromptManager] ReadValue
+[2023-05-15 18:44:26Z INFO Terminal] WRITE LINE: 
+[2023-05-15 18:44:27Z INFO Terminal] WRITE LINE: A runner exists with the same name
+[2023-05-15 18:44:27Z INFO CommandSettings] Flag 'replace': 'True'
+[2023-05-15 18:44:27Z INFO CommandSettings] Flag 'disableupdate': 'False'
+[2023-05-15 18:44:27Z INFO CommandSettings] Flag 'disableupdate': 'False'
+[2023-05-15 18:44:27Z INFO CommandSettings] Flag 'ephemeral': 'False'
+[2023-05-15 18:44:27Z INFO ConfigurationStore] Saving OAuth credential @ /home/runner/.credentials
+[2023-05-15 18:44:27Z INFO ConfigurationStore] Credentials Saved.
+[2023-05-15 18:44:27Z INFO ConfigurationStore] HasCredentials()
+[2023-05-15 18:44:27Z INFO ConfigurationStore] stored True
+[2023-05-15 18:44:27Z INFO CredentialManager] GetCredentialProvider
+[2023-05-15 18:44:27Z INFO CredentialManager] Creating type OAuth
+[2023-05-15 18:44:27Z INFO CredentialManager] Creating credential type: OAuth
+[2023-05-15 18:44:27Z INFO RSAFileKeyManager] Loading RSA key parameters from file /home/runner/.credentials_rsaparams
+[2023-05-15 18:44:27Z INFO RunnerServer] EstablishVssConnection
+[2023-05-15 18:44:27Z INFO RunnerServer] Establish connection with 100 seconds timeout.
+[2023-05-15 18:44:27Z INFO GitHubActionsService] Starting operation Location.GetConnectionData
+[2023-05-15 18:44:27Z INFO RunnerServer] EstablishVssConnection
+[2023-05-15 18:44:27Z INFO RunnerServer] Establish connection with 60 seconds timeout.
+[2023-05-15 18:44:27Z INFO GitHubActionsService] Starting operation Location.GetConnectionData
+[2023-05-15 18:44:27Z INFO RunnerServer] EstablishVssConnection
+[2023-05-15 18:44:27Z INFO RunnerServer] Establish connection with 60 seconds timeout.
+[2023-05-15 18:44:28Z INFO GitHubActionsService] Starting operation Location.GetConnectionData
+[2023-05-15 18:44:28Z INFO GitHubActionsService] Finished operation Location.GetConnectionData
+[2023-05-15 18:44:28Z INFO GitHubActionsService] Finished operation Location.GetConnectionData
+[2023-05-15 18:44:28Z INFO GitHubActionsService] Finished operation Location.GetConnectionData
+[2023-05-15 18:44:28Z INFO RSAFileKeyManager] Loading RSA key parameters from file /home/runner/.credentials_rsaparams
+[2023-05-15 18:44:28Z INFO RSAFileKeyManager] Loading RSA key parameters from file /home/runner/.credentials_rsaparams
+[2023-05-15 18:44:29Z INFO GitHubActionsService] AAD Correlation ID for this token request: Unknown
+[2023-05-15 18:44:29Z INFO CommandSettings] Arg 'work': '_work'
+[2023-05-15 18:44:29Z INFO CommandSettings] Remove work from Arg dictionary.
+[2023-05-15 18:44:29Z INFO ConfigurationStore] Saving runner settings.
+[2023-05-15 18:44:29Z INFO ConfigurationStore] Settings Saved.
+[2023-05-15 18:44:29Z INFO Terminal] WRITE LINE: 
+[2023-05-15 18:44:29Z INFO Terminal] WRITE LINE: 
+[2023-05-15 18:44:29Z INFO SystemDControlManager] Service name 'actions.runner.FeedMapping.Google-optimized-instance.service' display name 'GitHub Actions Runner (FeedMapping.Google-optimized-instance)' will be used for service configuration.
+[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin'
+[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Root': '/home/runner'
+[2023-05-15 18:44:29Z INFO UnixUtil] Which: 'chmod'
+[2023-05-15 18:44:29Z INFO UnixUtil] Location: '/bin/chmod'
+[2023-05-15 18:44:29Z INFO UnixUtil] Running /bin/chmod 755 "/home/runner/svc.sh"
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Starting process:
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   File name: '/bin/chmod'
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   Arguments: '755 "/home/runner/svc.sh"'
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   Working directory: '/home/runner'
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   Require exit code zero: 'True'
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   Encoding web name:  ; code page: ''
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   Force kill process on cancellation: 'False'
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   Redirected STDIN: 'False'
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   Persist current code page: 'False'
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   Keep redirected STDIN open: 'False'
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper]   High priority process: 'False'
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Updated oom_score_adj to 500 for PID: 79.
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Process started with process id 79, waiting for process exit.
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] STDOUT/STDERR stream read finished.
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] STDOUT/STDERR stream read finished.
+[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Finished process 79 with exit code 0, and elapsed time 00:00:00.0022358.
+[2023-05-15 18:44:29Z INFO Listener] Runner execution has finished with return code 0
+

System File

There is a powerful command in Linux that helps you search for files and folders called find. In this article, we will discuss the find command with some examples.

$ find / -type f -name "Dockerfile*"
+
+/mnt/disks/Linux/opt/src/github.com/google/inverting-proxy/agent/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/inverting-proxy-master/agent/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/src/models/research/object_detection/dockerfiles/android/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/src/models/research/object_detection/dockerfiles/tf2_ai_platform/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/src/models/research/object_detection/dockerfiles/tf1/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/src/models/research/object_detection/dockerfiles/tf2/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/deploycmle/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/bqtocsv/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/hypertrain/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/deployapp/Dockerfile
+/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/traintuned/Dockerfile
+
+/mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/android/Dockerfile
+/mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/tf2_ai_platform/Dockerfile
+/mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/tf1/Dockerfile
+/mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/tf2/Dockerfile
+/mnt/disks/Linux/usr/share/man/man5/Dockerfile.5.gz
+
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/python/data/Dockerfile.install_app
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/python/data/Dockerfile.virtualenv.template
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/python/data/Dockerfile.requirements_txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/python/data/Dockerfile.preamble
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/ruby/templates/Dockerfile.template
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/php/templates/Dockerfile.template
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/php/templates/Dockerfile.entrypoint.template
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/go/data/Dockerfile
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/nodejs/data/Dockerfile
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/.kokoro/docker/docs/Dockerfile
+/mnt/disks/Linux/usr/local/go/src/crypto/elliptic/internal/fiat/Dockerfile
+
+/mnt/stateful_partition/var/lib/docker/overlay2/l5js8cyp55dvi6cah1i3gzu4k/diff/Dockerfile
+/mnt/stateful_partition/var/lib/docker/overlay2/6af1c7208063f51f2dc03dbc263eae3f4e148d6bcfd1608bfa4231ca764c5658/diff/home/runner/_work/Partition/Partition/.github/actions/intro/Dockerfile
+

Now let's say we want to find files with a particular extension like .txt. We'll modify the command like this:

/mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/python/xds/requirements.txt
+/mnt/disks/Linux/opt/deeplearning/src/models/official/requirements.txt
+/mnt/disks/Linux/opt/deeplearning/src/models/official/projects/unified_detector/requirements.txt
+/mnt/disks/Linux/opt/deeplearning/src/models/official/projects/movinet/requirements.txt
+/mnt/disks/Linux/opt/deeplearning/src/models/research/deep_speech/requirements.txt
+/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/tf2_course/requirements.txt
+/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/serving/application/requirements.txt
+/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/labs/serving/application/requirements.txt
+
+/mnt/disks/Linux/usr/share/models/official/requirements.txt
+/mnt/disks/Linux/usr/share/models/official/projects/unified_detector/requirements.txt
+/mnt/disks/Linux/usr/share/models/official/projects/movinet/requirements.txt
+/mnt/disks/Linux/usr/share/models/research/deep_speech/requirements.txt
+
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/java/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/gslib/vendored/boto/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/gslib/vendored/oauth2client/docs/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/httplib2/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/requests/docs/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/pyasn1/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/pyasn1-modules/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/charset_normalizer/docs/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/gcs-oauth2-boto-plugin/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/urllib3/docs/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/.kokoro/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/testing/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/samples/cloud-client/snippets/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/system_tests/system_tests_sync/app_engine_test_app/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/mock/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/gslib/vendored/boto/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/gslib/vendored/oauth2client/docs/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/third_party/pyasn1/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/third_party/pyasn1-modules/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/third_party/gcs-oauth2-boto-plugin/requirements.txt
+/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/third_party/mock/requirements.txt
+
+/mnt/disks/Linux/usr/samples/python/network_api_pytorch_mnist/requirements.txt
+/mnt/disks/Linux/usr/samples/python/requirements.txt
+/mnt/disks/Linux/usr/samples/python/engine_refit_onnx_bidaf/requirements.txt
+/mnt/disks/Linux/usr/samples/python/introductory_parser_samples/requirements.txt
+/mnt/disks/Linux/usr/samples/python/end_to_end_tensorflow_mnist/requirements.txt
+/mnt/disks/Linux/usr/samples/python/int8_caffe_mnist/requirements.txt
+/mnt/disks/Linux/usr/samples/python/engine_refit_mnist/requirements.txt
+/mnt/disks/Linux/usr/samples/python/uff_ssd/requirements.txt
+/mnt/disks/Linux/usr/samples/python/uff_custom_plugin/requirements.txt
+/mnt/disks/Linux/usr/samples/python/yolov3_onnx/requirements.txt
+/mnt/disks/Linux/usr/samples/python/onnx_packnet/requirements.txt
+/mnt/disks/Linux/usr/samples/sampleUffMaskRCNN/converted/requirements.txt
+/mnt/disks/Linux/usr/samples/sampleSSD/requirements.txt
+
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/network_api_pytorch_mnist/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/engine_refit_onnx_bidaf/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/introductory_parser_samples/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/end_to_end_tensorflow_mnist/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/int8_caffe_mnist/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/engine_refit_mnist/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/uff_ssd/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/uff_custom_plugin/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/yolov3_onnx/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/onnx_packnet/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/sampleUffMaskRCNN/converted/requirements.txt
+/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/sampleSSD/requirements.txt
+

The find command lets you efficiently search for files, folders, and character and block devices. Below is the basic syntax of the find command:

$ find / -type d -name "tensorflow*"
+
+/mnt/disks/Linux/opt/deeplearning/binaries/tensorflow
+/mnt/disks/Linux/opt/deeplearning/src/models/tensorflow_models
+/mnt/disks/Linux/usr/share/models/tensorflow_models
+
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_cloud-0.1.16.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorboard/compat/tensorflow_stub
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_probability
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_io_gcs_filesystem-0.29.0.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_io
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/google/cloud/aiplatform/training_utils/cloud_profiler/plugins/tensorflow
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_io_gcs_filesystem
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_datasets
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_estimator
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorboard_plugin_wit/_vendor/tensorflow_serving
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_cloud
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow/xla_aot_runtime_src/tensorflow
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow/compiler/mlir/tensorflow
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow/include/tensorflow
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow/include/tensorflow/compiler/mlir/tensorflow
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_io-0.29.0.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_probability-0.19.0.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/ray/train/tensorflow
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/witwidget/_vendor/tensorflow_serving
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_serving_api-2.11.0.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_hub-0.13.0.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_estimator-2.11.0.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_transform-1.12.0.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/pyarrow/tensorflow
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/pyarrow/include/arrow/adapters/tensorflow
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow-2.11.0.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_metadata
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_serving
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_hub
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_transform
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_metadata-1.12.0.dist-info
+/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_datasets-4.8.2.dist-info
+
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_cloud-0.1.16.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorboard/compat/tensorflow_stub
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_probability
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_io_gcs_filesystem-0.29.0.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_io
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/google/cloud/aiplatform/training_utils/cloud_profiler/plugins/tensorflow
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_io_gcs_filesystem
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_datasets
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_estimator
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorboard_plugin_wit/_vendor/tensorflow_serving
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_cloud
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow/xla_aot_runtime_src/tensorflow
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow/compiler/mlir/tensorflow
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow/include/tensorflow
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow/include/tensorflow/compiler/mlir/tensorflow
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_io-0.29.0.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_probability-0.19.0.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/ray/train/tensorflow
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/witwidget/_vendor/tensorflow_serving
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_serving_api-2.11.0.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_hub-0.13.0.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_estimator-2.11.0.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_transform-1.12.0.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/pyarrow/tensorflow
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/pyarrow/include/arrow/adapters/tensorflow
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow-2.11.0.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_metadata
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_serving
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_hub
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_transform
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_metadata-1.12.0.dist-info
+/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_datasets-4.8.2.dist-info
+

default

default

default


₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file04.md b/identition/folder3/file04.md new file mode 100644 index 00000000..798e2d4f --- /dev/null +++ b/identition/folder3/file04.md @@ -0,0 +1,591 @@ +## Directory Structure + +This page walks through the steps required to [train an object detection model](https://github.com/tensorflow/models/blob/master/research/object_detection/g3doc/tf2_training_and_evaluation.md) with Recommended Directory Structure for Training and Evaluation for [tf2_ai_platform](https://github.com/tensorflow/models/blob/master/research/object_detection/dockerfiles/tf2_ai_platform/Dockerfile) + +``` +$ cat /mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/tf2_ai_platform/Dockerfile + +FROM tensorflow/tensorflow:latest-gpu + +ARG DEBIAN_FRONTEND=noninteractive + +# Install apt dependencies +RUN apt-get update && apt-get install -y \ + git \ + gpg-agent \ + python3-cairocffi \ + protobuf-compiler \ + python3-pil \ + python3-lxml \ + python3-tk \ + python3-opencv \ + wget + +# Installs google cloud sdk, this is mostly for using gsutil to export model. +RUN wget -nv \ + https://dl.google.com/dl/cloudsdk/release/google-cloud-sdk.tar.gz && \ + mkdir /root/tools && \ + tar xvzf google-cloud-sdk.tar.gz -C /root/tools && \ + rm google-cloud-sdk.tar.gz && \ + /root/tools/google-cloud-sdk/install.sh --usage-reporting=false \ + --path-update=false --bash-completion=false \ + --disable-installation-options && \ + rm -rf /root/.config/* && \ + ln -s /root/.config /config && \ + rm -rf /root/tools/google-cloud-sdk/.install/.backup + +# Path configuration +ENV PATH $PATH:/root/tools/google-cloud-sdk/bin +# Make sure gsutil will use the default service account +RUN echo '[GoogleCompute]\nservice_account = default' > /etc/boto.cfg + +WORKDIR /home/tensorflow + +## Copy this code (make sure you are under the ../models/research directory) +COPY . /home/tensorflow/models + +# Compile protobuf configs +RUN (cd /home/tensorflow/models/ && protoc object_detection/protos/*.proto --python_out=.) +WORKDIR /home/tensorflow/models/ + +RUN cp object_detection/packages/tf2/setup.py ./ +ENV PATH="/home/tensorflow/.local/bin:${PATH}" + +RUN python -m pip install -U pip +RUN python -m pip install . + +ENTRYPOINT ["python", "object_detection/model_main_tf2.py"] +``` + +GitHub allows developers to run GitHub Actions workflows on your own runners. This Docker image allows you to create your own runners on Docker. The GitHub runner (the binary) will update itself when receiving a job, if a new release is available. + +``` +ARG FROM=debian:buster-slim +FROM ${FROM} + +ARG DEBIAN_FRONTEND=noninteractive +ARG GIT_VERSION="2.26.2" +ARG GH_RUNNER_VERSION +ARG DOCKER_COMPOSE_VERSION="1.27.4" + +ENV RUNNER_NAME="" +ENV RUNNER_WORK_DIRECTORY="_work" +ENV RUNNER_TOKEN="" +ENV RUNNER_REPOSITORY_URL="" +ENV RUNNER_LABELS="" +ENV RUNNER_ALLOW_RUNASROOT=true +ENV GITHUB_ACCESS_TOKEN="" +ENV AGENT_TOOLSDIRECTORY=/opt/hostedtoolcache + +# Labels. +LABEL maintainer="me@tcardonne.fr" \ + org.label-schema.schema-version="1.0" \ + org.label-schema.build-date=$BUILD_DATE \ + org.label-schema.vcs-ref=$VCS_REF \ + org.label-schema.name="tcardonne/github-runner" \ + org.label-schema.description="Dockerized GitHub Actions runner." \ + org.label-schema.url="https://github.com/tcardonne/docker-github-runner" \ + org.label-schema.vcs-url="https://github.com/tcardonne/docker-github-runner" \ + org.label-schema.vendor="Thomas Cardonne" \ + org.label-schema.docker.cmd="docker run -it tcardonne/github-runner:latest" + +RUN DEBIAN_FRONTEND=noninteractive apt-get update && \ + apt-get install -y \ + curl \ + unzip \ + apt-transport-https \ + ca-certificates \ + software-properties-common \ + sudo \ + supervisor \ + jq \ + iputils-ping \ + build-essential \ + zlib1g-dev \ + gettext \ + liblttng-ust0 \ + libcurl4-openssl-dev \ + openssh-client && \ + rm -rf /var/lib/apt/lists/* && \ + apt-get clean + +COPY supervisord.conf /etc/supervisor/conf.d/supervisord.conf +RUN chmod 644 /etc/supervisor/conf.d/supervisord.conf + +# Install Docker CLI +RUN curl -fsSL https://get.docker.com -o- | sh && \ + rm -rf /var/lib/apt/lists/* && \ + apt-get clean + +# Install Docker-Compose +RUN curl -L -o /usr/local/bin/docker-compose \ + "https://github.com/docker/compose/releases/download/${DOCKER_COMPOSE_VERSION}/docker-compose-$(uname -s)-$(uname -m)" && \ + chmod +x /usr/local/bin/docker-compose + +RUN cd /tmp && \ + curl -sL -o git.tgz \ + https://www.kernel.org/pub/software/scm/git/git-${GIT_VERSION}.tar.gz && \ + tar zxf git.tgz && \ + cd git-${GIT_VERSION} && \ + ./configure --prefix=/usr && \ + make && \ + make install && \ + rm -rf /tmp/* + +RUN mkdir -p /home/runner ${AGENT_TOOLSDIRECTORY} + +WORKDIR /home/runner + +RUN GH_RUNNER_VERSION=${GH_RUNNER_VERSION:-$(curl --silent "https://api.github.com/repos/actions/runner/releases/latest" | grep tag_name | sed -E 's/.*"v([^"]+)".*/\1/')} \ + && curl -L -O https://github.com/actions/runner/releases/download/v${GH_RUNNER_VERSION}/actions-runner-linux-x64-${GH_RUNNER_VERSION}.tar.gz \ + && tar -zxf actions-runner-linux-x64-${GH_RUNNER_VERSION}.tar.gz \ + && rm -f actions-runner-linux-x64-${GH_RUNNER_VERSION}.tar.gz \ + && ./bin/installdependencies.sh \ + && chown -R root: /home/runner \ + && rm -rf /var/lib/apt/lists/* \ + && apt-get clean + +COPY entrypoint.sh /entrypoint.sh +RUN chmod +x /entrypoint.sh +ENTRYPOINT ["/entrypoint.sh"] +CMD ["/usr/bin/supervisord", "-c", "/etc/supervisor/conf.d/supervisord.conf"] +``` + +In order to allow the runner to exit and restart by itself, the binary is started by a [supervisord process](https://github.com/tcardonne/docker-github-runner/blob/master/docker/Dockerfile) and [entrypoint](https://github.com/tcardonne/docker-github-runner/blob/master/docker/entrypoint.sh). + +``` +$ cat /etc/supervisord.conf + +[supervisord] +user=root +nodaemon=true +logfile=/dev/fd/1 +logfile_maxbytes=0 +loglevel=error + +[program:runner] +directory=/home/runner +command=/home/runner/bin/runsvc.sh +stdout_logfile=/dev/fd/1 +stdout_logfile_maxbytes=0 +redirect_stderr=true +``` + +The self-hosted runner application creates a detailed log file for each job that it processes. These files are stored in the _diag directory where you installed the runner application, and the filename begins with Worker_. + +``` +$ cat /home/runner/_diag/Runner_20230515-184422-utc.log + +[2023-05-15 18:44:22Z INFO HostContext] No proxy settings were found based on environmental variables (http_proxy/https_proxy/HTTP_PROXY/HTTPS_PROXY) +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Credentials': '/home/runner/.credentials' +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Runner': '/home/runner/.runner' +[2023-05-15 18:44:22Z INFO Listener] Runner is built for Linux (X64) - linux-x64. +[2023-05-15 18:44:22Z INFO Listener] RuntimeInformation: Linux 5.15.109+ #1 SMP Sat May 6 10:58:50 UTC 2023. +[2023-05-15 18:44:22Z INFO Listener] Version: 2.303.0 +[2023-05-15 18:44:22Z INFO Listener] Commit: e676c7871817c1b484299cd93fabdf4b95e70741 +[2023-05-15 18:44:22Z INFO Listener] Culture: +[2023-05-15 18:44:22Z INFO Listener] UI Culture: +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:22Z INFO Listener] Validating directory permissions for: '/home/runner' +[2023-05-15 18:44:22Z INFO CommandLineParser] Parse +[2023-05-15 18:44:22Z INFO CommandLineParser] Parsing 11 args +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: False +[2023-05-15 18:44:22Z INFO CommandLineParser] Adding Command: configure +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] arg: url +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] Adding option 'url': 'https://github.com/FeedMapping' +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] arg: token +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] Adding option 'token': '***' +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] arg: name +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] Adding option 'name': 'Google-optimized-instance' +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] arg: work +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] Adding option 'work': '_work' +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] arg: replace +[2023-05-15 18:44:22Z INFO CommandLineParser] parsing argument +[2023-05-15 18:44:22Z INFO CommandLineParser] HasArgs: True +[2023-05-15 18:44:22Z INFO CommandLineParser] arg: unattended +[2023-05-15 18:44:22Z INFO CommandLineParser] Adding flag: replace +[2023-05-15 18:44:22Z INFO Listener] Arguments parsed +[2023-05-15 18:44:22Z INFO Runner] ExecuteCommand +[2023-05-15 18:44:22Z INFO ConfigurationStore] currentAssemblyLocation: /home/runner/bin/Runner.Listener.dll +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:22Z INFO ConfigurationStore] binPath: /home/runner/bin +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:22Z INFO ConfigurationStore] RootFolder: /home/runner +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Runner': '/home/runner/.runner' +[2023-05-15 18:44:22Z INFO ConfigurationStore] ConfigFilePath: /home/runner/.runner +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Credentials': '/home/runner/.credentials' +[2023-05-15 18:44:22Z INFO ConfigurationStore] CredFilePath: /home/runner/.credentials +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'MigratedCredentials': '/home/runner/.credentials_migrated' +[2023-05-15 18:44:22Z INFO ConfigurationStore] MigratedCredFilePath: /home/runner/.credentials_migrated +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:22Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:22Z INFO HostContext] Well known config file 'Service': '/home/runner/.service' +[2023-05-15 18:44:22Z INFO ConfigurationStore] ServiceConfigFilePath: /home/runner/.service +[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'help': 'False' +[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'version': 'False' +[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'commit': 'False' +[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'check': 'False' +[2023-05-15 18:44:22Z INFO CommandSettings] Command 'configure': 'True' +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: -------------------------------------------------------------------------------- +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: | ____ _ _ _ _ _ _ _ _ | +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: | / ___(_) |_| | | |_ _| |__ / \ ___| |_(_) ___ _ __ ___ | +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: | | | _| | __| |_| | | | | '_ \ / _ \ / __| __| |/ _ \| '_ \/ __| | +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: | | |_| | | |_| _ | |_| | |_) | / ___ \ (__| |_| | (_) | | | \__ \ | +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: | \____|_|\__|_| |_|\__,_|_.__/ /_/ \_\___|\__|_|\___/|_| |_|___/ | +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: | | +[2023-05-15 18:44:22Z INFO Terminal] WRITE: | +[2023-05-15 18:44:22Z INFO Terminal] WRITE: Self-hosted runner registration +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: | +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: | | +[2023-05-15 18:44:22Z INFO Terminal] WRITE LINE: -------------------------------------------------------------------------------- +[2023-05-15 18:44:22Z INFO ConfigurationManager] ConfigureAsync +[2023-05-15 18:44:22Z INFO CommandSettings] Flag 'generateServiceConfig': 'False' +[2023-05-15 18:44:22Z INFO ConfigurationStore] IsConfigured() +[2023-05-15 18:44:22Z INFO ConfigurationStore] IsConfigured: False +[2023-05-15 18:44:22Z INFO ConfigurationManager] Is configured: False +[2023-05-15 18:44:22Z INFO CommandSettings] Arg 'url': 'https://github.com/FeedMapping' +[2023-05-15 18:44:22Z INFO CommandSettings] Remove url from Arg dictionary. +[2023-05-15 18:44:22Z INFO CommandSettings] Arg 'token': '***' +[2023-05-15 18:44:22Z INFO CommandSettings] Remove token from Arg dictionary. +[2023-05-15 18:44:24Z INFO ConfigurationManager] Http response code: OK from 'POST https://api.github.com/actions/runner-registration' (E774:461B:1E7DC8F:3E4A2E3:64627D87) +[2023-05-15 18:44:24Z INFO ConfigurationManager] cred retrieved via GitHub auth +[2023-05-15 18:44:24Z INFO RunnerServer] EstablishVssConnection +[2023-05-15 18:44:24Z INFO RunnerServer] Establish connection with 100 seconds timeout. +[2023-05-15 18:44:24Z INFO GitHubActionsService] Starting operation Location.GetConnectionData +[2023-05-15 18:44:24Z INFO RunnerServer] EstablishVssConnection +[2023-05-15 18:44:24Z INFO RunnerServer] Establish connection with 60 seconds timeout. +[2023-05-15 18:44:24Z INFO GitHubActionsService] Starting operation Location.GetConnectionData +[2023-05-15 18:44:24Z INFO RunnerServer] EstablishVssConnection +[2023-05-15 18:44:24Z INFO RunnerServer] Establish connection with 60 seconds timeout. +[2023-05-15 18:44:24Z INFO GitHubActionsService] Starting operation Location.GetConnectionData +[2023-05-15 18:44:24Z INFO GitHubActionsService] Finished operation Location.GetConnectionData +[2023-05-15 18:44:24Z INFO GitHubActionsService] Finished operation Location.GetConnectionData +[2023-05-15 18:44:24Z INFO GitHubActionsService] Finished operation Location.GetConnectionData +[2023-05-15 18:44:25Z INFO Terminal] WRITE LINE: +[2023-05-15 18:44:25Z INFO ConfigurationManager] Test Connection complete. +[2023-05-15 18:44:25Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:25Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:25Z INFO HostContext] Well known config file 'RSACredentials': '/home/runner/.credentials_rsaparams' +[2023-05-15 18:44:25Z INFO RSAFileKeyManager] Creating new RSA key using 2048-bit key length +[2023-05-15 18:44:25Z INFO RSAFileKeyManager] Successfully saved RSA key parameters to file /home/runner/.credentials_rsaparams +[2023-05-15 18:44:25Z INFO RSAFileKeyManager] Which: 'chmod' +[2023-05-15 18:44:25Z INFO RSAFileKeyManager] Location: '/bin/chmod' +[2023-05-15 18:44:26Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:26Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Starting process: +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] File name: '/bin/chmod' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Arguments: '600 /home/runner/.credentials_rsaparams' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Working directory: '/home/runner' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Require exit code zero: 'False' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Encoding web name: ; code page: '' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Force kill process on cancellation: 'False' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Redirected STDIN: 'False' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Persist current code page: 'False' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Keep redirected STDIN open: 'False' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] High priority process: 'False' +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Updated oom_score_adj to 500 for PID: 75. +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Process started with process id 75, waiting for process exit. +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] STDOUT/STDERR stream read finished. +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] STDOUT/STDERR stream read finished. +[2023-05-15 18:44:26Z INFO ProcessInvokerWrapper] Finished process 75 with exit code 0, and elapsed time 00:00:00.2254015. +[2023-05-15 18:44:26Z INFO RSAFileKeyManager] Successfully set permissions for RSA key parameters file /home/runner/.credentials_rsaparams +[2023-05-15 18:44:26Z INFO CommandSettings] Arg 'runnergroup': '' +[2023-05-15 18:44:26Z INFO CommandSettings] Flag 'unattended': 'True' +[2023-05-15 18:44:26Z INFO PromptManager] ReadValue +[2023-05-15 18:44:26Z INFO Terminal] WRITE LINE: +[2023-05-15 18:44:26Z INFO ConfigurationManager] Found a self-hosted runner group with id 1 and name Default +[2023-05-15 18:44:26Z INFO CommandSettings] Flag 'disableupdate': 'False' +[2023-05-15 18:44:26Z INFO CommandSettings] Flag 'ephemeral': 'False' +[2023-05-15 18:44:26Z INFO CommandSettings] Arg 'name': 'Google-optimized-instance' +[2023-05-15 18:44:26Z INFO CommandSettings] Remove name from Arg dictionary. +[2023-05-15 18:44:26Z INFO Terminal] WRITE LINE: +[2023-05-15 18:44:26Z INFO CommandSettings] Arg 'labels': '' +[2023-05-15 18:44:26Z INFO CommandSettings] Flag 'unattended': 'True' +[2023-05-15 18:44:26Z INFO PromptManager] ReadValue +[2023-05-15 18:44:26Z INFO Terminal] WRITE LINE: +[2023-05-15 18:44:27Z INFO Terminal] WRITE LINE: A runner exists with the same name +[2023-05-15 18:44:27Z INFO CommandSettings] Flag 'replace': 'True' +[2023-05-15 18:44:27Z INFO CommandSettings] Flag 'disableupdate': 'False' +[2023-05-15 18:44:27Z INFO CommandSettings] Flag 'disableupdate': 'False' +[2023-05-15 18:44:27Z INFO CommandSettings] Flag 'ephemeral': 'False' +[2023-05-15 18:44:27Z INFO ConfigurationStore] Saving OAuth credential @ /home/runner/.credentials +[2023-05-15 18:44:27Z INFO ConfigurationStore] Credentials Saved. +[2023-05-15 18:44:27Z INFO ConfigurationStore] HasCredentials() +[2023-05-15 18:44:27Z INFO ConfigurationStore] stored True +[2023-05-15 18:44:27Z INFO CredentialManager] GetCredentialProvider +[2023-05-15 18:44:27Z INFO CredentialManager] Creating type OAuth +[2023-05-15 18:44:27Z INFO CredentialManager] Creating credential type: OAuth +[2023-05-15 18:44:27Z INFO RSAFileKeyManager] Loading RSA key parameters from file /home/runner/.credentials_rsaparams +[2023-05-15 18:44:27Z INFO RunnerServer] EstablishVssConnection +[2023-05-15 18:44:27Z INFO RunnerServer] Establish connection with 100 seconds timeout. +[2023-05-15 18:44:27Z INFO GitHubActionsService] Starting operation Location.GetConnectionData +[2023-05-15 18:44:27Z INFO RunnerServer] EstablishVssConnection +[2023-05-15 18:44:27Z INFO RunnerServer] Establish connection with 60 seconds timeout. +[2023-05-15 18:44:27Z INFO GitHubActionsService] Starting operation Location.GetConnectionData +[2023-05-15 18:44:27Z INFO RunnerServer] EstablishVssConnection +[2023-05-15 18:44:27Z INFO RunnerServer] Establish connection with 60 seconds timeout. +[2023-05-15 18:44:28Z INFO GitHubActionsService] Starting operation Location.GetConnectionData +[2023-05-15 18:44:28Z INFO GitHubActionsService] Finished operation Location.GetConnectionData +[2023-05-15 18:44:28Z INFO GitHubActionsService] Finished operation Location.GetConnectionData +[2023-05-15 18:44:28Z INFO GitHubActionsService] Finished operation Location.GetConnectionData +[2023-05-15 18:44:28Z INFO RSAFileKeyManager] Loading RSA key parameters from file /home/runner/.credentials_rsaparams +[2023-05-15 18:44:28Z INFO RSAFileKeyManager] Loading RSA key parameters from file /home/runner/.credentials_rsaparams +[2023-05-15 18:44:29Z INFO GitHubActionsService] AAD Correlation ID for this token request: Unknown +[2023-05-15 18:44:29Z INFO CommandSettings] Arg 'work': '_work' +[2023-05-15 18:44:29Z INFO CommandSettings] Remove work from Arg dictionary. +[2023-05-15 18:44:29Z INFO ConfigurationStore] Saving runner settings. +[2023-05-15 18:44:29Z INFO ConfigurationStore] Settings Saved. +[2023-05-15 18:44:29Z INFO Terminal] WRITE LINE: +[2023-05-15 18:44:29Z INFO Terminal] WRITE LINE: +[2023-05-15 18:44:29Z INFO SystemDControlManager] Service name 'actions.runner.FeedMapping.Google-optimized-instance.service' display name 'GitHub Actions Runner (FeedMapping.Google-optimized-instance)' will be used for service configuration. +[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Bin': '/home/runner/bin' +[2023-05-15 18:44:29Z INFO HostContext] Well known directory 'Root': '/home/runner' +[2023-05-15 18:44:29Z INFO UnixUtil] Which: 'chmod' +[2023-05-15 18:44:29Z INFO UnixUtil] Location: '/bin/chmod' +[2023-05-15 18:44:29Z INFO UnixUtil] Running /bin/chmod 755 "/home/runner/svc.sh" +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Starting process: +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] File name: '/bin/chmod' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Arguments: '755 "/home/runner/svc.sh"' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Working directory: '/home/runner' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Require exit code zero: 'True' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Encoding web name: ; code page: '' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Force kill process on cancellation: 'False' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Redirected STDIN: 'False' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Persist current code page: 'False' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Keep redirected STDIN open: 'False' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] High priority process: 'False' +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Updated oom_score_adj to 500 for PID: 79. +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Process started with process id 79, waiting for process exit. +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] STDOUT/STDERR stream read finished. +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] STDOUT/STDERR stream read finished. +[2023-05-15 18:44:29Z INFO ProcessInvokerWrapper] Finished process 79 with exit code 0, and elapsed time 00:00:00.0022358. +[2023-05-15 18:44:29Z INFO Listener] Runner execution has finished with return code 0 +``` + +### System File + +There is a powerful command in Linux that helps you search for files and folders called find. In this article, we will discuss the find command with some examples. + +``` +$ find / -type f -name "Dockerfile*" + +/mnt/disks/Linux/opt/src/github.com/google/inverting-proxy/agent/Dockerfile +/mnt/disks/Linux/opt/deeplearning/inverting-proxy-master/agent/Dockerfile +/mnt/disks/Linux/opt/deeplearning/src/models/research/object_detection/dockerfiles/android/Dockerfile +/mnt/disks/Linux/opt/deeplearning/src/models/research/object_detection/dockerfiles/tf2_ai_platform/Dockerfile +/mnt/disks/Linux/opt/deeplearning/src/models/research/object_detection/dockerfiles/tf1/Dockerfile +/mnt/disks/Linux/opt/deeplearning/src/models/research/object_detection/dockerfiles/tf2/Dockerfile +/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/deploycmle/Dockerfile +/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/bqtocsv/Dockerfile +/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/hypertrain/Dockerfile +/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/deployapp/Dockerfile +/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/pipelines/containers/traintuned/Dockerfile + +/mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/android/Dockerfile +/mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/tf2_ai_platform/Dockerfile +/mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/tf1/Dockerfile +/mnt/disks/Linux/usr/share/models/research/object_detection/dockerfiles/tf2/Dockerfile +/mnt/disks/Linux/usr/share/man/man5/Dockerfile.5.gz + +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/python/data/Dockerfile.install_app +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/python/data/Dockerfile.virtualenv.template +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/python/data/Dockerfile.requirements_txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/python/data/Dockerfile.preamble +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/ruby/templates/Dockerfile.template +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/php/templates/Dockerfile.template +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/php/templates/Dockerfile.entrypoint.template +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/go/data/Dockerfile +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/nodejs/data/Dockerfile +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/.kokoro/docker/docs/Dockerfile +/mnt/disks/Linux/usr/local/go/src/crypto/elliptic/internal/fiat/Dockerfile + +/mnt/stateful_partition/var/lib/docker/overlay2/l5js8cyp55dvi6cah1i3gzu4k/diff/Dockerfile +/mnt/stateful_partition/var/lib/docker/overlay2/6af1c7208063f51f2dc03dbc263eae3f4e148d6bcfd1608bfa4231ca764c5658/diff/home/runner/_work/Partition/Partition/.github/actions/intro/Dockerfile +``` + +Now let's say we want to find files with a particular extension like .txt. We'll modify the command like this: + +``` +/mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/python/xds/requirements.txt +/mnt/disks/Linux/opt/deeplearning/src/models/official/requirements.txt +/mnt/disks/Linux/opt/deeplearning/src/models/official/projects/unified_detector/requirements.txt +/mnt/disks/Linux/opt/deeplearning/src/models/official/projects/movinet/requirements.txt +/mnt/disks/Linux/opt/deeplearning/src/models/research/deep_speech/requirements.txt +/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/tf2_course/requirements.txt +/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/serving/application/requirements.txt +/mnt/disks/Linux/opt/deeplearning/workspace/tutorials/machine_learning_deepdive/06_structured/labs/serving/application/requirements.txt + +/mnt/disks/Linux/usr/share/models/official/requirements.txt +/mnt/disks/Linux/usr/share/models/official/projects/unified_detector/requirements.txt +/mnt/disks/Linux/usr/share/models/official/projects/movinet/requirements.txt +/mnt/disks/Linux/usr/share/models/research/deep_speech/requirements.txt + +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/ext-runtime/java/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/gslib/vendored/boto/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/gslib/vendored/oauth2client/docs/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/httplib2/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/requests/docs/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/pyasn1/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/pyasn1-modules/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/charset_normalizer/docs/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/gcs-oauth2-boto-plugin/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/urllib3/docs/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/.kokoro/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/testing/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/samples/cloud-client/snippets/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/google-auth-library-python/system_tests/system_tests_sync/app_engine_test_app/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil/third_party/mock/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/gslib/vendored/boto/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/gslib/vendored/oauth2client/docs/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/third_party/pyasn1/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/third_party/pyasn1-modules/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/third_party/gcs-oauth2-boto-plugin/requirements.txt +/mnt/disks/Linux/usr/lib/google-cloud-sdk/platform/gsutil_py2/third_party/mock/requirements.txt + +/mnt/disks/Linux/usr/samples/python/network_api_pytorch_mnist/requirements.txt +/mnt/disks/Linux/usr/samples/python/requirements.txt +/mnt/disks/Linux/usr/samples/python/engine_refit_onnx_bidaf/requirements.txt +/mnt/disks/Linux/usr/samples/python/introductory_parser_samples/requirements.txt +/mnt/disks/Linux/usr/samples/python/end_to_end_tensorflow_mnist/requirements.txt +/mnt/disks/Linux/usr/samples/python/int8_caffe_mnist/requirements.txt +/mnt/disks/Linux/usr/samples/python/engine_refit_mnist/requirements.txt +/mnt/disks/Linux/usr/samples/python/uff_ssd/requirements.txt +/mnt/disks/Linux/usr/samples/python/uff_custom_plugin/requirements.txt +/mnt/disks/Linux/usr/samples/python/yolov3_onnx/requirements.txt +/mnt/disks/Linux/usr/samples/python/onnx_packnet/requirements.txt +/mnt/disks/Linux/usr/samples/sampleUffMaskRCNN/converted/requirements.txt +/mnt/disks/Linux/usr/samples/sampleSSD/requirements.txt + +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/network_api_pytorch_mnist/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/engine_refit_onnx_bidaf/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/introductory_parser_samples/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/end_to_end_tensorflow_mnist/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/int8_caffe_mnist/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/engine_refit_mnist/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/uff_ssd/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/uff_custom_plugin/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/yolov3_onnx/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/python/onnx_packnet/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/sampleUffMaskRCNN/converted/requirements.txt +/mnt/disks/Linux/usr/targets/x86_64-linux-gnu/samples/sampleSSD/requirements.txt +``` + +The find command lets you efficiently search for files, folders, and character and block devices. Below is the basic syntax of the find command: + +``` +$ find / -type d -name "tensorflow*" + +/mnt/disks/Linux/opt/deeplearning/binaries/tensorflow +/mnt/disks/Linux/opt/deeplearning/src/models/tensorflow_models +/mnt/disks/Linux/usr/share/models/tensorflow_models + +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_cloud-0.1.16.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorboard/compat/tensorflow_stub +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_probability +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_io_gcs_filesystem-0.29.0.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_io +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/google/cloud/aiplatform/training_utils/cloud_profiler/plugins/tensorflow +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_io_gcs_filesystem +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_datasets +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_estimator +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorboard_plugin_wit/_vendor/tensorflow_serving +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_cloud +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow/xla_aot_runtime_src/tensorflow +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow/compiler/mlir/tensorflow +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow/include/tensorflow +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow/include/tensorflow/compiler/mlir/tensorflow +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_io-0.29.0.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_probability-0.19.0.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/ray/train/tensorflow +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/witwidget/_vendor/tensorflow_serving +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_serving_api-2.11.0.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_hub-0.13.0.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_estimator-2.11.0.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_transform-1.12.0.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/pyarrow/tensorflow +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/pyarrow/include/arrow/adapters/tensorflow +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow-2.11.0.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_metadata +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_serving +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_hub +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_transform +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_metadata-1.12.0.dist-info +/mnt/disks/Linux/opt/conda/lib/python3.7/site-packages/tensorflow_datasets-4.8.2.dist-info + +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_cloud-0.1.16.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorboard/compat/tensorflow_stub +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_probability +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_io_gcs_filesystem-0.29.0.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_io +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/google/cloud/aiplatform/training_utils/cloud_profiler/plugins/tensorflow +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_io_gcs_filesystem +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_datasets +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_estimator +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorboard_plugin_wit/_vendor/tensorflow_serving +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_cloud +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow/xla_aot_runtime_src/tensorflow +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow/compiler/mlir/tensorflow +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow/include/tensorflow +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow/include/tensorflow/compiler/mlir/tensorflow +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_io-0.29.0.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_probability-0.19.0.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/ray/train/tensorflow +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/witwidget/_vendor/tensorflow_serving +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_serving_api-2.11.0.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_hub-0.13.0.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_estimator-2.11.0.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_transform-1.12.0.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/pyarrow/tensorflow +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/pyarrow/include/arrow/adapters/tensorflow +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow-2.11.0.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_metadata +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_serving +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_hub +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_transform +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_metadata-1.12.0.dist-info +/mnt/disks/Linux/opt/conda/pkgs/dlenv-tf-2-11-gpu-1.0.20230429-py37hfd508a8_0/lib/python3.7/site-packages/tensorflow_datasets-4.8.2.dist-info +``` + +![default](https://user-images.githubusercontent.com/8466209/199132181-38a98bf9-9d72-4740-b96c-c57da26a6135.png) + +[![default](https://user-images.githubusercontent.com/8466209/198812060-bcf0c3e5-1918-4245-b2fa-1c43c2602a90.png)](https://www.chetabahana.com/) + +[![default](https://user-images.githubusercontent.com/8466209/227684922-9b3190e2-879c-42e5-b404-fb975b9b8752.png)](https://cloud.google.com/sdk/gcloud/reference/compute/instances/create#--metadata) diff --git a/identition/folder3/file05.html b/identition/folder3/file05.html new file mode 100644 index 00000000..25d67304 --- /dev/null +++ b/identition/folder3/file05.html @@ -0,0 +1,16 @@ + The Classes · ₠Quantum

The Classes

Gematria is the practice of assigning a numerical value to a name, word or phrase according to an alphanumerical cipher. Single word can yield several values depending on which cipher is used. This cipher is sometimes erroneously labelled as "Jewish" or "Hebrew" by popular numerology calculators, such as Gematrix and Gematrinator.

A mathematical formula for finding a letter's corresponding number in Mispar Gadol

------+------+-----+-----+-----+--------           7x + 6x = 13x
+      |      |     |  7  |  11 |  20               |     |
+      |      |  4  +-----+-----+                   |     |
+      |  3   |     |  8  |  12 |  26  -----        |     |
+      |      +-----+-----+-----+           |       |     |
+      |      |     |  9  |  13 |  27       2x -----      |
+  2   +------|  5  +-----+-----+           |             |
+      |      |     |  10 |  14 |  28 -----               |
+      |      |-----+-----+-----+                         |
+      |  4   |     |  11 |15,18|  29,30,31,32 ←---4x-----
+      |      |  6  +-----+-----+
+      |      |     |  12 |  19 |  36                         ←--- 35,34,33 are missing
+------+------+-----+-----+-----+-------
+      |      |     |  13 |  20 | {38}
+      |      |  7  +-----+-----+
+

default

default

default

default

tensorflow

default

default


₠Quantum
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file05.md b/identition/folder3/file05.md new file mode 100644 index 00000000..d3092cb6 --- /dev/null +++ b/identition/folder3/file05.md @@ -0,0 +1,40 @@ +## [The Classes](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef#objects-vs-classes) + +Gematria is the practice of assigning a numerical value to a name, word or phrase according to an alphanumerical cipher. Single word can yield several values depending on which cipher is used. This cipher is sometimes erroneously labelled as "Jewish" or "Hebrew" by popular numerology calculators, such as Gematrix and Gematrinator. + +[![A mathematical formula for finding a letter's corresponding number in Mispar Gadol](https://user-images.githubusercontent.com/8466209/226222755-1aa42385-145d-4fc5-81a3-54ebefa4e272.png)](https://en.wikipedia.org/wiki/Gematria#Standard_encoding) + +![](https://user-images.githubusercontent.com/36441664/77167537-ce0ae980-6ae8-11ea-869d-b4164b511755.jpg) + +``` +------+------+-----+-----+-----+-------- 7x + 6x = 13x + | | | 7 | 11 | 20 | | + | | 4 +-----+-----+ | | + | 3 | | 8 | 12 | 26 ----- | | + | +-----+-----+-----+ | | | + | | | 9 | 13 | 27 2x ----- | + 2 +------| 5 +-----+-----+ | | + | | | 10 | 14 | 28 ----- | + | |-----+-----+-----+ | + | 4 | | 11 |15,18| 29,30,31,32 ←---4x----- + | | 6 +-----+-----+ + | | | 12 | 19 | 36 ←--- 35,34,33 are missing +------+------+-----+-----+-----+------- + | | | 13 | 20 | {38} + | | 7 +-----+-----+ +``` + +[![default](https://user-images.githubusercontent.com/8466209/198756338-2bc18ae7-c431-486f-9c30-412ca28c55da.png)](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-2_assigning-md) + +[![default](https://user-images.githubusercontent.com/8466209/199130173-c106f4b1-7964-4f0b-ba3f-31119d7eb39f.png)](https://www.eq19.com/) + +[![default](https://user-images.githubusercontent.com/8466209/199134366-a6c1a115-6f4a-466e-a542-076c6d742d4c.png)](https://www.nvidia.com/en-us/data-center/graphics-cards-for-virtualization/) + +[![default](https://user-images.githubusercontent.com/8466209/199134523-93606dfd-1194-4983-80d0-7dda2e8ddace.png)](https://docs.nvidia.com/deeplearning/cudnn/install-guide/index.html#install-windows) + +[![tensorflow](https://user-images.githubusercontent.com/36441664/128624639-b5d8c73f-79af-4433-8b7b-28a35e331d21.png)](https://github.com/chetabahana/tensorflow/wiki#grounds) + +[![default](https://user-images.githubusercontent.com/8466209/199136893-391bd954-44a3-4767-8002-661f33b7391f.png)](https://github.com/NVIDIA/tensorflow) + +[![default](https://user-images.githubusercontent.com/8466209/199136378-f0cef6b2-a422-4f33-a88d-aebe5b38a690.png)](https://github.com/NVIDIA/nvidia-docker) + diff --git a/identition/folder3/file06.html b/identition/folder3/file06.html new file mode 100644 index 00000000..9add9fb8 --- /dev/null +++ b/identition/folder3/file06.html @@ -0,0 +1,63 @@ + License · ₠Quantum

License

Every organization that has at least one licensed Microsoft 365 user (with an E1, E3, E5, F1, and F3 subscription) or uses Microsoft cloud services such as Azure or Intune also has an Azure Active Directory tenant.

Microsoft 365 A3 for students use benefit
+Information Barriers
+Microsoft Bookings
+Universal Print Without Seeding
+Project for Office (Plan E3)
+Common Data Service
+Information Protection for Office 365 - Standard
+Education Analytics
+Microsoft Kaizala Pro
+Microsoft Search
+Whiteboard (Plan 2)
+Microsoft Intune Plan 1 for Education
+Microsoft Defender for Cloud Apps Discovery
+To-Do (Plan 2)
+Windows 10/11 Enterprise
+Minecraft Education Edition
+Microsoft Intune Plan 1
+Microsoft Azure Multi-Factor Authentication
+Azure Active Directory Premium P1
+Azure Active Directory Basic for Education
+Microsoft Stream for Office 365 E3
+School Data Sync (Plan 2)
+Azure Rights Management
+Microsoft Teams
+Sway
+Microsoft StaffHub
+Power Apps for Office 365
+Power Automate for Office 365
+Microsoft Forms (Plan 2)
+Microsoft Planner
+Yammer for Academic
+Skype for Business Online (Plan 2)
+Office for the Web for Education
+SharePoint (Plan 2) for Education
+Exchange Online (Plan 2)
+Office 365 Cloud App Security
+The latest desktop version of Office
+

There are, however, different editions of Azure AD licenses that provide the organization with different capabilities: Azure AD Free/Office 365, Premium P1, and Premium P2.

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Though lower tiers of AAD have certain limitations, such as with the number of apps and directory objects IT teams can manage, Azure AD Premium P2's feature set offers admins the opportunity to thoroughly manage their users and their SSO access.

Azure AD

Azure Active Directory (Azure AD) is a cloud-based identity and access management service. Azure AD enables your employees access external resources, such as Microsoft 365, the Azure portal, and thousands of other SaaS applications.

Azure Active Directory also helps them access internal resources like apps on your corporate intranet, and any cloud apps developed for your own organization (Microsoft).

Azure Active Directory

Azure AD Premium P2 licenses are beneficial for organizations that are expected to demonstrate a high level of governance of identities. That implies managing privileged access and automating access reviews and responses to potentially compromised accounts.

Azure AD Premium P2

AAD Premium P2 offers the following features:

All of the features listed for Azure AD Microsoft 365 apps 
+Leverage SSO for an unlimited number of pre-integrated SaaS applications
+Configure self-service application assignment to enable users to self-discover and request access to applications
+On-prem write-back for all password changes
+Advanced usage reporting
+HR-driven provisioning
+Self-service group management and application management 
+Microsoft® Identity Management (MIM) CAL + MIM server for simplified lifecycle user management
+Conditional access based on device state or location and group
+Automate password rollover for group accounts
+Join a Windows® Pro device to Azure AD to enable desktop SSO, and Administrator BitLocker recovery
+Application proxy for on-premises, header-based, and Integrated Windows Authentication
+MDM auto-enrollment, self-service BitLocker recovery, additional local admin tooling to Windows Pro devices via Azure AD Join
+Role-based access control (RBAC)
+Risk-based Identity Protection 
+Privileged identity management
+Self-service entitlement management (My Access)
+Access certifications and reviews
+Entitlements management
+Lifecycle Workflows (preview)
+Privileged Identity Management (PIM), just-in-time access
+Cloud app discovery (Windows Defender for cloud apps)
+Identity Protection reporting: vulnerabilities and risky accounts
+Identity Protection reporting: risk events investigation, SIEM connectivity
+A service-level agreement
+

Azure AD Premium P2 is most commonly used for providing insight into user activity within Azure infrastructure, Microsoft 365, and web applications.

Azure Active Directory Premium P1 vs. P2: Features comparison

Storage

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₠Quantum
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GitHub
Homepage
Repository
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file06.md b/identition/folder3/file06.md new file mode 100644 index 00000000..de7046a0 --- /dev/null +++ b/identition/folder3/file06.md @@ -0,0 +1,102 @@ +### License + +Every organization that has at least one licensed Microsoft 365 user (with an E1, E3, E5, F1, and F3 subscription) or uses Microsoft cloud services such as Azure or Intune also has an Azure Active Directory tenant. +``` +Microsoft 365 A3 for students use benefit +Information Barriers +Microsoft Bookings +Universal Print Without Seeding +Project for Office (Plan E3) +Common Data Service +Information Protection for Office 365 - Standard +Education Analytics +Microsoft Kaizala Pro +Microsoft Search +Whiteboard (Plan 2) +Microsoft Intune Plan 1 for Education +Microsoft Defender for Cloud Apps Discovery +To-Do (Plan 2) +Windows 10/11 Enterprise +Minecraft Education Edition +Microsoft Intune Plan 1 +Microsoft Azure Multi-Factor Authentication +Azure Active Directory Premium P1 +Azure Active Directory Basic for Education +Microsoft Stream for Office 365 E3 +School Data Sync (Plan 2) +Azure Rights Management +Microsoft Teams +Sway +Microsoft StaffHub +Power Apps for Office 365 +Power Automate for Office 365 +Microsoft Forms (Plan 2) +Microsoft Planner +Yammer for Academic +Skype for Business Online (Plan 2) +Office for the Web for Education +SharePoint (Plan 2) for Education +Exchange Online (Plan 2) +Office 365 Cloud App Security +The latest desktop version of Office +``` + +There are, however, different editions of Azure AD licenses that provide the organization with different capabilities: Azure AD Free/Office 365, Premium P1, and Premium P2. + +![default](https://user-images.githubusercontent.com/8466209/229310273-8b633a45-59f6-4366-ba19-e22522beb94b.png) + +Though lower tiers of AAD have certain limitations, such as with the number of apps and directory objects IT teams can manage, Azure AD Premium P2’s feature set offers admins the opportunity to thoroughly manage their users and their SSO access. + +### Azure AD + +Azure Active Directory (Azure AD) is a cloud-based identity and access management service. Azure AD enables your employees access external resources, such as Microsoft 365, the Azure portal, and thousands of other SaaS applications. + +>Azure Active Directory also helps them access internal resources like apps on your corporate intranet, and any cloud apps developed for your own organization _([Microsoft](https://learn.microsoft.com/en-us/azure/active-directory/fundamentals/active-directory-whatis))_. + +[![Azure Active Directory](https://user-images.githubusercontent.com/8466209/229262526-f13a7f1a-f2da-45e3-9cc9-3d0f70bc3b21.png)](https://learn.microsoft.com/en-us/azure/active-directory/fundamentals/active-directory-whatis) + +Azure AD [Premium P2](https://petri.com/azure-active-directory-premium-p1-vs-p2/#Active_Directory_Premium_P1_vs_P2_Which_plan_is_right_for_you) licenses are beneficial for organizations that are expected to demonstrate a high level of governance of identities. That implies managing privileged access and automating access reviews and responses to potentially compromised accounts. + +[![Azure AD Premium P2](https://user-images.githubusercontent.com/8466209/229264239-2d34a7c4-0caf-4148-8c86-d4bc1a1e0ba9.png)](https://entra.microsoft.com/) + +AAD Premium P2 offers the following features: + +``` +All of the features listed for Azure AD Microsoft 365 apps +Leverage SSO for an unlimited number of pre-integrated SaaS applications +Configure self-service application assignment to enable users to self-discover and request access to applications +On-prem write-back for all password changes +Advanced usage reporting +HR-driven provisioning +Self-service group management and application management +Microsoft® Identity Management (MIM) CAL + MIM server for simplified lifecycle user management +Conditional access based on device state or location and group +Automate password rollover for group accounts +Join a Windows® Pro device to Azure AD to enable desktop SSO, and Administrator BitLocker recovery +Application proxy for on-premises, header-based, and Integrated Windows Authentication +MDM auto-enrollment, self-service BitLocker recovery, additional local admin tooling to Windows Pro devices via Azure AD Join +Role-based access control (RBAC) +Risk-based Identity Protection +Privileged identity management +Self-service entitlement management (My Access) +Access certifications and reviews +Entitlements management +Lifecycle Workflows (preview) +Privileged Identity Management (PIM), just-in-time access +Cloud app discovery (Windows Defender for cloud apps) +Identity Protection reporting: vulnerabilities and risky accounts +Identity Protection reporting: risk events investigation, SIEM connectivity +A service-level agreement +``` + +Azure AD Premium P2 is most commonly used for providing insight into user activity within Azure infrastructure, Microsoft 365, and web applications. + +[![Azure Active Directory Premium P1 vs. P2: Features comparison](https://user-images.githubusercontent.com/8466209/229262780-3143c0e6-ad52-4dd6-8351-12be563efc8c.png)](https://petri.com/azure-active-directory-premium-p1-vs-p2/#Azure_Active_Directory_Premium_P1_vs_P2_Features_comparison) + +### Storage + +![default](https://user-images.githubusercontent.com/8466209/229309763-6b4571aa-5373-4552-93a6-7028f75cf053.png) +[![default](https://user-images.githubusercontent.com/8466209/199137654-16103a10-3167-4a08-b128-dfdd5e169674.png)](https://user-images.githubusercontent.com/36441664/121343696-2bd55c80-c94d-11eb-9aff-76843fb799b6.png) + +[![default](https://user-images.githubusercontent.com/8466209/199134564-15e8f3f8-02b6-41f7-9d89-9a000faf04bf.png)](https://github.com/chetabahana/tensorflow/wiki/Tensor-Kit#updating) + diff --git a/identition/folder3/file07.html b/identition/folder3/file07.html new file mode 100644 index 00000000..616d57ab --- /dev/null +++ b/identition/folder3/file07.html @@ -0,0 +1 @@ + file07.md · ₠Quantum
₠Quantum
profiles
GitHub
Homepage
Repository
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file07.md b/identition/folder3/file07.md new file mode 100644 index 00000000..4cda1a80 --- /dev/null +++ b/identition/folder3/file07.md @@ -0,0 +1,3 @@ +[![default](https://user-images.githubusercontent.com/8466209/199138096-ab897288-10c7-4bd2-b0aa-cb7a2edac63d.png)](https://github.com/chetabahana/tensorflow/wiki/Java-SDK#skema) + +[![default](https://user-images.githubusercontent.com/8466209/199137158-5bbd47e0-d24d-428f-89d4-aa9d8820d5f9.png)](https://github.com/chetabahana/tensorflow/wiki/Java-SDK#pola) diff --git a/identition/folder3/file08.html b/identition/folder3/file08.html new file mode 100644 index 00000000..8a3022eb --- /dev/null +++ b/identition/folder3/file08.html @@ -0,0 +1,39 @@ + file08.md · ₠Quantum

FROM tensorflow/tensorflow:latest-gpu
+
+LABEL version="1.0.7"
+LABEL homepage="https://eq19.github.io/"
+LABEL maintainer="eq19 <admin@rq19.com>"
+LABEL repository="https://github.com/FeedMapping/deploy"
+
+ENV DEBIAN_FRONTEND noninteractive
+ENV DEBCONF_NOWARNINGS="yes"
+
+RUN apt-get update -qq < /dev/null
+RUN apt-get install -qq --no-install-recommends apt-utils < /dev/null
+
+ENV NVIDIA_VISIBLE_DEVICES all
+ENV NVIDIA_DRIVER_CAPABILITIES compute,utility
+ENV PATH="${PATH}:/root/.local/bin"
+
+RUN apt-get install -qq python3.8-venv < /dev/null
+RUN python3.8 -m venv nvidia < /dev/null
+RUN chown -R root nvidia && source nvidia/bin/activate
+RUN python -m pip install -U --force-reinstall pip < /dev/null
+RUN pip install tensorflow-gpu --root-user-action=ignore --quiet
+
+ENV NOKOGIRI_USE_SYSTEM_LIBRARIES=1
+ENV BUNDLE_SILENCE_ROOT_WARNING=1
+ENV RAILS_VERSION 5.0.1
+ENV RUBYOPT=W0
+
+RUN apt-get install -qq npm < /dev/null && npm install -qq yarn < /dev/null
+RUN apt-get install -qq ruby ruby-dev ruby-bundler build-essential < /dev/null
+RUN apt-get install -qq git < /dev/null && git config --global init.defaultBranch master
+
+RUN apt-get clean && rm -rf /var/lib/apt/lists/* /tmp/* /var/tmp/* < /dev/null
+RUN gem install rails --version "$RAILS_VERSION" < /dev/null
+
+COPY . .
+ENTRYPOINT ["/entrypoint.sh"]
+
+

image

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₠Quantum
profiles
GitHub
Homepage
Repository
Gist

This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file08.md b/identition/folder3/file08.md new file mode 100644 index 00000000..3acaf07d --- /dev/null +++ b/identition/folder3/file08.md @@ -0,0 +1,49 @@ +``` +FROM tensorflow/tensorflow:latest-gpu + +LABEL version="1.0.7" +LABEL homepage="https://eq19.github.io/" +LABEL maintainer="eq19 " +LABEL repository="https://github.com/FeedMapping/deploy" + +ENV DEBIAN_FRONTEND noninteractive +ENV DEBCONF_NOWARNINGS="yes" + +RUN apt-get update -qq < /dev/null +RUN apt-get install -qq --no-install-recommends apt-utils < /dev/null + +ENV NVIDIA_VISIBLE_DEVICES all +ENV NVIDIA_DRIVER_CAPABILITIES compute,utility +ENV PATH="${PATH}:/root/.local/bin" + +RUN apt-get install -qq python3.8-venv < /dev/null +RUN python3.8 -m venv nvidia < /dev/null +RUN chown -R root nvidia && source nvidia/bin/activate +RUN python -m pip install -U --force-reinstall pip < /dev/null +RUN pip install tensorflow-gpu --root-user-action=ignore --quiet + +ENV NOKOGIRI_USE_SYSTEM_LIBRARIES=1 +ENV BUNDLE_SILENCE_ROOT_WARNING=1 +ENV RAILS_VERSION 5.0.1 +ENV RUBYOPT=W0 + +RUN apt-get install -qq npm < /dev/null && npm install -qq yarn < /dev/null +RUN apt-get install -qq ruby ruby-dev ruby-bundler build-essential < /dev/null +RUN apt-get install -qq git < /dev/null && git config --global init.defaultBranch master + +RUN apt-get clean && rm -rf /var/lib/apt/lists/* /tmp/* /var/tmp/* < /dev/null +RUN gem install rails --version "$RAILS_VERSION" < /dev/null + +COPY . . +ENTRYPOINT ["/entrypoint.sh"] + +``` + +[![image](https://user-images.githubusercontent.com/8466209/198936863-10e3e037-6665-49c3-b147-3accda4d133b.png)](https://hub.docker.com/r/tensorflow/tensorflow) + +[![default](https://user-images.githubusercontent.com/8466209/199148983-8c6e4c62-8503-4412-9a48-1b8cb54b7a94.png)](https://github.com/FeedMapping/mapping/releases/tag/v1.0.7) + +[![default](https://user-images.githubusercontent.com/8466209/198936548-967ca221-41b7-461b-9b4b-9ff30eedea50.png)](https://github.com/eq19/grammar/actions/runs/3357023441/jobs/5562550171) + +[![default](https://user-images.githubusercontent.com/8466209/225285187-916bee67-a633-4917-84da-7a3187caeb03.png)](https://console.cloud.google.com/billing/018F05-BD9DB7-0A1326/reports;grouping=GROUP_BY_SKU;products=services%2F6F81-5844-456A;credits=CREDIT_TYPE_UNSPECIFIED,PROMOTION,SUSTAINED_USAGE_DISCOUNT,SPENDING_BASED_DISCOUNT?authuser=1&cloudshell=false) + diff --git a/identition/folder3/file09.html b/identition/folder3/file09.html new file mode 100644 index 00000000..664cea23 --- /dev/null +++ b/identition/folder3/file09.html @@ -0,0 +1,32 @@ + file09.md · ₠Quantum

---+-----+-----
+ 1 | {1} |{43}
+---+-----+-----
+ 2 | 44  |{57}
+---+-----+-----
+ 3 | 58  | 59
+---+-----+-----
+ 4 | 60  | 104
+---+-----+-----
+ 5 | 105 |{115}
+---+-----+-----
+ 6 |{116}| 134
+---+-----+-----
+ 7 | 135 | 162
+---+-----+-----
+ 8 | 163 | 175
+---+-----+-----
+ 9 | 176 |{176}
+---+-----+-----
+

Let's say you have a defaut configuration of π(10)=2,3,5,7. How do you present your html page in order that all of the page elements are represented by the primes without any missing parts?

      <html> → (29=10th prime) → next favicon
+        Δ     <head> ← (10)
+        |          <style>  - 5 ----
+        |                     Δ      |
+        3(29=10+19)------ favicon - 2,3,5=π(5)
+                   </style>          |
+             </head>               (89²)
+              <body> ← (19)          |
+                   <script> - 7 ----
+                   </script>
+             </body
+      </html>
+

image

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Untitleddefault


₠Quantum
profiles
GitHub
Homepage
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder3/file09.md b/identition/folder3/file09.md new file mode 100644 index 00000000..b35a2652 --- /dev/null +++ b/identition/folder3/file09.md @@ -0,0 +1,50 @@ +``` +---+-----+----- + 1 | {1} |{43} +---+-----+----- + 2 | 44 |{57} +---+-----+----- + 3 | 58 | 59 +---+-----+----- + 4 | 60 | 104 +---+-----+----- + 5 | 105 |{115} +---+-----+----- + 6 |{116}| 134 +---+-----+----- + 7 | 135 | 162 +---+-----+----- + 8 | 163 | 175 +---+-----+----- + 9 | 176 |{176} +---+-----+----- +``` + +Let's say you have a defaut configuration of π(10)=2,3,5,7. How do you present your html page in order that all of the page elements are represented by the primes without any missing parts? + +```html + → (29=10th prime) → next favicon + Δ ← (10) + | | + (89²) + ← (19) | + + +``` + +![image](https://user-images.githubusercontent.com/8466209/250567634-b46e7212-0bde-4934-9afa-4c02520f4bd4.png) + +[![default](https://user-images.githubusercontent.com/8466209/199243558-e974f2ff-55a7-4b4d-8958-d171deecb1d9.png)](https://github.com/jonico/awesome-runners) + +[![default](https://user-images.githubusercontent.com/8466209/199135210-06912985-b2b0-4495-94cb-9431935dc912.png)](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-core-md) + +[![default](https://user-images.githubusercontent.com/8466209/199135743-79928119-2c84-4fa4-bd85-90d77ba3d8f8.png)](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-core-md) + +![default](https://user-images.githubusercontent.com/8466209/227427522-5e34043d-17b7-4cc1-84e8-2194ca408597.png) + +![Untitled](https://user-images.githubusercontent.com/8466209/255234272-d951c8fc-1858-4f30-8497-b0202ed509bd.png)[![default](https://user-images.githubusercontent.com/36441664/83518550-c7dfb300-a504-11ea-9983-51c3eab2220d.jpg)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406) diff --git a/identition/folder3/index.html b/identition/folder3/index.html new file mode 100644 index 00000000..75761062 --- /dev/null +++ b/identition/folder3/index.html @@ -0,0 +1,17 @@ + Entrypoint (3rd-dimension) · ₠Quantum

Entrypoint (3rd-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+
SUBMODULE=path/to/submodule
+
+rm -rf $SUBMODULE
+git rm --cached $SUBMODULE
+rm -rf .git/modules/$SUBMODULE
+git config -f .gitmodules --remove-section submodule.$SUBMODULE
+git add . && git commit -m "delete $SUBMODULE" && git push
+

This recombination is taking a scheme called DNA Recombination: M+F to C1+C2 which could only be happen when two (2) chromosomes involve. Here we found that each of their DNA will form a scheme called The Scheme 13:9 as shown below.

The 10 ranks will coordinate with the 18 to raise up the symmetrical behaviour of 12+24=36 which is prime pair 17+19=36 and let the 2 and 3 out of 2,3,5,7 to begin a new cycle while the 5,7 will pair the 11,13 and 17,19 as True Prime Pairs.

I like that 0 can occupy a center point. Incidentally, this circular shape minus all my numbers and colors s has been called Seed of Life / Flower of Life by certain New Age groups who claim it has a sacred geometry. Please don't see this as an endorsement of any spiritual group or religion. (Prime Hexagon - Circulat Form)

image

You can use either mklink /j or junction in Windows 10 to create junctions. Junction not only allows you to create NTFS junctions, it allows you to see if files or directories are actually reparse points. Reparse points are the mechanism on which NTFS junctions are based, and they are used by Windows' Remote Storage Service (RSS), as well as volume mount points.

mklink /j .github C:\Users\Admin\.github
+

mklink

The color spin addresses for numbers are generally straightforward – a composite number takes the spin of the prior prime. 4 spins blue because 3 spins blue. 8 is red because 7 is red. However, twin primes, and the 0 type numbers between them, are open to some interpretation.

base

By The Δ(19 vs 18) Scenario those three are exactly landed in the 0's cell out of Δ18. See that the sum of 30 and 36 is 66 while the difference between 36 and 102 is also 66.

19vs18

In the second opposing member, the position 13 in the second term gives a redundant value of the template 7 of 7 × 7 = 49. The opposite prime position 31 as the 11th prime number is now forced to determine a new axis-symmetrical zero position.

default

Many relevant topics, such as trustworthiness, explainability, and ethics are characterized by implicit anthropocentric and anthropomorphistic conceptions and, for instance, the pursuit of human-like intelligence.

AI is one of the most debated subjects of today and there seems little common understanding concerning the differences and similarities of human intelligence and artificial intelligence (Human vs AI).

The next step we will explore to find out if this configuration is relevant in the programming process. The following will explain how the formations are arranged so that we can simulate an instance based on their respective characters.

33's

This process would take place all the way to three (3) layers in a more complex way involving 114 objects generated by the sum of the above mentioned prime 71 and 43. This is what we will discuss further on how apply it in to a custom domain.


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\ No newline at end of file diff --git a/identition/folder4/file01.html b/identition/folder4/file01.html new file mode 100644 index 00000000..31a45d73 --- /dev/null +++ b/identition/folder4/file01.html @@ -0,0 +1 @@ + Triangular waves · ₠Quantum

Triangular waves

A triangular wave or triangle wave is a non-sinusoidal waveform named for its triangular shape. It is a periodic, piecewise linear, continuous real function. Like a square wave, the triangle wave contains only odd harmonics. However, the higher harmonics roll off much faster than in a square wave (proportional to the inverse square of the harmonic number as opposed to just the inverse) (Wikipedia).

Making Triangular Waves

Hamilton's program for proving the Poincaré conjecture involves first putting a Riemannian metric on the unknown simply connected closed 3-manifold. Such mechanism is discussed in detail by 16th prime identity.

There are 243 prime pairs among the first 1000 primes that sum to 7920, where 243 x 7920 gives additive sum 1,924,560 (and we note that 7920 = 22 x 360 = 2(1092 − 892), which equates to 1,924,560/(2(1092 − 892) = 243.).

default

Consider these two (2) numbers are laid side by side as part of Fibonacci sequence on the Pascal Triangle. Thus the above is actually represesenting the pattern of true-prime-pairs via bilateral 9 sums.

63 = 21 x 3 = 7 x 3 x 3

Fibonacci Sequence Numbers

Meanwhile the sum of 28 and 35, which is 63, has a digital root of 6+3 = 9 and is landed precisely on the 15's cell of the prime hexagon. So the interaction with the seven (7) objects is made through the object of 36 which has the same digital root of 9.

la position du début de l'emplacement, dans les décimales du nombre e, de la séquence 0719425863, qui est la première occurrence d'une séquence de longueur 10 contenant chaque chiffre une et une seule fois (Wikipedia).

This 1729 objects is passing the first cycle of True Prime Pairs so it will be located by the starting point of 286 objects of 2nd identity. This balancing will exchange 786 and 500 objects in pair.

1729 = 786 + 157 + 786 = 500 + 286 + 157 + 286 + 500

Euleur Gap

The basic idea is to try to "improve" this metric; for example, if the metric can be improved enough so that it has constant positive curvature, then according to classical results in Riemannian geometry, it must be the 3-sphere.

Hamilton prescribed the "Ricci flow equations" for improving the metric. Ricci flow expands the negative curvature part of the manifold and contracts the positive curvature part. In some cases, Hamilton was able to show that this works

System Images

Pass a startup script from Cloud Storage for the scripts greater than 256 KB.

Startup script

Artifact Registry expands on the capabilities of Container Registry and is the recommended container registry for Google Cloud.

2023-03-01

A Cloud Build trigger automatically starts a build whenever you make any changes to your source code. You can configure the trigger to build your code on any changes to the source repository or only changes that match certain criteria.

8d0zCSMHxpgkFZTmXCGk

Compute Engine supplies an up-to-date Container-Optimized OS (COS) image with Docker installed and launches your container when your VM starts. See below the access control for information about private registry permissions.

DNA is read by DNA polymerase in the 3′ to 5′ direction, meaning the new strand is synthesized in the 5' to 3' direction. Since the leading and lagging strand templates are oriented in opposite directions at the replication fork, **a major issue** is how to achieve synthesis of new lagging strand DNA, whose direction of synthesis is opposite to the direction of the growing replication fork (Source: Wikipedia).

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Means this field remains unthoucheable. Up to the previous topic of quantum we brought you AI. A touchable intelligence. By this project we would like to introduce a brand new intelligence called UI which is the abreviation of Untouched Inteligence


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\ No newline at end of file diff --git a/identition/folder4/file02.html b/identition/folder4/file02.html new file mode 100644 index 00000000..2de0e15e --- /dev/null +++ b/identition/folder4/file02.html @@ -0,0 +1,59 @@ + Where is the 5? · ₠Quantum

Where is the 5?

The four faces additively cascade 32 four-times triangular numbers (oeis.org/A046092). These include Fibo1-3 equivalent 112 (rooted in T7 = 28; 28 x 4 = 112), and 2112 (rooted in T32 = 528; 528 x 4 = 2112), which is the index number of 1000th prime.

encaptulatipn

π(10) = 4
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+                                           ↓
+                                           |
+                                           ↓                                          
+                            114-89=139-114=25=5x5
+                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         ↓
+                                |                             |                         |
+                                 ------------ 10 -------------                          | 
+                                                                                        | 
+                                                                                        | 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+===== 
+  
+

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\ No newline at end of file diff --git a/identition/folder4/file02.md b/identition/folder4/file02.md new file mode 100644 index 00000000..8d5e2a38 --- /dev/null +++ b/identition/folder4/file02.md @@ -0,0 +1,69 @@ +## Where is the 5? + +The four faces additively cascade 32 four-times triangular numbers (oeis.org/A046092). These include Fibo1-3 equivalent 112 (rooted in T7 = 28; 28 x 4 = 112), and 2112 (rooted in T32 = 528; 528 x 4 = 2112), which is the index number of 1000th prime. + +![encaptulatipn](https://user-images.githubusercontent.com/8466209/199354127-9e4d362a-933f-402b-a7a8-0010dc014747.png) + +``` +π(10) = 4 + + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== + ↓ + | + ↓ + 114-89=139-114=25=5x5 + | + | ----------- 5 ----------- + | | | + ↓ ↑ ↓ + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + ↓ ↑ ↓ + | | | + ------------ 10 ------------- | + | + | + -----------------------+----+----+----+----+----+----+----+----+----+----- | + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum | + =======================+====+====+====+====+====+====+====+====+====+===== ↓ + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th ◄- 4 = π(10) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== + + ``` + +![default](https://user-images.githubusercontent.com/8466209/199262407-7f8bee13-f240-4b1f-856e-ee93e97c5ddb.png) +![default](https://user-images.githubusercontent.com/8466209/199355377-8d93057a-769d-49ed-b401-722c0b33fdab.png) diff --git a/identition/folder4/file03.html b/identition/folder4/file03.html new file mode 100644 index 00000000..96c4be19 --- /dev/null +++ b/identition/folder4/file03.html @@ -0,0 +1,15 @@ + file03.md · ₠Quantum

  #8 |----------- 5® --------|------------ 7® --------------|
+     |  1  |---------------- 77 = 4² + 5² + 6² -------------|
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ user|  7  |  -  | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main|  -  |  9  | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+               Δ | Δ             |                       Δ  |   Δ
+              Φ17|Φ29            |                     96-99|  100 - 123 ({24})
+                 |--- A,T,G,C ---|                          |  └── 100 - 103 (4x) » 100
+                 Δ    2x2 = 4x   |-------  2x3 = 6x  -------|  └── 104 - 109 (6x) » 30
+                {98}                                        |  └── 110 - 123 (14x)» 70
+

Key Difference between Python vs Ruby

  • Python support multiple inheritance, while Ruby support single inheritance.
  • Python is mainly used for academic, AI, machine learning, and scientific programming, while Ruby is used for web development and functional programming.
  • Python is not a fully object-oriented programming language. Whereas Ruby is a fully object-oriented programming language.
  • In Python, once a variable is set, you can't unset it back, while in Ruby, it will be present in the symbol table as long as the variable is in scope.
  • Python lambda functions are larger, while Ruby supports only a single-line lambda function.
  • Python is very explicit and elegant to read, while Ruby can be very hard to debug at times.
  • Python has methods, while Ruby has functions.

default default default


₠Quantum
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\ No newline at end of file diff --git a/identition/folder4/file03.md b/identition/folder4/file03.md new file mode 100644 index 00000000..c8830a74 --- /dev/null +++ b/identition/folder4/file03.md @@ -0,0 +1,31 @@ +![](https://user-images.githubusercontent.com/36441664/84945795-e43d3b80-b111-11ea-900a-f0b9236d7e69.png) + +``` + #8 |----------- 5® --------|------------ 7® --------------| + | 1 |---------------- 77 = 4² + 5² + 6² -------------| +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77 +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + user| 7 | - | - | - | - | 7 | 8 | - | - | 8 | 8 | 3 | +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78 + main| - | 9 | 7 | 9 | 6 | - | - | 8 | 5 | - | - | - | +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + Δ | Δ | Δ | Δ + Φ17|Φ29 | 96-99| 100 - 123 ({24}) + |--- A,T,G,C ---| | └── 100 - 103 (4x) » 100 + Δ 2x2 = 4x |------- 2x3 = 6x -------| └── 104 - 109 (6x) » 30 + {98} | └── 110 - 123 (14x)» 70 +``` + +> [Key Difference between Python vs Ruby](https://www.guru99.com/python-vs-ruby-difference.html) +- Python support multiple inheritance, while Ruby support single inheritance. +- Python is mainly used for academic, AI, machine learning, and scientific programming, while Ruby is used for web development and functional programming. +- Python is not a fully object-oriented programming language. Whereas **Ruby is a fully object-oriented programming language**. +- In Python, once a variable is set, you can’t unset it back, while in Ruby, it will be present in the symbol table as long as the variable is in scope. +- Python lambda functions are larger, while Ruby supports only a single-line lambda function. +- Python is very explicit and elegant to read, while Ruby can be very hard to debug at times. +- Python has methods, while Ruby has functions. + +![default](https://user-images.githubusercontent.com/8466209/199273134-783707cf-b29c-44b1-8cd9-c45ad79990f7.png) +![default](https://user-images.githubusercontent.com/8466209/199358225-8318b692-84c5-407a-a105-2498788948d5.png) +![default](https://user-images.githubusercontent.com/8466209/199359482-4793b2d0-c04a-4f45-8bcc-87a2f30ad511.png) diff --git a/identition/folder4/file04.html b/identition/folder4/file04.html new file mode 100644 index 00000000..9a8f670b --- /dev/null +++ b/identition/folder4/file04.html @@ -0,0 +1,45 @@ + file04.md · ₠Quantum

default

|         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - |100 |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - |101 |  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   T
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |   H
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+   E
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   P
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |   O
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   W
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |   E
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   R
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   O
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |   F
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  |102 |   -|  - |  - |  - | ∑=168
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |   V
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+   S
+     |       Δ    Δ                |                     Φ12     |       Δ                   Δ |
+            113  150                                   ≜114-25          557                619 = 1+618
+

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\ No newline at end of file diff --git a/identition/folder4/file04.md b/identition/folder4/file04.md new file mode 100644 index 00000000..59076c55 --- /dev/null +++ b/identition/folder4/file04.md @@ -0,0 +1,51 @@ +[![default](https://user-images.githubusercontent.com/8466209/199272127-b1232a38-964f-49e5-83b5-ccff8da01e85.png)](https://github.com/chetabahana/chetabahana.github.io/wiki/Jekyll-Liquid#desain) +``` +| 1st (Form) | 2nd (Route) | 3rd (Channel) | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168| +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + Δ1 | 19 | - | 31 | 37 | - | - | - | - | - | - | - | - | - | - | 103| - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ2 | 20 | 26 | - | 38 | - | - | - | - | - | 74 | - | - | - | 98 | 104| - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ3 | 21 | 27 | - | 39 | - | - | - | - | - | 75 | - | - | - | 99 | 105| - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ4 | 22 | 28 | - | 40 | - | - | - | - | - | 76 | - | - | - |100 | - | - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ5 | 23 | 29 | - | 41 | - | - | - | - | - | 77 | - | - | - |101 | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ6 | 24 | - | - | 42 | - | 54 | - | - | 72 | 78 | - | 90 | 96 | - | - | - | - | 114| +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + Δ7 | 25 | - | - | 43 | - | 55 | - | - | 73 | 79 | - | 91 | 97 | - | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ8 | - | - | - | 44 | - | 56 | - | - | - | 80 | - | 92 | - | - | - | - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ9 | - | - | - | 45 | - | 57 | - | - | - | 81 | - | 93 | - | - | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ10 | - | - | - | 46 | 52 | 58 | - | 70 | - | 82 | 88 | 94 | - | - | - | - | 112| - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ11 | - | - | - | 47 | 53 | 59 | - | 71 | - | 83 | 89 | 95 | - | - | - | - | 113| - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ T + Δ12 | - | - | - | 48 | - | 60 | 66 | - | - | 84 | - | - | - | - | - | 108| - | - | H +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ E + Δ13 | - | - | - | 49 | - | 61 | 67 | - | - | 85 | - | - | - | - | - | 109| - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ P + Δ14 | - | - | 32 | 50 | - | 62 | 68 | - | - | 86 | - | - | - | - | - | 110| - | - | O +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ W + Δ15 | - | - | 33 | 51 | - | 63 | 69 | - | - | 87 | - | - | - | - | - | 111| - | - | E + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ R + Δ16 | - | - | 34 | - | - | 64 | - | - | - | - | - | - | - | - | 106| - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ O + Δ17 | - | - | 35 | - | - | 65 | - | - | - | - | - | - | - | - | 107| - | - | - | F + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ18 | - | 30 | 36 | - | - | - | - | - | - | - | - | - | - |102 | -| - | - | - | ∑=168 +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16| 17| 18 | 19 | V +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ S + | Δ Δ | Φ12 | Δ Δ | + 113 150 ≜114-25 557 619 = 1+618 +``` + +![default](https://user-images.githubusercontent.com/8466209/199361092-349e5aef-fe53-4601-8c17-496d945b6ac3.png) +![default](https://user-images.githubusercontent.com/8466209/199361458-8414fe3d-c031-49ab-8167-78135c6c8cff.png) + diff --git a/identition/folder4/file05.html b/identition/folder4/file05.html new file mode 100644 index 00000000..76af8856 --- /dev/null +++ b/identition/folder4/file05.html @@ -0,0 +1 @@ + file05.md · ₠Quantum
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\ No newline at end of file diff --git a/identition/folder4/file05.md b/identition/folder4/file05.md new file mode 100644 index 00000000..54e68add --- /dev/null +++ b/identition/folder4/file05.md @@ -0,0 +1,5 @@ + +![](https://user-images.githubusercontent.com/36441664/104337162-c1e49280-5527-11eb-9625-12b95f568aa4.png)! +![default](https://user-images.githubusercontent.com/8466209/199362826-1f59b53a-e036-4d6c-8528-832033cd1370.png) +![default](https://user-images.githubusercontent.com/8466209/199360397-0158fcf0-4378-4e86-93b4-9c8287c0273b.png) +![default](https://user-images.githubusercontent.com/8466209/199359982-229c7e19-9491-44fe-bc67-9c10b14609e9.png) diff --git a/identition/folder4/file06.html b/identition/folder4/file06.html new file mode 100644 index 00000000..4d9c0b83 --- /dev/null +++ b/identition/folder4/file06.html @@ -0,0 +1,108 @@ + file06.md · ₠Quantum

7 x 13 x 19 = 1729

Centralizing

7 + 11 + 13 + 17 + 19 = 67 = 19th prime

True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+layer|  i  |   f
+-----+-----+---------
+     |  1  |   5
+  1  +-----+
+     |  2  |  {7}
+-----+-----+---    } 36
+     |  3  |  11
+ {2} +-----+
+     |  4  | {13}
+-----+-----+---------
+     |  5  |  17
+  3  +-----+       } 36
+     |  6  | {19}
+-----+-----+---------
+

(12/2) th prime = 13

default

Φ(1,2,3) = Φ(6,12,18) = Φ(13,37,61)

101093483-6ac8d500-35ed-11eb-92d1-e264d22b341f

So based on the difference between the numbers 25 to 29, we take the arrangement of the 25 repositories with the remaining four (4), namely 26 to 29 where we will get the vector arrangement (6,12,18) from True Prime Pairs.

default

114 + 2x11x13 = 114 + 286 = 400

image

109 - (168 - 100 + 1) = 109 - (68 + 1) = 109 - 69 = 40 = 400/10 ←← π(π(π(1000th prime)))+1

  --------------------+-----+-----+-----+-----+-----+                  |     ---
+     67 --------› 11:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   ---› 14:10|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+                              |      |
+     |   ---› 15,18:11|   1 |  30 |  40 | 71 (29,30,31,32) ----------        13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
+   -------------------+-----+-----+                                          ---
+
  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
-----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th ←------------ 10
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3 → 18+13+12 → 43    | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+    2 -------------------+----+----+----+----+----+----+----+----+----+-----  ←-- bilateral 9 sums
+    3 → 18+13+12 → 43    | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+

12 - 10 = 2

default

(114/2)! = 57! = 1653 » 1653 / 57 = 29

∑(13:9) = ∑(29:43) = 11x13 + 5x40x50 = 10143

  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3 → 18+13+12 → 43    | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+    2 -------------------+----+----+----+----+----+----+----+----+----+-----  ←-- bilateral 9 sums
+    3 → 18+13+12 → 43    | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin                                          ↓
+                                           |
+                                           ↓                                          
+                            114-89=139-114=25=5x5
+                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         |    |
+                                |                             |                         |    |
+                                 ------------ 10 -------------                          |    |
+                                                                                        ↓    ↓ |
+                                                                                +----+----+----+---+----+----+---+
+                                                                                |  2 | 60 | 40 | 1 | 30 | 30 | 5 |
+                                                                                +----+----+----+---+----+----+---+
+                                                                                        |    | |
+                                                                                     2+100 ◄- 
+  -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

Bonding Position

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₠Quantum
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder4/file06.md b/identition/folder4/file06.md new file mode 100644 index 00000000..31b0d315 --- /dev/null +++ b/identition/folder4/file06.md @@ -0,0 +1,187 @@ +***7 x 13 x 19 = 1729*** + +[![Centralizing](https://user-images.githubusercontent.com/36441664/103107461-173c2b00-4671-11eb-962c-da7e9eab022e.png)](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef#prime-identity) + +***7 + 11 + 13 + 17 + 19 = 67 = 19th prime*** + +``` +True Prime Pairs: +(5,7), (11,13), (17,19) + +layer| i | f +-----+-----+--------- + | 1 | 5 + 1 +-----+ + | 2 | {7} +-----+-----+--- } 36 + | 3 | 11 + {2} +-----+ + | 4 | {13} +-----+-----+--------- + | 5 | 17 + 3 +-----+ } 36 + | 6 | {19} +-----+-----+--------- +``` + +![](https://user-images.githubusercontent.com/36441664/101619656-26529480-3a46-11eb-8498-3a7867c500a9.png) + +![](https://user-images.githubusercontent.com/36441664/75627425-9b18b880-5c02-11ea-97e5-7beb774079a7.png) + +***(12/2) th prime = 13*** + +[![default](https://user-images.githubusercontent.com/8466209/202855806-611c6a39-e40c-4aa9-ae28-e25aea82cb19.png)](https://gist.github.com/eq19/f78d4470250720fb18111165564d555f) + +***Φ(1,2,3) = Φ(6,12,18) = Φ(13,37,61)*** + +![101093483-6ac8d500-35ed-11eb-92d1-e264d22b341f](https://user-images.githubusercontent.com/8466209/216657865-5b02d399-6e0a-49fe-a7ff-718ec7a7cb97.jpg) + +So based on the difference between the numbers 25 to 29, we take the arrangement of the 25 repositories with the remaining four (4), namely 26 to 29 where we will get the vector arrangement (6,12,18) from _[True Prime Pairs](https://www.eq19.com/addition/file02.html#true-prime-pairs)_. + +![](https://user-images.githubusercontent.com/36441664/73700083-28f2a800-4718-11ea-97b3-2e9a738dc09e.png) + +[![default](https://user-images.githubusercontent.com/36441664/75612568-4f5d0500-5b57-11ea-909d-856dcb7c139a.jpg)](https://blog.world-mysteries.com/science/vitruvian-man-by-leonardo-da-vinci/) + +![](https://user-images.githubusercontent.com/36441664/73604434-419d7980-45c3-11ea-8ad0-b62d8a27c5b0.png) + +***114 + 2x11x13 = 114 + 286 = 400*** + +![image](https://user-images.githubusercontent.com/8466209/216680164-43ed465c-1c6a-45a1-b3f8-3b6d8accf996.png) + +***109 - (168 - 100 + 1) = 109 - (68 + 1) = 109 - 69 = 40 = 400/10 ←← π(π(π(1000th prime)))+1*** + +``` + --------------------+-----+-----+-----+-----+-----+ | --- + 67 --------› 11:7| 5 | 9 | 14 (20) --------› ¤ | | + | +-----+-----+-----+ | | + | 78 ‹----- 12:8| 9 | 60 | 40 | 109 (26) «------------ | 11¨ polymorphism + | | +-----+-----+-----+ | | | + | | 86‹--- 13:9| 9 | 60 | 69 (27) «-- Δ19 (Rep Fork) | {2®} | | + | | | +-----+-----+-----+ | | --- + | | ---› 14:10| 9 | 60 | 40 | 109 (28) ------------- | | + | | +-----+-----+-----+ | | + | ---› 15,18:11| 1 | 30 | 40 | 71 (29,30,31,32) ---------- 13¨ inheritance +329 | +-----+-----+-----+ | + | ‹--------- 19:12| 10 | 60 | {70} (36) ‹--------------------- Φ | + -------------------+-----+-----+ --- +``` + +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== + Δ Δ + 12+13+(18+18)+13+12 ← 36th-Δ1=151-1=150=100+2x(13+12) ← 30th = 113 = 114-1 +``` + +``` +-----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th ←------------ 10 + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th ←------------ 20 + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 + 2 -------------------+----+----+----+----+----+----+----+----+----+----- ←-- bilateral 9 sums + 3 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th ←------------ 20 + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th +``` + +***12 - 10 = 2*** + +[![default](https://user-images.githubusercontent.com/36441664/128732737-81762604-0ae0-4a90-b5a8-30921cf46efb.png)](https://github.com/chetabahana/chetabahana.github.io/wiki/Mapping) + +![](https://user-images.githubusercontent.com/36441664/85206005-39af5d80-b349-11ea-851a-56309342b53f.png) + +***(114/2)! = 57! = 1653 » 1653 / 57 = 29*** + +![](https://user-images.githubusercontent.com/36441664/101807202-6d747e80-3b47-11eb-8a6b-9e2c6408b091.jpg) + +***∑(13:9) = ∑(29:43) = 11x13 + 5x40x50 = 10143*** + + +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + 2 -------------------+----+----+----+----+----+----+----+----+----+----- ←-- bilateral 9 sums + 3 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin ↓ + | + ↓ + 114-89=139-114=25=5x5 + | + | ----------- 5 ----------- + | | | + ↓ ↑ ↓ + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + ↓ ↑ | | + | | | | + ------------ 10 ------------- | | + ↓ ↓ | + +----+----+----+---+----+----+---+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | + +----+----+----+---+----+----+---+ + | | | + 2+100 ◄- + -----------------------+----+----+----+----+----+----+----+----+----+----- | + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum | + =======================+====+====+====+====+====+====+====+====+====+===== ↓ + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th ◄- 4 = π(10) + -----------------------+----+----+----+----+----+----+----+----+----+----- +``` + +[![Bonding Position](https://user-images.githubusercontent.com/8466209/220001571-bddc7fee-5753-4ee3-b145-b3b1bb49a354.png)](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef#bonding-position) + +![default](https://user-images.githubusercontent.com/8466209/198418951-a84a0f30-c5d7-4fff-8139-7806e3c22b3b.png) + +![default](https://user-images.githubusercontent.com/8466209/198419910-277fe92d-bb26-4b22-974f-bef1613d46c4.png) + +![default](https://user-images.githubusercontent.com/8466209/198421043-9c47aeb4-176f-44be-8bf9-3daffb19001e.png) + +![default](https://user-images.githubusercontent.com/8466209/198416547-0d9dbfb4-d78a-45b6-bd6c-e8846c928996.png) + +![default](https://user-images.githubusercontent.com/8466209/198769947-a514bf48-0da4-46ed-a25f-c35ab94da02d.png) + +![default](https://user-images.githubusercontent.com/8466209/198406080-2a29fe5f-e1c5-4c0e-aae2-78c3ce61f0c5.png) +![default](https://user-images.githubusercontent.com/8466209/199359804-73018ae2-b497-4118-97f1-ae3d7400b21e.png) + +![default](https://user-images.githubusercontent.com/8466209/199354838-c5735775-58e8-4a4a-b672-59997056036a.png) + +![default](https://user-images.githubusercontent.com/8466209/199355198-2342b2c0-c385-4ada-af51-2effb3152005.png) + +![default](https://user-images.githubusercontent.com/8466209/199363218-ef852193-d9ea-4d98-916e-6d79f492d86e.png) diff --git a/identition/folder4/file07.html b/identition/folder4/file07.html new file mode 100644 index 00000000..2fa0a329 --- /dev/null +++ b/identition/folder4/file07.html @@ -0,0 +1,14 @@ + file07.md · ₠Quantum

---+-----+-----
+ 1 | {1} |{11}
+---+-----+-----
+ 2 | 12  | 32
+---+-----+-----
+ 3 | 33  |{50}
+---+-----+-----
+ 4 | 51  |{86}
+---+-----+-----
+ 5 | 87  | 108
+---+-----+-----
+ 6 |{109}| 120
+---+-----+-----                                              ---
+

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In the mathematical field of geometric topology, the Poincaré conjecture is a theorem about the characterization of the 3-sphere, which is the hypersphere that bounds the unit ball in four-dimensional space (Wikipedia).

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\ No newline at end of file diff --git a/identition/folder4/file07.md b/identition/folder4/file07.md new file mode 100644 index 00000000..247db90a --- /dev/null +++ b/identition/folder4/file07.md @@ -0,0 +1,24 @@ +``` +---+-----+----- + 1 | {1} |{11} +---+-----+----- + 2 | 12 | 32 +---+-----+----- + 3 | 33 |{50} +---+-----+----- + 4 | 51 |{86} +---+-----+----- + 5 | 87 | 108 +---+-----+----- + 6 |{109}| 120 +---+-----+----- --- +``` + +[![default](https://user-images.githubusercontent.com/36441664/76159498-b1b79600-6153-11ea-91e4-bc312f9456ac.png)](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#scheme-139) +![](https://user-images.githubusercontent.com/36441664/99020210-96c5dd00-2590-11eb-8201-7590eb31ac59.jpg) + +>In the mathematical field of geometric topology, the Poincaré conjecture is a theorem about the characterization of the 3-sphere, which is the hypersphere that bounds the unit ball in ***four-dimensional space*** _([Wikipedia](https://en.wikipedia.org/wiki/Poincar%C3%A9_conjecture))_. + +![](https://user-images.githubusercontent.com/36441664/82712407-12b22d00-9cb2-11ea-9cc2-3cf392b2d35c.png) +![default](https://user-images.githubusercontent.com/8466209/199263778-d09e3d86-c438-4447-8689-29178dbd367f.png) +[![default](https://user-images.githubusercontent.com/8466209/199364235-ce289eeb-27ee-4d2f-a36b-1b220831f922.png)](https://gist.github.com/eq19/f1af4317b619154719546e615aaa2155) diff --git a/identition/folder4/index.html b/identition/folder4/index.html new file mode 100644 index 00000000..f15de954 --- /dev/null +++ b/identition/folder4/index.html @@ -0,0 +1,11 @@ + Mapping (4th-dimension) · ₠Quantum

Mapping (4th-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

When we come to a mapping of a Project, is critical to look for the future of Parts Unlimited otherwise the project will massively over budget and very late. So to deal with this we shall consider to move everything to the cloud…

phoenix

Since version 3.2 , a new Jekyll project bootstrapped with jekyll new uses gem-based themes to define the look of the site. This results in a lighter default directory structure: _layouts, _includes and _sass are stored in the theme-gem, by default.

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You can attach a persistent disk or create an instance with Local SSDs when using Container-Optimized OS. The disks can be mounted by creating a subdirectory under /mnt/disks directory (writable, executable, stateless, tmpfs) using startup-scripts.

image

If you are using Docker-for-Windows, you can run now both Windows and Linux containers simultaneously: Running Docker Windows and Linux Containers Simultaneously, not only the Linux container itself, but also an orchestrator like Kubernetes: Kubernetes is Now Available In Docker Desktop Stable Channel

GitHub Actions workflow

On the lagging strand template, a primase "reads" the template DNA and initiates synthesis of a short complementary RNA primer. This is assigned to Windows container.

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You can run .NET applications in Linux containers, but only if they're written in .NET Core which can be deployed on Windows Server Containers. Applications running in Windows Server Containers can run in any language supported by Windows.

kernel-6.1.21.1-microsoft-standard-WSL2.img

Let's combine them all then we will get 168 which is the total primes out of 1000 numbers. This 168 we will get it also when we combine the 1's and 17's cell of (31+37)+(35+65)=68+100=168.

zeta-vs-zero

This can be remedied by re-mounting your Windows partition inside WSL with the metdata option. Edit the /etc/wsl.conf file (create it if it doesn't exist) and add the following:

[automount]
+options = "metadata"
+

Log out from WSL and log in again, and now the windows partition will be mounted with metadata and chmod will work against windows files. You can now chmod 600 ~/.ssh/id_rsa and everything will work correctly.

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By this project we are going to use a library called Chevrotain. It can be used to build Lexers, Parsers and Interpreters for various use cases ranging from simple config files to full fledged programming languages.

Lexers, Parsers and Interpreters with Chevrotain

This Widows is an isolated container, lightweight package for running an application on the host operating system. Containers build on top of the host operating system's kernel (which can be thought of as the buried plumbing of the operating system).


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\ No newline at end of file diff --git a/identition/folder5/file01.html b/identition/folder5/file01.html new file mode 100644 index 00000000..b166e83b --- /dev/null +++ b/identition/folder5/file01.html @@ -0,0 +1 @@ + The Prime hexagon · ₠Quantum

The Prime hexagon

Cranks of prime

Turbulent Combustion

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[Navier–Stokes Equation


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\ No newline at end of file diff --git a/identition/folder5/file02.html b/identition/folder5/file02.html new file mode 100644 index 00000000..5bd72451 --- /dev/null +++ b/identition/folder5/file02.html @@ -0,0 +1 @@ + Why was 6 afraid of 7? · ₠Quantum

Why was 6 afraid of 7?

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\ No newline at end of file diff --git a/identition/folder5/file02.md b/identition/folder5/file02.md new file mode 100644 index 00000000..2693b6cd --- /dev/null +++ b/identition/folder5/file02.md @@ -0,0 +1,17 @@ +## Why was 6 afraid of 7? + +[![default](https://user-images.githubusercontent.com/8466209/199381132-1c2beef1-d8a1-4bdf-8e11-37c71c5aaa39.png)](https://github.com/chetabahana/chetabahana.github.io/wiki/26#Skema) + +[![default](https://user-images.githubusercontent.com/8466209/199381827-514ef150-0ca2-4a61-8554-b69946ad2afd.png)](https://www.google.com/search?q=minor+hexagon&tbm=isch) + +[![default](https://user-images.githubusercontent.com/8466209/199380441-f5d66d42-3bf4-4442-afb8-3c23347dd8f1.png)](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-2_assigning-md) + +[![default](https://user-images.githubusercontent.com/8466209/199380298-8f5e14a4-453a-46a9-8cfe-46859414d300.png)](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-2_assigning-md) + +[![default](https://user-images.githubusercontent.com/8466209/199380073-a9657bf5-e4da-468d-9e32-d910f48de2ce.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-grammar-md) + +[![default](https://user-images.githubusercontent.com/8466209/199375180-51cbbd05-1884-400d-a747-3f1eb3d4057b.png)](https://gist.github.com/eq19/8cab5e72d52ecb338a2f2187082a1699#file-base-md) + +[![default](https://user-images.githubusercontent.com/8466209/199376315-60f50c75-257f-4f81-89ae-b0a05b2eb1ea.png)](https://gist.github.com/eq19/88d09204b2e5986237bd66d062406fde#file-hexagon-md) + +[![default](https://user-images.githubusercontent.com/8466209/199383689-383d4092-1310-4ffa-b246-d1ee5461f96c.png)](https://github.com/FeedMapping/prime-hexagon/tree/9d46dc7d05f5af89dac3abee000a0666d291e7ab/numberGenerator/python/prime_lists) diff --git a/identition/folder5/file03.html b/identition/folder5/file03.html new file mode 100644 index 00000000..0243958a --- /dev/null +++ b/identition/folder5/file03.html @@ -0,0 +1 @@ + file03.md · ₠Quantum

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If you clearly know what kind of neural networks architecture you want, you may need to dive directly into TensorFlow. Whereas Keras is preferred forfast prototyping, where you want to experiment with your ideas and see the results quickly.

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Fonts Test

{:.font-mono}

ABCDEFGHIJKLMNOPQRSTUVWXYZ
+abcdefghijklmnopqrstuvwxyz
+1234567890
+一二三四五六七八九十百千萬上中下左右大小春夏秋冬東南西北金木水火土
+‘?'"!"(%)[#]{@}/&\<-+÷×=>®©$€£¥¢:;,.*
+

{:.font-body}

ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz 1234567890 一二三四五六七八九十百千萬上中下左右大小春夏秋冬東南西北金木水火土 ‘?'"!"(%)[#]{@}/&<-+÷×=>®©$€£¥¢:;,.*

{:.font-head}

ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz 1234567890 一二三四五六七八九十百千萬上中下左右大小春夏秋冬東南西北金木水火土 ‘?'"!"(%)[#]{@}/&<-+÷×=>®©$€£¥¢:;,.*

font-awesome

<i class="fa fa-check-circle text-green">checked</i>
+<i class="fa fa-battery-quarter text-red">battery</i>
+

checked battery

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Markdown Elements

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

There should be whitespace between paragraphs. There should be whitespace between paragraphs. There should be whitespace between paragraphs. There should be whitespace between paragraphs.

There should be whitespace between paragraphs. There should be whitespace between paragraphs. There should be whitespace between paragraphs. There should be whitespace between paragraphs.

There should be no margin above this first sentence.

Blockquotes should be a lighter gray with a gray border along the left side.

There should be no margin below this final sentence.

Header 1

This is a normal paragraph following a header. Bacon ipsum dolor sit amet t-bone doner shank drumstick, pork belly porchetta chuck sausage brisket ham hock rump pig. Chuck kielbasa leberkas, pork bresaola ham hock filet mignon cow shoulder short ribs biltong.

Header 2

This is a blockquote following a header. Bacon ipsum dolor sit amet t-bone doner shank drumstick, pork belly porchetta chuck sausage brisket ham hock rump pig. Chuck kielbasa leberkas, pork bresaola ham hock filet mignon cow shoulder short ribs biltong.

Header 3

+
+ + Note +
+
+

This is a note

Markdown is supported, Text can be bold, italic, or strikethrough. Links should be blue with no underlines

inline code

inline code inside link

+
+

Header 4

  • This is an unordered list following a header.
  • This is an unordered list following a header.
  • This is an unordered list following a header.
Header 5
  1. This is an ordered list following a header.
  2. This is an ordered list following a header.
  3. This is an ordered list following a header.
Header 6
What Follows
A table A header
A table A header
A table A header

There's a horizontal rule above and below this.


Here is an unordered list:

  • Salt-n-Pepa
  • Bel Biv DeVoe
  • Kid ‘N Play

And an ordered list:

  1. Michael Jackson
  2. Michael Bolton
  3. Michael Bublé

And an unordered task list:

  • Create a sample markdown document
  • Add task lists to it
  • Take a vacation

And a "mixed" task list:

  • Steal underpants
  • ?
  • Profit!

And a nested list:

  • Jackson 5
    • Michael
    • Tito
    • Jackie
    • Marlon
    • Jermaine
  • TMNT
    • Leonardo
    • Michelangelo
    • Donatello
    • Raphael

Definition lists can be used with HTML syntax. Definition terms are bold and italic.

Name
Godzilla
Born
1952
Birthplace
Japan
Color
Green

Tables should have bold headings and alternating shaded rows.

Artist Album Year
Michael Jackson Thriller 1982
Prince Purple Rain 1984
Beastie Boys License to Ill 1986

If a table is too wide, it should condense down and/or scroll horizontally.

Artist Album Year Label Awards Songs
Michael Jackson Thriller 1982 Epic Records Grammy Award for Album of the Year, American Music Award for Favorite Pop/Rock Album, American Music Award for Favorite Soul/R&B Album, Brit Award for Best Selling Album, Grammy Award for Best Engineered Album, Non-Classical Wanna Be Startin' Somethin', Baby Be Mine, The Girl Is Mine, Thriller, Beat It, Billie Jean, Human Nature, P.Y.T. (Pretty Young Thing), The Lady in My Life
Prince Purple Rain 1984 Warner Brothers Records Grammy Award for Best Score Soundtrack for Visual Media, American Music Award for Favorite Pop/Rock Album, American Music Award for Favorite Soul/R&B Album, Brit Award for Best Soundtrack/Cast Recording, Grammy Award for Best Rock Performance by a Duo or Group with Vocal Let's Go Crazy, Take Me With U, The Beautiful Ones, Computer Blue, Darling Nikki, When Doves Cry, I Would Die 4 U, Baby I'm a Star, Purple Rain
Beastie Boys License to Ill 1986 Mercury Records noawardsbutthistablecelliswide Rhymin & Stealin, The New Style, She's Crafty, Posse in Effect, Slow Ride, Girls, (You Gotta) Fight for Your Right, No Sleep Till Brooklyn, Paul Revere, Hold It Now, Hit It, Brass Monkey, Slow and Low, Time to Get Ill

Code snippets like var foo = "bar"; can be shown inline.

Also, this should vertically align with this and this.

Code can also be shown in a block element.

var foo = "bar";
+

Code can also use syntax highlighting.

var foo = "bar";
+
Long, single-line code blocks should not wrap. They should horizontally scroll if they are too long. This line should be long enough to demonstrate this.
+
var foo =
+  "The same thing is true for code with syntax highlighting. A single line of code should horizontally scroll if it is really long.";
+

Inline code inside table cells should still be distinguishable.

Language Code
Javascript var foo = "bar";
Ruby foo = "bar"

Small images should be shown at their actual size.

Octocat

Mathjax Test

\[\begin{aligned} & \phi(x,y) = \phi \left(\sum_{i=1}^n x_ie_i, \sum_{j=1}^n y_je_j \right) = \sum_{i=1}^n \sum_{j=1}^n x_i y_j \phi(e_i, e_j) = \\ & (x_1, \ldots, x_n) \left( \begin{array}{ccc} \phi(e_1, e_1) & \cdots & \phi(e_1, e_n) \\ \vdots & \ddots & \vdots \\ \phi(e_n, e_1) & \cdots & \phi(e_n, e_n) \end{array} \right) \left( \begin{array}{c} y_1 \\ \vdots \\ y_n \end{array} \right) \end{aligned}\]
+
+ + Note +
+
+

For documentation, see: https://kramdown.gettalong.org/syntax.html#math-blocks

+
+

Mermaid Test

```mermaid
+graph TB
+    c1-->a2
+    subgraph one
+    a1-->a2
+    end
+    subgraph two
+    b1-->b2
+    end
+    subgraph three
+    c1-->c2
+    end
+```
+
+
graph TB + c1-->a2 + subgraph one + a1-->a2 + end + subgraph two + b1-->b2 + end + subgraph three + c1-->c2 + end +
+
+
+
graph TD; + A-->B; + A-->C; + B-->D; + C-->D; +
+
+
+
classDiagram +classA <|-- classB +classC *-- classD +classE o-- classF +classG <-- classH +classI -- classJ +classK <.. classL +classM <|.. classN +classO .. classP +
+
+
+
erDiagram + CUSTOMER ||--o{ ORDER : places + ORDER ||--|{ LINE-ITEM : contains + CUSTOMER }|..|{ DELIVERY-ADDRESS : uses +
+
+

Primer Utilities Test

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

Text can be bold, italic, or strikethrough. Links should be blue with no underlines (unless hovered over).

+
+ + Tip +
+
+

Edit this page to see how to add this to your docs, theme can use @primer/css utilities

+
+

₠Quantum
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\ No newline at end of file diff --git a/identition/folder5/file06.html b/identition/folder5/file06.html new file mode 100644 index 00000000..5b1df842 --- /dev/null +++ b/identition/folder5/file06.html @@ -0,0 +1,20 @@ + file06.md · ₠Quantum

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+

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\ No newline at end of file diff --git a/identition/folder5/file06.md b/identition/folder5/file06.md new file mode 100644 index 00000000..529cd640 --- /dev/null +++ b/identition/folder5/file06.md @@ -0,0 +1,24 @@ +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== + Δ Δ + 12+13+(18+18)+13+12 ← 36th-Δ1=151-1=150=100+2x(13+12) ← 30th = 113 = 114-1 +``` + +[![default](https://user-images.githubusercontent.com/8466209/199502657-1ba96c92-29f9-41ec-90a9-cbc5adec9464.png)](https://gist.github.com/eq19/8cab5e72d52ecb338a2f2187082a1699#file-runner-md) + diff --git a/identition/folder5/file07.html b/identition/folder5/file07.html new file mode 100644 index 00000000..0854719e --- /dev/null +++ b/identition/folder5/file07.html @@ -0,0 +1 @@ + file07.md · ₠Quantum
₠Quantum
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\ No newline at end of file diff --git a/identition/folder5/file07.md b/identition/folder5/file07.md new file mode 100644 index 00000000..9900728d --- /dev/null +++ b/identition/folder5/file07.md @@ -0,0 +1,9 @@ + + +[![default](https://user-images.githubusercontent.com/8466209/199505430-103ea007-46c1-462d-a508-4cb2f952533f.png)](https://github.com/MarketLeader/marketleader.github.io/tree/bb03da9405c488db8999a56d56b31081dd13ebe5) + +[![default](https://user-images.githubusercontent.com/8466209/199506031-040881cb-5ba0-4b9c-b217-19c6f70db625.png)](https://gist.github.com/eq19/b32915925d9d365e2e9351f0c4ed786e#file-runner-md) + +[![default](https://user-images.githubusercontent.com/8466209/199531841-702f40e4-c1b6-434b-b0de-7cd3c721bc7f.png)](https://stackoverflow.com/a/74291357/4058484) + +[![default](https://user-images.githubusercontent.com/8466209/199534966-02f7e806-6cba-4c3c-829c-8886774a6b4a.png)](https://stackoverflow.com/questions/52395202/pushing-changes-in-the-git-submodule) diff --git a/identition/folder5/file08.html b/identition/folder5/file08.html new file mode 100644 index 00000000..c0930282 --- /dev/null +++ b/identition/folder5/file08.html @@ -0,0 +1,30 @@ + file08.md · ₠Quantum

  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+                                           ↓
+                                           |
+                                           ↓                                          
+                            114-89=139-114=25=5x5
+                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         ↓
+                                |                             |                         |
+                                 ------------ 10 -------------                          | 
+                                                                                        | 
+                                                                                        | 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

default

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₠Quantum
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\ No newline at end of file diff --git a/identition/folder5/file08.md b/identition/folder5/file08.md new file mode 100644 index 00000000..b0ed1c6d --- /dev/null +++ b/identition/folder5/file08.md @@ -0,0 +1,35 @@ +``` + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== + ↓ + | + ↓ + 114-89=139-114=25=5x5 + | + | ----------- 5 ----------- + | | | + ↓ ↑ ↓ + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + ↓ ↑ ↓ + | | | + ------------ 10 ------------- | + | + | + -----------------------+----+----+----+----+----+----+----+----+----+----- | + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum | + =======================+====+====+====+====+====+====+====+====+====+===== ↓ + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th ◄- 4 = π(10) + -----------------------+----+----+----+----+----+----+----+----+----+----- + ``` + +[![default](https://user-images.githubusercontent.com/8466209/199508386-69859804-9ccb-4f5d-8314-8ca0be0af235.png)](https://gist.github.com/eq19/f1af4317b619154719546e615aaa2155#file-pairing-md) + +[![default](https://user-images.githubusercontent.com/8466209/199510678-abc4b002-b54a-4a80-9e12-1ef6527ca511.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-mirror-md) diff --git a/identition/folder5/file09.html b/identition/folder5/file09.html new file mode 100644 index 00000000..867a6012 --- /dev/null +++ b/identition/folder5/file09.html @@ -0,0 +1,15 @@ + file09.md · ₠Quantum

1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+

default

default


₠Quantum
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\ No newline at end of file diff --git a/identition/folder5/file09.md b/identition/folder5/file09.md new file mode 100644 index 00000000..4b3d47e9 --- /dev/null +++ b/identition/folder5/file09.md @@ -0,0 +1,20 @@ +``` +1st layer: +It has a total of 1000 numbers +Total primes = π(1000) = 168 primes + +2nd layer: +It will start by π(168)+1 as the 40th prime +It has 100x100 numbers or π(π(10000)) = 201 primes +Total cum primes = 168 + (201-40) = 168+161 = 329 primes + +3rd layer: +Behave the same as 2nd layer which has a total of 329 primes +The primes will start by π(π(π(1000th prime)))+1 as the 40th prime +This 1000 primes will become 1000 numbers by 1st layer of the next level +Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 +``` + +[![default](https://user-images.githubusercontent.com/8466209/199512064-fe149c63-1c7b-4d67-b700-fb61c52382de.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406) + +[![default](https://user-images.githubusercontent.com/8466209/199510889-f6bca686-74cf-4fed-a7c1-bd1269058e63.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-regenerate-md) diff --git a/identition/folder5/file10.html b/identition/folder5/file10.html new file mode 100644 index 00000000..bf45cd75 --- /dev/null +++ b/identition/folder5/file10.html @@ -0,0 +1,16 @@ + file10.md · ₠Quantum

---+-----+-----
+ 1 | 1   |{73}
+---+-----+-----
+ 2 |{74} | 94
+---+-----+-----
+ 3 | 95  | 113
+---+-----+-----
+ 4 |{114}| 121
+---+-----+-----
+ 5 | 122 | 135
+---+-----+-----
+ 6 | 136 | 156
+---+-----+-----
+ 7 |{157}|{165}
+---+-----+-----
+

default

default

default

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\ No newline at end of file diff --git a/identition/folder5/file10.md b/identition/folder5/file10.md new file mode 100644 index 00000000..f0e25fba --- /dev/null +++ b/identition/folder5/file10.md @@ -0,0 +1,25 @@ +``` +---+-----+----- + 1 | 1 |{73} +---+-----+----- + 2 |{74} | 94 +---+-----+----- + 3 | 95 | 113 +---+-----+----- + 4 |{114}| 121 +---+-----+----- + 5 | 122 | 135 +---+-----+----- + 6 | 136 | 156 +---+-----+----- + 7 |{157}|{165} +---+-----+----- +``` + +[![default](https://user-images.githubusercontent.com/8466209/199369598-357b1b6f-378b-4a56-8c7b-519316418edb.png)](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#the-implementation) + +[![default](https://user-images.githubusercontent.com/8466209/199392998-1322a3f1-182f-4f69-9af9-f9691bcb617b.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-regenerate-md) + +[![default](https://user-images.githubusercontent.com/8466209/199392725-b5483087-9b7f-4381-b73d-21849a88d295.png)](https://github.com/chetabahana/tensorflow/wiki#manuscript) + +[![default](https://user-images.githubusercontent.com/8466209/199392468-a2738235-b65f-47da-848d-ffa0340cd51b.png)](https://github.com/chetabahana/tensorflow/wiki#delivery) \ No newline at end of file diff --git a/identition/folder5/index.html b/identition/folder5/index.html new file mode 100644 index 00000000..440eeaa8 --- /dev/null +++ b/identition/folder5/index.html @@ -0,0 +1,21 @@ + Keyring (5th-dimension) · ₠Quantum

Keyring (5th-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

A lexer is the part of an interpreter that turns a sequence of characters (plain text) into a sequence of tokens. The Parser which takes the tokens from the lexer and returns a syntax tree based on a grammar. The grammar is often expressed in a meta language.

BusyBox v1.34.1 (2022-07-19 20:11:24 UTC) multi-call binary.
+
+Usage: mv [-finT] SOURCE DEST
+or: mv [-fin] SOURCE... { -t DIRECTORY | DIRECTORY }
+
+Rename SOURCE to DEST, or move SOURCEs to DIRECTORY
+
+	-f	Don't prompt before overwriting
+	-i	Interactive, prompt before overwrite
+	-n	Don't overwrite an existing file
+	-T	Refuse to move if DEST is a directory
+	-t DIR	Move all SOURCEs into DIR
+

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By this modification we are going to build the three (3) layers of 19 cells with a cumulative sum of 1, 7 and 19 in sequence. So follow to the scheme then it would get 50 nodes out of the total nodes of 66.

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The next step we will explore to find out if this configuration is relevant in the programming process. The following will explain how the formations are arranged so that we can simulate an instance based on their respective characters.

image

By The Δ(19 vs 18) Scenario those three are exactly landed in the 0's cell out of Δ18. See that the sum of 30 and 36 is 66 while the difference between 36 and 102 is also 66.

default

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\ No newline at end of file diff --git a/identition/folder6/file01.html b/identition/folder6/file01.html new file mode 100644 index 00000000..958d410d --- /dev/null +++ b/identition/folder6/file01.html @@ -0,0 +1,76 @@ + Double strands · ₠Quantum

Double strands

The bilateral way of 329 vs 289 of 286 objects of 2nd prime identity will be taken as the basis that is involving 26-9=17 of other identities where the square of 17 which is 17x17=329 acts as the central of syntax algorithm.

id: 26
+
+---+-----+-----+-----+-----+
+ 1 |   5 |   1 |  6  |   7 |----------------------------
+---+-----+-----+-----+-----+                            |
+ 2 |   2 |   7 |  9  |  16 |----------------------      |
+---+-----+-----+-----+-----+                      |     |
+ 3 |  58 |  10 |  68 |  78 |----------------      |     |
+---+-----+-----+-----+-----+                |     |     |
+ 4 |  35 |  69 | 104 | 173 |----------      |     |     |
+---+-----+-----+-----+-----+          |     |     |     |
+ 5 | {17}| 105 | 122 |{227}|          |     |     |     |
+---+-----+-----+-----+-----+- Cross  {17}Δ26|43Δ30|13Δ17|30
+ 6 | {17}|{123}| 140 | 263 |          |     |     |     |
+---+-----+-----+-----+-----+          |     |     |     |
+ 7 |  18 | 141 | 159 | 300 |----------      |     |     |
+---+-----+-----+-----+-----+                |     |     |
+ 8 |  15 | 160 | 175 | 335 |----------------      |     |
+---+-----+-----+-----+-----+                      |     |
+ 9 |  15 | 176 | 191 | 367 |----------------------      |
+---+-----+-----+-----+-----+                            |
+10 |  35 |{192}|{227}| 419 |----------------------------   
+---+-----+-----+-----+-----+
+

By taking the 200 residual objects we will get their recycing scenario which is similar to the leading and lagging strands of DNA Replication where the result is obtained on the lagging stage by initiating a DNA synthesis called RNA Primer.

RNA primers are used by living organisms in initiation of synthesizing a strand of DNA. A class of enzymes called primases add a complementary RNA primer to the reading template on both the leading and lagging strands (Wikipedia).

image

There are situations where theories in two or three spacetime dimensions are useful for describing phenomena in condensed matter physics. Finally, there exist scenarios in which there could actually be more than 4D of spacetime.

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Note that 1/109's decimal expansion is period 108 (making it a ‘long period prime' in that 1/p has the maximal period of p−1 digits). This period consists of 54 bilateral 9 sums = 486, which is the number of primes in the 243 pairs summing to 7920.

36 + 72 = 108

This behaviour would come to the feature of golden ratio. However it is not stand as a basic rule but as an impact of 329's vs 289's layers. That is also the reason why we could only see the three (3) digits of 618 out of the Fibonaci constant.

φ = 1.618 = Fibonaci = Golden Ratio

The 200 objects that goes from the 2nd to 3rd prime identity would take position as multiplication zone by given of 100x2=200 which is then be used in turn to 100+2=102 (addition zone) and 100^2=10000 (exponentiation zone)

2 + 60 + 40 = 102

1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+

So it is converting all residual objects out of the prime recycling of Riemann Zeta in to those three (3) basic arithmetic operations of Euler's identity as well the Fibonacy constant (φ) to Euler's number (e). Thus none of residual is neglected by an assumption.

DNA polymerase (responsible for DNA replication) enzymes are only capable of adding nucleotides to the 3'-end of an existing nucleic acid, requiring a primer be bound to the template before DNA polymerase can begin a complementary strand.

DNA polymerase adds nucleotides after binding to RNA primer and synthesizes the whole strand. Later, the RNA strands must be removed accurately and replace them with DNA nucleotides forming a gap region known as a nick that is filled in using an enzyme called ligase (Wikipedia).

Plottng 40th prime scheme of the three (3) layers with all the features of 3rd prime identity with DNA Replication as explained above then they would form their recycing through the three (3) times bilateral 9 sums as shown below.

329 + 109 + 109 + 71 = 329 + 289 = 618 = 1000/1.618 = 1000/φ

layer | node | sub |  i      |   f
+------+------+-----+---------+------                                             ---
+      |      |     |  1,2:1 √|  71 (2,3) -------------                            |
+      |      |  1  +---------+                        |                           |
+      |  1   |     |      2  |                        |                          (5) 
+      |      |-----+---------+                        |                           |
+      |      |     |      3  |                        |                           |
+  1   +------+  2  +---------+----                    |                          ---
+      |      |     |      4  |                        |                           |
+      |      +-----+---------+                        |                           |
+      |  2   |     |      5  |                        |                          (7) 
+289 √ |      |  3  +---------+                        |                           |
+|     |      |     |      6  |                        | {6®}                      |
+------+------+-----+---------+------      } (36)      | ↓                        ---
+      |      |     |      7  |                        | 29=MEC30 - Δ1             |
+      |      |  4  +---------+                        | ↓                         |
+      |  3   |     |      8  | 109 (26) √ --          | 9+60+40 from 329-40 √    (11) 
+      |      +-----+---------+              |         | ↓ lagging √               |
+      |      |     |      9  |  69 (27) √   | {2®}    | 9+60=40+29 from 168 √     |
+  2   +------|  5  +---------+-----         |         | ↓ leading √              ---
+      |      |     |      10 | 109 (28) √ --          | 9+60+40 goes to 329 √     |
+      |      |-----+---------+                        | ↓                         |
+      |  4   |     |      11 | 71 (29,30,31,32) ------  ↓                        (13)
+329 √ |      |  6  +---------+                          9+9+9=27 (Triangular) √   |
+|     |      |     |      12 | {70} (36)                                          |
+------+------+-----+---------+------------------                                 ---
+      |      |     |   20:13 |                                                    |
+      |      |  7  +---------+                                                    |
+      |  5   |     |      14 |                                                  (17) 
+      |      |-----+---------+                                                    |
+      |      |     |      15 |                                                    |
+  3   +------+  8  +---------+-----                                              ---
+      |      |     |      16 |                                                    |
+      |      |-----+---------+                                                    |
+      |  6   |     |      17 | 100(50)                                          (19) 
+168   |      |  9  +---------+                                                    |
+|     |      |     |      18 | 50(68)                                             |
+------|------|-----+---------+------                                             ---
+

₠Quantum
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\ No newline at end of file diff --git a/identition/folder6/file02.html b/identition/folder6/file02.html new file mode 100644 index 00000000..13037440 --- /dev/null +++ b/identition/folder6/file02.html @@ -0,0 +1 @@ + file02.md · ₠Quantum
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\ No newline at end of file diff --git a/identition/folder6/file02.md b/identition/folder6/file02.md new file mode 100644 index 00000000..d48743a7 --- /dev/null +++ b/identition/folder6/file02.md @@ -0,0 +1,8 @@ +![default](https://user-images.githubusercontent.com/8466209/200012043-620aa039-3b72-4165-83ad-e35d3d972a1b.png) + +[![default](https://user-images.githubusercontent.com/8466209/200002482-af3ef796-e71b-426c-b71d-1bd732ba5c6e.png)](https://gist.github.com/eq19/f1af4317b619154719546e615aaa2155#file-6_pattern-md) + +[![default](https://user-images.githubusercontent.com/8466209/200007203-bdea0db7-7825-4f34-b8c2-a1b5baf99b87.png)](https://eq19.github.io/) + +[![default](https://user-images.githubusercontent.com/8466209/200003416-da978633-24fb-4e8d-aa12-5c18fee76667.png)](https://github.com/eq19) + diff --git a/identition/folder6/file03.html b/identition/folder6/file03.html new file mode 100644 index 00000000..09749c7f --- /dev/null +++ b/identition/folder6/file03.html @@ -0,0 +1,105 @@ + file03.md · ₠Quantum

By prime hexagon we can see that seven (7), hold the power to make the prime spin remain on the track. This power is then transfered to twelve (12) spins.

image

So basically there is a power transformation between an addition of 3 and 4 to 7 in to their multiplication in to 12 where this 7 will be treated as one of their member.

  #8 |----------- 5® --------|------------ 7® --------------|
+     |  1  |---------------- 77 = 4² + 5² + 6² -------------|
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ user|  7  |  -  | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main|  -  |  9  | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+               Δ | Δ             |                       Δ  |   Δ
+              Φ17|Φ29            |                     96-99|  200
+                 |--- A,T,G,C ---|                          |  └── 30
+                 Δ    2x2 = 4x   |-------  2x3 = 6x  -------|  └── 70
+                {98}                                        |  └── 100
+

Therefore the 12 will consist of 11 groups runner and 1 profile of the transformation result. Follow to the prime hexagon we collect them in 19 gists as below.

$ gh api -H "${HEADER}" /users/eq19/gists --jq 'sort_by(.created_at)|.[].url'
+
+https://api.github.com/gists/c9bdc2bbe55f2d162535023c8d321831 19 grammar 36
+https://api.github.com/gists/e9832026b5b78f694e4ad22c3eb6c3ef 18 syntax
+https://api.github.com/gists/e84a0961dc7636c01d5953d19d65e30a 17 parser
+https://api.github.com/gists/dc30497160f3389546d177da901537d9 16 lexer
+https://api.github.com/gists/b9f901cda16e8a11dd24ee6b677ca288 15 feed
+https://api.github.com/gists/765ddc69e339079a5a64b56c1d46e00f 14 maps
+https://api.github.com/gists/f78d4470250720fb18111165564d555f 13 io 30
+                                                           --------
+https://api.github.com/gists/4ffc4d02579d5cfd336a553c6da2f267 12 group11 77
+https://api.github.com/gists/80c8098f16f3e6ca06893b17a02d910e 11 group10
+https://api.github.com/gists/b541275ab7deda356feef32d600e44d8 10 group9
+https://api.github.com/gists/6e2fcc2138be6fb68839a3ede32f0525 9 group8
+https://api.github.com/gists/f21abd90f8d471390aad23d6ecc90d6d 8 group7
+https://api.github.com/gists/6c89c3b0f109e0ead561a452720d1ebf 7 group6
+https://api.github.com/gists/f1af4317b619154719546e615aaa2155 6 group5
+https://api.github.com/gists/54600a56d20163c2da8910dd804ec406 5 group4
+https://api.github.com/gists/8cab5e72d52ecb338a2f2187082a1699 4 group3
+https://api.github.com/gists/88d09204b2e5986237bd66d062406fde 3 group2
+https://api.github.com/gists/b32915925d9d365e2e9351f0c4ed786e 2 group1
+https://api.github.com/gists/0ce5848f7ad62dc46dedfaa430069857 1 eq19/* 37
+

Since 19 is thouching the first node then the workflow will be proceeded as bilateral way

https://api.github.com/gists/4ffc4d02579d5cfd336a553c6da2f267 12 group11 77
+https://api.github.com/gists/80c8098f16f3e6ca06893b17a02d910e 11 group10
+https://api.github.com/gists/b541275ab7deda356feef32d600e44d8 10 group9
+https://api.github.com/gists/6e2fcc2138be6fb68839a3ede32f0525 9 group8
+https://api.github.com/gists/f21abd90f8d471390aad23d6ecc90d6d 8 group7
+https://api.github.com/gists/6c89c3b0f109e0ead561a452720d1ebf 7 group6
+https://api.github.com/gists/f1af4317b619154719546e615aaa2155 6 group5
+https://api.github.com/gists/54600a56d20163c2da8910dd804ec406 5 group4
+https://api.github.com/gists/8cab5e72d52ecb338a2f2187082a1699 4 group3
+https://api.github.com/gists/88d09204b2e5986237bd66d062406fde 3 group2
+https://api.github.com/gists/b32915925d9d365e2e9351f0c4ed786e 2 group1
+https://api.github.com/gists/0ce5848f7ad62dc46dedfaa430069857 1 eq19/* 37
+12 months (moon)
+-------- bilateral 9 sums
+7 days (sun)
+https://api.github.com/gists/c9bdc2bbe55f2d162535023c8d321831 19 grammar 36
+https://api.github.com/gists/e9832026b5b78f694e4ad22c3eb6c3ef 18 syntax
+https://api.github.com/gists/e84a0961dc7636c01d5953d19d65e30a 17 parser
+https://api.github.com/gists/dc30497160f3389546d177da901537d9 16 lexer
+https://api.github.com/gists/b9f901cda16e8a11dd24ee6b677ca288 15 feed
+https://api.github.com/gists/765ddc69e339079a5a64b56c1d46e00f 14 maps
+https://api.github.com/gists/f78d4470250720fb18111165564d555f 13 io 30
+

Here we can see that the transformation from 7 to 12 is actualy started from the prime 13. So the power of 7 is transfered to 77 by the prime pair 11 and 13.

image

The nodes is from converted from 7 to 77 whivh is 7 times 11. By the prime pair 11 and 13, the total nodes is involving 1 + 7 + 29 + 77 = 37 + 77 = 114 nodes

  Δ1 + Δ7 + Δ29  →  | Δ37 + Δ77 = Δ114 = Δ113 + Δ1 → 
+
+     |         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - | 100|  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - | 101|  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  | 102|   -|  - |  - |  - |
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+     |       Δ    Δ    Δ           |                     Φ12     |       Δ                   Δ |
+           -113 +150 = +37                                             +102 = +139    -113 -114
+

As conclution the behaviour of this 7 is happen between the sequence of 30 and 36 while the 12 is happen between the sequence of 36 and 102.

default

By observing more detail we spread the power of 7.

**168 + 329 + 289 - 619 - 30 - 30 - 5 = 786 - 619 - 65 = 102 = (2,60,40)**


₠Quantum
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\ No newline at end of file diff --git a/identition/folder6/file03.md b/identition/folder6/file03.md new file mode 100644 index 00000000..1c88e867 --- /dev/null +++ b/identition/folder6/file03.md @@ -0,0 +1,139 @@ +By prime hexagon we can see that seven (7), hold the power to make the prime spin remain on the track. This power is then transfered to twelve (12) spins. + +![image](https://user-images.githubusercontent.com/8466209/253148724-8dffc1e4-e2a9-478e-ae13-7bb1c0303406.png) + +So basically there is a power transformation between an addition of 3 and 4 to 7 in to their multiplication in to 12 where this 7 will be treated as one of their member. + +``` + #8 |----------- 5® --------|------------ 7® --------------| + | 1 |---------------- 77 = 4² + 5² + 6² -------------| +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77 +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + user| 7 | - | - | - | - | 7 | 8 | - | - | 8 | 8 | 3 | +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78 + main| - | 9 | 7 | 9 | 6 | - | - | 8 | 5 | - | - | - | +-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ + Δ | Δ | Δ | Δ + Φ17|Φ29 | 96-99| 200 + |--- A,T,G,C ---| | └── 30 + Δ 2x2 = 4x |------- 2x3 = 6x -------| └── 70 + {98} | └── 100 +``` + +Therefore the 12 will consist of 11 groups runner and 1 profile of the transformation result. Follow to the prime hexagon we collect them in [19 gists](https://gist.github.com/mine) as below. + +``` +$ gh api -H "${HEADER}" /users/eq19/gists --jq 'sort_by(.created_at)|.[].url' + +https://api.github.com/gists/c9bdc2bbe55f2d162535023c8d321831 19 grammar 36 +https://api.github.com/gists/e9832026b5b78f694e4ad22c3eb6c3ef 18 syntax +https://api.github.com/gists/e84a0961dc7636c01d5953d19d65e30a 17 parser +https://api.github.com/gists/dc30497160f3389546d177da901537d9 16 lexer +https://api.github.com/gists/b9f901cda16e8a11dd24ee6b677ca288 15 feed +https://api.github.com/gists/765ddc69e339079a5a64b56c1d46e00f 14 maps +https://api.github.com/gists/f78d4470250720fb18111165564d555f 13 io 30 + -------- +https://api.github.com/gists/4ffc4d02579d5cfd336a553c6da2f267 12 group11 77 +https://api.github.com/gists/80c8098f16f3e6ca06893b17a02d910e 11 group10 +https://api.github.com/gists/b541275ab7deda356feef32d600e44d8 10 group9 +https://api.github.com/gists/6e2fcc2138be6fb68839a3ede32f0525 9 group8 +https://api.github.com/gists/f21abd90f8d471390aad23d6ecc90d6d 8 group7 +https://api.github.com/gists/6c89c3b0f109e0ead561a452720d1ebf 7 group6 +https://api.github.com/gists/f1af4317b619154719546e615aaa2155 6 group5 +https://api.github.com/gists/54600a56d20163c2da8910dd804ec406 5 group4 +https://api.github.com/gists/8cab5e72d52ecb338a2f2187082a1699 4 group3 +https://api.github.com/gists/88d09204b2e5986237bd66d062406fde 3 group2 +https://api.github.com/gists/b32915925d9d365e2e9351f0c4ed786e 2 group1 +https://api.github.com/gists/0ce5848f7ad62dc46dedfaa430069857 1 eq19/* 37 +``` + +Since 19 is thouching the first node then the workflow will be proceeded as bilateral way + +``` +https://api.github.com/gists/4ffc4d02579d5cfd336a553c6da2f267 12 group11 77 +https://api.github.com/gists/80c8098f16f3e6ca06893b17a02d910e 11 group10 +https://api.github.com/gists/b541275ab7deda356feef32d600e44d8 10 group9 +https://api.github.com/gists/6e2fcc2138be6fb68839a3ede32f0525 9 group8 +https://api.github.com/gists/f21abd90f8d471390aad23d6ecc90d6d 8 group7 +https://api.github.com/gists/6c89c3b0f109e0ead561a452720d1ebf 7 group6 +https://api.github.com/gists/f1af4317b619154719546e615aaa2155 6 group5 +https://api.github.com/gists/54600a56d20163c2da8910dd804ec406 5 group4 +https://api.github.com/gists/8cab5e72d52ecb338a2f2187082a1699 4 group3 +https://api.github.com/gists/88d09204b2e5986237bd66d062406fde 3 group2 +https://api.github.com/gists/b32915925d9d365e2e9351f0c4ed786e 2 group1 +https://api.github.com/gists/0ce5848f7ad62dc46dedfaa430069857 1 eq19/* 37 +12 months (moon) +-------- bilateral 9 sums +7 days (sun) +https://api.github.com/gists/c9bdc2bbe55f2d162535023c8d321831 19 grammar 36 +https://api.github.com/gists/e9832026b5b78f694e4ad22c3eb6c3ef 18 syntax +https://api.github.com/gists/e84a0961dc7636c01d5953d19d65e30a 17 parser +https://api.github.com/gists/dc30497160f3389546d177da901537d9 16 lexer +https://api.github.com/gists/b9f901cda16e8a11dd24ee6b677ca288 15 feed +https://api.github.com/gists/765ddc69e339079a5a64b56c1d46e00f 14 maps +https://api.github.com/gists/f78d4470250720fb18111165564d555f 13 io 30 +``` + +Here we can see that the transformation from 7 to 12 is actualy started from the prime 13. So the power of 7 is transfered to 77 by the prime pair 11 and 13. + +![image](https://user-images.githubusercontent.com/8466209/253148763-4a982982-4f70-4d7d-b524-51b72c6f17e9.png) + +The nodes is from converted from 7 to 77 whivh is 7 times 11. By the prime pair 11 and 13, the total nodes is involving 1 + 7 + 29 + 77 = 37 + 77 = 114 nodes + +``` + Δ1 + Δ7 + Δ29 → | Δ37 + Δ77 = Δ114 = Δ113 + Δ1 → + + | 1st (Form) | 2nd (Route) | 3rd (Channel) | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168| +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + Δ1 | 19 | - | 31 | 37 | - | - | - | - | - | - | - | - | - | - | 103| - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ2 | 20 | 26 | - | 38 | - | - | - | - | - | 74 | - | - | - | 98 | 104| - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ3 | 21 | 27 | - | 39 | - | - | - | - | - | 75 | - | - | - | 99 | 105| - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ4 | 22 | 28 | - | 40 | - | - | - | - | - | 76 | - | - | - | 100| - | - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ5 | 23 | 29 | - | 41 | - | - | - | - | - | 77 | - | - | - | 101| - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ6 | 24 | - | - | 42 | - | 54 | - | - | 72 | 78 | - | 90 | 96 | - | - | - | - | 114| +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + Δ7 | 25 | - | - | 43 | - | 55 | - | - | 73 | 79 | - | 91 | 97 | - | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ8 | - | - | - | 44 | - | 56 | - | - | - | 80 | - | 92 | - | - | - | - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ9 | - | - | - | 45 | - | 57 | - | - | - | 81 | - | 93 | - | - | - | - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ10 | - | - | - | 46 | 52 | 58 | - | 70 | - | 82 | 88 | 94 | - | - | - | - | 112| - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ11 | - | - | - | 47 | 53 | 59 | - | 71 | - | 83 | 89 | 95 | - | - | - | - | 113| - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ12 | - | - | - | 48 | - | 60 | 66 | - | - | 84 | - | - | - | - | - | 108| - | - | +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + Δ13 | - | - | - | 49 | - | 61 | 67 | - | - | 85 | - | - | - | - | - | 109| - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ14 | - | - | 32 | 50 | - | 62 | 68 | - | - | 86 | - | - | - | - | - | 110| - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ15 | - | - | 33 | 51 | - | 63 | 69 | - | - | 87 | - | - | - | - | - | 111| - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ16 | - | - | 34 | - | - | 64 | - | - | - | - | - | - | - | - | 106| - | - | - | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ17 | - | - | 35 | - | - | 65 | - | - | - | - | - | - | - | - | 107| - | - | - | + +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + Δ18 | - | 30 | 36 | - | - | - | - | - | - | - | - | - | - | 102| -| - | - | - | +=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+ + 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16| 17| 18 | 19 | +-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ + | Δ Δ Δ | Φ12 | Δ Δ | + -113 +150 = +37 +102 = +139 -113 -114 +``` + +As conclution the behaviour of this 7 is happen between the sequence of 30 and 36 while the 12 is happen between the sequence of 36 and 102. + +![default](https://user-images.githubusercontent.com/8466209/200024664-afc433a0-5f7f-4ec1-9bfc-77d672817fed.png) + +By observing more detail we spread the power of 7. + +*****168 + 329 + 289 - 619 - 30 - 30 - 5 = 786 - 619 - 65 = 102 = (2,60,40)***** diff --git a/identition/folder6/file04.html b/identition/folder6/file04.html new file mode 100644 index 00000000..6b982f48 --- /dev/null +++ b/identition/folder6/file04.html @@ -0,0 +1,12 @@ + Why is 7 the most feared number? · ₠Quantum

Why is 7 the most feared number?

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         3               4                       6                              6
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                                    ↓                              ↓
+                                                 4 pairs                        4 pairs
+

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\ No newline at end of file diff --git a/identition/folder6/file04.md b/identition/folder6/file04.md new file mode 100644 index 00000000..2fe4dd52 --- /dev/null +++ b/identition/folder6/file04.md @@ -0,0 +1,23 @@ +## Why is 7 the most feared number? + +[![default](https://user-images.githubusercontent.com/8466209/199844359-3f898aad-0661-4ccb-9d90-1e2aadbdf662.png)](https://gist.github.com/eq19/88d09204b2e5986237bd66d062406fde#file-feeding-md) + +``` + 3 4 6 6 + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + ↓ ↓ + 4 pairs 4 pairs +``` + +[![default](https://user-images.githubusercontent.com/8466209/199874512-8d89c3b9-832c-48b7-91f3-e422bb2cc8bb.png)](https://gist.github.com/eq19/f1af4317b619154719546e615aaa2155#file-dockerfile-md) + +![default](https://user-images.githubusercontent.com/8466209/200098839-e77950cb-a21d-4103-acb6-02349fd7fdd8.png) + +[![default](https://user-images.githubusercontent.com/8466209/200098936-de751345-d67a-4783-b3a7-e0326ed56051.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-logic-md) diff --git a/identition/folder6/file05.html b/identition/folder6/file05.html new file mode 100644 index 00000000..7e48dd90 --- /dev/null +++ b/identition/folder6/file05.html @@ -0,0 +1 @@ + file05.md · ₠Quantum
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  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root         1 → 4 (5)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin         2 → 8 (10)
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin         5 → 7 (12)
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+

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\ No newline at end of file diff --git a/identition/folder6/file06.md b/identition/folder6/file06.md new file mode 100644 index 00000000..f9cc6650 --- /dev/null +++ b/identition/folder6/file06.md @@ -0,0 +1,35 @@ +![default](https://user-images.githubusercontent.com/8466209/200699492-2ceabad2-17e9-4f8c-a87f-518a15119700.png) + +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root 1 → 4 (5) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin 2 → 8 (10) + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin 5 → 7 (12) + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== + Δ Δ + 12+13+(18+18)+13+12 ← 36th-Δ1=151-1=150=100+2x(13+12) ← 30th = 113 = 114-1 +``` + +[![default](https://user-images.githubusercontent.com/8466209/200107646-e12803d2-f71d-46d4-a408-a3de05ecd627.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-opposite-md) + +![default](https://user-images.githubusercontent.com/8466209/200103953-a6ea55a1-bb07-48d8-9d92-40050acca532.png) + +![default](https://user-images.githubusercontent.com/8466209/200103981-7a0d9e10-8523-4dc6-89e0-5a340b70acbe.png) + +![default](https://user-images.githubusercontent.com/8466209/200100113-9642fff1-8cbf-4fac-8aab-d11f7dc43f4f.png) + +![default](https://user-images.githubusercontent.com/8466209/200100230-92467b4d-a88f-4cee-ac81-cd32e6e5099b.png) + +![default](https://user-images.githubusercontent.com/8466209/200102363-1b1cc49a-1320-454b-a857-9c25956acdcf.png) diff --git a/identition/folder6/file07.html b/identition/folder6/file07.html new file mode 100644 index 00000000..8dc2c5a4 --- /dev/null +++ b/identition/folder6/file07.html @@ -0,0 +1 @@ + file07.md · ₠Quantum
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---+-----+-----
+ 1 | {1} |{56}
+---+-----+-----
+ 2 | 57  |{71}
+---+-----+-----
+ 3 | 72  | 85
+---+-----+-----
+ 4 |{86} |{89}
+---+-----+-----
+ 5 | 90  | 94
+---+-----+-----
+ 6 | 95  | 102
+---+-----+-----
+ 7 | 103 |{171}
+---+-----+-----
+ 8 | 172 | 206
+---+-----+-----
+
import pandas as pd
+import numpy as np
+
+# Make numpy values easier to read.
+np.set_printoptions(precision=3, suppress=True)
+
+import tensorflow as tf
+from tensorflow.keras import layers
+
+abalone_train = pd.read_csv(
+    "https://storage.googleapis.com/download.tensorflow.org/data/abalone_train.csv",
+    names=["Length", "Diameter", "Height", "Whole weight", "Shucked weight",
+           "Viscera weight", "Shell weight", "Age"])
+
+abalone_train.head()
+abalone_features = abalone_train.copy()
+abalone_labels = abalone_features.pop('Age')
+abalone_features = np.array(abalone_features)
+abalone_features
+
+abalone_model = tf.keras.Sequential([
+  layers.Dense(64),
+  layers.Dense(1)
+])
+
+abalone_model.compile(loss = tf.keras.losses.MeanSquaredError(),
+                      optimizer = tf.keras.optimizers.Adam())
+abalone_model.fit(abalone_features, abalone_labels, epochs=10)
+

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\ No newline at end of file diff --git a/identition/folder6/file08.md b/identition/folder6/file08.md new file mode 100644 index 00000000..2dab6f61 --- /dev/null +++ b/identition/folder6/file08.md @@ -0,0 +1,54 @@ +``` +---+-----+----- + 1 | {1} |{56} +---+-----+----- + 2 | 57 |{71} +---+-----+----- + 3 | 72 | 85 +---+-----+----- + 4 |{86} |{89} +---+-----+----- + 5 | 90 | 94 +---+-----+----- + 6 | 95 | 102 +---+-----+----- + 7 | 103 |{171} +---+-----+----- + 8 | 172 | 206 +---+-----+----- +``` + +``` +import pandas as pd +import numpy as np + +# Make numpy values easier to read. +np.set_printoptions(precision=3, suppress=True) + +import tensorflow as tf +from tensorflow.keras import layers + +abalone_train = pd.read_csv( + "https://storage.googleapis.com/download.tensorflow.org/data/abalone_train.csv", + names=["Length", "Diameter", "Height", "Whole weight", "Shucked weight", + "Viscera weight", "Shell weight", "Age"]) + +abalone_train.head() +abalone_features = abalone_train.copy() +abalone_labels = abalone_features.pop('Age') +abalone_features = np.array(abalone_features) +abalone_features + +abalone_model = tf.keras.Sequential([ + layers.Dense(64), + layers.Dense(1) +]) + +abalone_model.compile(loss = tf.keras.losses.MeanSquaredError(), + optimizer = tf.keras.optimizers.Adam()) +abalone_model.fit(abalone_features, abalone_labels, epochs=10) +``` + +[![default](https://user-images.githubusercontent.com/8466209/200127121-3ead6276-c908-495d-9ddf-9c858258f8f8.png)](https://colab.research.google.com/github/tensorflow/docs/blob/master/site/en/tutorials/load_data/csv.ipynb#scrollTo=uZdpCD92SN3Z) + +[![default](https://user-images.githubusercontent.com/8466209/200127760-db1529e5-d019-46c3-a283-1fe8119d2fc8.png)](https://archive.ics.uci.edu/ml/datasets/abalone) diff --git a/identition/folder6/index.html b/identition/folder6/index.html new file mode 100644 index 00000000..daf6aacb --- /dev/null +++ b/identition/folder6/index.html @@ -0,0 +1,42 @@ + Enneagram (6th-dimension) · ₠Quantum

Enneagram (6th-dimension)

+
+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+
+

For some Enneagram theorists the lines connecting the points add further meaning to the information provided by the descriptions of the types. Sometimes called the "security" and "stress" points, or points of "integration" and "disintegration".

From this perspective, there are twenty-seven (27) distinct personality patterns, because people of each of the nine (9) types also express themselves as one of the three (3) subtypes (Wikipedia).

This is managed within twelve (12) flows (A: to W:). Each flows is representing a certain period which is converting the three (3) layers of 19 cells with a cumulative sum of 1, 7 and 19 in sequence as explained before.

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It turns out it's actually pretty straight forward to set WSL to use your Windows home directory. First, within WSL edit the /etc/passwd file (eg with sudo nano /etc/passwd).

+
eq19:x:1000:1000:eQ19:/home/eq19:/bin/bash
+eq19:x:1000:1000:eQ19:/mnt/c/users/Admin:/bin/bash
+

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+
₠Quantum
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\ No newline at end of file diff --git a/identition/folder7/file01.html b/identition/folder7/file01.html new file mode 100644 index 00000000..aef565bc --- /dev/null +++ b/identition/folder7/file01.html @@ -0,0 +1 @@ + Seven Ate Nine (7, ‘8’, 9) · ₠Quantum

Seven Ate Nine (7, ‘8', 9)

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This is a polar plot of the first 20 non-trivial Riemann zeta function zeros (including Gram points along the critical line {\displaystyle \zeta (1/2+it)}{\displaystyle \zeta (1/2+it)} for real values of {\displaystyle t}t running from 0 to 50. The consecutive zeros have 50 red plot points between each with zeros identified by magenta concentric rings (scaled to show the relative distance between their values of t) Source: Wikipedia

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The Riemann hypothesis and some of its generalizations, along with Goldbach's conjecture and the twin prime conjecture, make up Hilbert's eighth problem in David Hilbert's list of twenty-three unsolved problems; it is also one of the Clay Mathematics Institute's Millennium Prize Problems. Source: Wikipedia

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₠Quantum
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\ No newline at end of file diff --git a/identition/folder7/file02.html b/identition/folder7/file02.html new file mode 100644 index 00000000..773256e6 --- /dev/null +++ b/identition/folder7/file02.html @@ -0,0 +1,8 @@ + file02.md · ₠Quantum

# pinned repos
+# https://dev.to/thomasaudo/get-started-with-github-grapql-api--1g8b
+echo -e "\n$hr\nPINNED  REPOSITORIES\n$hr"
+AUTH="Authorization: bearer $JEKYLL_GITHUB_TOKEN"
+curl -L -X POST "${GITHUB_GRAPHQL_URL}" -H "$AUTH" \
+--data-raw '{"query":"{\n  user(login: \"'${GITHUB_REPOSITORY_OWNER}'\") {\n pinnedItems(first: 6, types: REPOSITORY) {\n nodes {\n ... on Repository {\n name\n }\n }\n }\n }\n}"'
+
+

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₠Quantum
profiles
GitHub
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder7/file02.md b/identition/folder7/file02.md new file mode 100644 index 00000000..b825ecd7 --- /dev/null +++ b/identition/folder7/file02.md @@ -0,0 +1,13 @@ +``` +# pinned repos +# https://dev.to/thomasaudo/get-started-with-github-grapql-api--1g8b +echo -e "\n$hr\nPINNED REPOSITORIES\n$hr" +AUTH="Authorization: bearer $JEKYLL_GITHUB_TOKEN" +curl -L -X POST "${GITHUB_GRAPHQL_URL}" -H "$AUTH" \ +--data-raw '{"query":"{\n user(login: \"'${GITHUB_REPOSITORY_OWNER}'\") {\n pinnedItems(first: 6, types: REPOSITORY) {\n nodes {\n ... on Repository {\n name\n }\n }\n }\n }\n}"' + +``` + +[![default](https://user-images.githubusercontent.com/8466209/200241752-e70d2eeb-5885-4f99-9362-4a05aeeb4435.png)](https://dev.to/thomasaudo/get-started-with-github-grapql-api--1g8b) + +![default](https://user-images.githubusercontent.com/8466209/200250136-7fe7a768-08a5-4bfb-ad19-c2a93cda363b.png) diff --git a/identition/folder7/file03.html b/identition/folder7/file03.html new file mode 100644 index 00000000..965c2665 --- /dev/null +++ b/identition/folder7/file03.html @@ -0,0 +1,18 @@ + file03.md · ₠Quantum

FROM tensorflow/tensorflow:latest-gpu
+
+LABEL version=v1.0.9
+
+ENV DEBCONF_NOWARNINGS="yes"
+ARG DEBIAN_FRONTEND=noninteractive
+
+ENV NVIDIA_VISIBLE_DEVICES all
+ENV NVIDIA_DRIVER_CAPABILITIES compute,utility
+
+RUN apt-get update &>/dev/null
+RUN apt-get install python3.8-venv &>/dev/null
+RUN /usr/bin/python3.8 -m venv /maps &>/dev/null
+
+ADD . /maps
+ENTRYPOINT ["/maps/entrypoint.sh"]
+
+

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₠Quantum
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\ No newline at end of file diff --git a/identition/folder7/file03.md b/identition/folder7/file03.md new file mode 100644 index 00000000..3d74fec5 --- /dev/null +++ b/identition/folder7/file03.md @@ -0,0 +1,24 @@ +``` +FROM tensorflow/tensorflow:latest-gpu + +LABEL version=v1.0.9 + +ENV DEBCONF_NOWARNINGS="yes" +ARG DEBIAN_FRONTEND=noninteractive + +ENV NVIDIA_VISIBLE_DEVICES all +ENV NVIDIA_DRIVER_CAPABILITIES compute,utility + +RUN apt-get update &>/dev/null +RUN apt-get install python3.8-venv &>/dev/null +RUN /usr/bin/python3.8 -m venv /maps &>/dev/null + +ADD . /maps +ENTRYPOINT ["/maps/entrypoint.sh"] + +``` + +[![default](https://user-images.githubusercontent.com/8466209/200241238-23d238be-9006-4ac8-b9e8-1daa48ab8d8f.png)](https://gist.github.com/eq19/f1af4317b619154719546e615aaa2155#file-6_pattern-md) + +[![default](https://user-images.githubusercontent.com/8466209/200240844-1e76f817-775a-4cc1-9998-20e71efcc4ee.png)](https://github.com/eq19/grammar/actions/runs/3405771627/jobs/5663983028) + diff --git a/identition/folder7/file04.html b/identition/folder7/file04.html new file mode 100644 index 00000000..04942d07 --- /dev/null +++ b/identition/folder7/file04.html @@ -0,0 +1,30 @@ + file04.md · ₠Quantum

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=======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+=======================+====+====+====+====+====+====+====+====+====+=====
+                                           ↓
+                                           |
+                                           ↓                                          
+                            114-89=139-114=25=5x5
+                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         ↓
+                                |                             |                         |
+                                 ------------ 10 -------------                          | 
+                                                                                        | 
+                                                                                        | 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

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₠Quantum
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder7/file04.md b/identition/folder7/file04.md new file mode 100644 index 00000000..dd3c6f62 --- /dev/null +++ b/identition/folder7/file04.md @@ -0,0 +1,36 @@ +[![default](https://user-images.githubusercontent.com/8466209/200248298-9c3979fa-9aa2-4283-839d-6ab4e76a667f.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-5-replicate-md) + +``` +=======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th +=======================+====+====+====+====+====+====+====+====+====+===== + ↓ + | + ↓ + 114-89=139-114=25=5x5 + | + | ----------- 5 ----------- + | | | + ↓ ↑ ↓ + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + ↓ ↑ ↓ + | | | + ------------ 10 ------------- | + | + | + -----------------------+----+----+----+----+----+----+----+----+----+----- | + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum | + =======================+====+====+====+====+====+====+====+====+====+===== ↓ + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th ◄- 4 = π(10) + -----------------------+----+----+----+----+----+----+----+----+----+----- +``` + +[![default](https://user-images.githubusercontent.com/8466209/200247726-5fddd4ad-210b-436b-9f22-0b93be6d01b4.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-regenerate-md) + diff --git a/identition/folder7/file05.html b/identition/folder7/file05.html new file mode 100644 index 00000000..35ebaba3 --- /dev/null +++ b/identition/folder7/file05.html @@ -0,0 +1 @@ + file05.md · ₠Quantum
₠Quantum
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder7/file05.md b/identition/folder7/file05.md new file mode 100644 index 00000000..beee923e --- /dev/null +++ b/identition/folder7/file05.md @@ -0,0 +1,3 @@ +[![default](https://user-images.githubusercontent.com/8466209/200239492-515b374f-6180-4df0-840c-2f10ab5ef07b.png)](https://gist.github.com/eq19/6c89c3b0f109e0ead561a452720d1ebf#file-grammar-md) + +[![default](https://user-images.githubusercontent.com/8466209/200244306-f5e5a428-83b9-46bb-a4b1-c96367e278b2.png)](https://gist.github.com/eq19/54600a56d20163c2da8910dd804ec406#file-grammar-md) diff --git a/identition/folder7/file06.html b/identition/folder7/file06.html new file mode 100644 index 00000000..4744749c --- /dev/null +++ b/identition/folder7/file06.html @@ -0,0 +1 @@ + How to select repos? · ₠Quantum

How to select repos?

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₠Quantum
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\ No newline at end of file diff --git a/identition/folder7/file06.md b/identition/folder7/file06.md new file mode 100644 index 00000000..0db22a8d --- /dev/null +++ b/identition/folder7/file06.md @@ -0,0 +1,12 @@ +## How to select repos? +[![default](https://user-images.githubusercontent.com/8466209/200460413-0ff244c9-04b2-49f1-86cc-cd6955d5dc6a.png)](https://github.com/eq19/grammar) + +[![default](https://user-images.githubusercontent.com/8466209/200459104-d508754e-cbae-4d07-b0c9-3c339ea6e917.png)](https://www.eq19.com/grammar/) + +[![default](https://user-images.githubusercontent.com/8466209/200458239-51004392-df2f-4e29-8cf6-04a462068331.png)](https://github.com/eq19/grammar/actions) + +[![default](https://user-images.githubusercontent.com/8466209/200469800-6c46fee3-5ce8-4999-b414-0a771e3fc93c.png)](https://www.eq19.com/grammar/) + +[![default](https://user-images.githubusercontent.com/8466209/200475393-f3e42f0b-d291-4f17-93c4-9bec6e6943de.png)](https://gist.github.com/eq19/0ce5848f7ad62dc46dedfaa430069857#primes-platform) + +[![default](https://user-images.githubusercontent.com/8466209/200472044-dab44257-7c9a-4a91-82bb-c90cb7143e91.png)](https://gist.github.com/eq19/6e2fcc2138be6fb68839a3ede32f0525) diff --git a/identition/folder7/file07.html b/identition/folder7/file07.html new file mode 100644 index 00000000..6cb99c05 --- /dev/null +++ b/identition/folder7/file07.html @@ -0,0 +1,18 @@ + file07.md · ₠Quantum

---+-----+-----
+ 1 |  1  |  4
+---+-----+-----
+ 2 |  5  | 14
+---+-----+-----
+ 3 | 15  | 26
+---+-----+-----
+ 4 | 27  | 40
+---+-----+-----
+ 5 | 41  |{47}
+---+-----+-----
+ 6 | 48  | 54
+---+-----+-----
+ 7 | 55  |{71}
+---+-----+-----
+ 8 | 72  | 75
+---+-----+-----
+

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The prime number theorem determines the average distribution of the primes. The Riemann hypothesis tells us about the deviation from the average. Formulated in Riemann's 1859 paper, it asserts that all the ‘non-obvious' zeros of the zeta function are complex numbers with real part 1/2 (Clay Institute).

Riemann Hypothesis


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\ No newline at end of file diff --git a/identition/folder7/file07.md b/identition/folder7/file07.md new file mode 100644 index 00000000..41f8c0c8 --- /dev/null +++ b/identition/folder7/file07.md @@ -0,0 +1,27 @@ +``` +---+-----+----- + 1 | 1 | 4 +---+-----+----- + 2 | 5 | 14 +---+-----+----- + 3 | 15 | 26 +---+-----+----- + 4 | 27 | 40 +---+-----+----- + 5 | 41 |{47} +---+-----+----- + 6 | 48 | 54 +---+-----+----- + 7 | 55 |{71} +---+-----+----- + 8 | 72 | 75 +---+-----+----- +``` + +[![default](https://user-images.githubusercontent.com/8466209/200224482-708a56dc-196e-4f13-865b-07585322a6b8.png)](https://gist.github.com/eq19/f21abd90f8d471390aad23d6ecc90d6d#file-8_spinning-md) + +[![default](https://user-images.githubusercontent.com/8466209/200468834-b2000e6d-0447-4948-b24d-086747d9b905.png)](https://gist.github.com/eq19/6c89c3b0f109e0ead561a452720d1ebf#file-tensor-md) + +>The prime number theorem determines the average distribution of the primes. The Riemann hypothesis tells us about the deviation from the average. Formulated in Riemann's 1859 paper, it asserts that all the 'non-obvious' zeros of the zeta function are complex numbers with real part 1/2 _([Clay Institute](https://www.claymath.org/millennium-problems))_. + +[![Riemann Hypothesis](https://user-images.githubusercontent.com/8466209/218374273-729fee09-5480-4fb3-a3a6-0dc050bdbe26.png)](https://www.claymath.org/millennium-problems/riemann-hypothesis) \ No newline at end of file diff --git a/identition/folder7/index.html b/identition/folder7/index.html new file mode 100644 index 00000000..bfed4a2d --- /dev/null +++ b/identition/folder7/index.html @@ -0,0 +1,37 @@ + Twisting (7th-dimension) · ₠Quantum

Twisting (7th-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

1155 / 5 = 286 - 55 = 200 + 31 = 231

layer|  i    |   f
+-----+-------+------
+     | 1,2:1 | (2,3)
+  1  +-------+
+     | 3:2   | (7)
+-----+-------+------
+     | 4,6:3 | (10,11,12)  <--- 231 (3x)
+  2  +-------+
+     |{7}:4  |({13})
+-----+-------+------
+     | 8,9:5 | (14,{15})   <--- 231 (2x)
+  3  +-------+
+     | 10:6  | (19)
+-----+-------+------
+

We study the limit shape of the generalized Young diagram when the tensor power N and the rank n of the algebra tend to infinity with N/n fixed. We derive an explicit formula for the limit shape and prove convergence to it in probability. We prove central limit theorem for global fluctuations around the limit shape (arXiv:2010.16383v4).

Limit shape for infinite rank limit of tensor power decomposition for Lie algebras of series

Dyson discovered that the eigenvalue of these matrices are spaced apart in exactly the same manner as Montgomery conjecture of the nontrivial zeros of the zeta function. Means it also depends on Riemann hypotesis which is still in a major issue. Similar case left science today many unsolved problems that associated with.

Eigenvectors_of_a_linear_operator

In order to propagate through space and interact we shall attemp it using string theory One must therefore imagine scenarios in which these extra dimensions would not be observed in experiments so it would become irrational partitions.

In turns out that quantum string theory always destroys the symmetries of the classical string theory, except in one special case: when the number of dimensions is 10. That's why string theory works only in 10 dimensions (Physicsforums).

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True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+|------------------------- Skema-12 ------------------------|
+|------------ 6¤ -------------|------------- 6¤ ------------|
+|--------------------------- 192 ---------------------------|
+|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---|
++----+----+----+----+----+----+----+----+----+----+----+----+
+|  5 |  7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 |
++----+----+----+----+----+----+----+----+----+----+----+----+
+|---------  5¤  ---------|---- {48} ----|----- {48} ---|{43}|
+|---------  5¤  ---------|------------ {96} -----------|{43}|
+|--------- {53} ---------|-------------- {139} -------------|
+|------- Skema-23 -------|------------- Skema-34 -----------|    
+

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This 23 units will form Scheme-23 as two (2) long strands which is known as doble helix Here we call them as Scheme-23 (71) and Scheme-23 (68). These strands are originated by the three (3) layers of True Prime Pairs.

Scheme-139

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Since the arithmetic mean of those primes yields 157 then the existence of 114 will remain to let this 18+19=37th prime number stands as the balanced prime.

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\ No newline at end of file diff --git a/identition/folder8/file01.html b/identition/folder8/file01.html new file mode 100644 index 00000000..4d45ab92 --- /dev/null +++ b/identition/folder8/file01.html @@ -0,0 +1,41 @@ + Lexer vs Parser · ₠Quantum

Lexer vs Parser

enneatruth_anim

image

Notice how the 3, 9, and 6 is in red and does not connect at the base. That is because it is a vector. The 1,2,4,8,7,5 is the third dimension while the oscillation between the 3 and 6 demonstrates the fourth dimension, which is the higher dimensional magnetic field of an electrical coil.

image

The 3, 9, and 6 always occur together with the 9 as the control. In fact, the Yin/Yang is not a duality but rather a trinary. This is because the 3 and 6 represent each side of the Yin/Yang and the 9 is the "S" curve between them. Everything is based on thirds. We think that the universe is based on dualities because we see the effects not the cause.

Four (4) Vector

!

Φ(11,13) = (114 - 10²) + 13 = 27

1729 = 7 x 13 x 19
+1729 / 7 = 13 x 19 = 247
+
+1729 = 7 x 13 x 19
+       7 + 13 = 20 = d(2)
+                     └──  2 x 19 = 38
+
++----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+| {1}|  2 |  3 |  4 |  5 | {6}| {7}|  8 |  9 | 10 | 11 | 12 | 13 | 14 |
++----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+| {3}| {4}|  3 |  4 |  5 |  2 |  3 |  2 |  2 |  1 |  2 |  5 |  1 |  1 |{38}
++----+----+----+----+----+----+----+----+----+----+----+----+----+----+---- } 285
+|  3 |  8 |  9 | 16 | 25 |{12}|{21}| 16 | 18 | 10 | 22 | 60 |{13}|{14}|{247}
++----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+|-- 38 ---|              |-- 33 ---|                        |-- {27}--|
+

Four Spacetime Dimensions

------+------+-----+----------+-----+-----                                     |     ---
+      |      |     |     11:7 |   5 |   9 |  14 (20) --------› ¤               |      |
+      |      |  4  +----------+-----+-----+-----+                              |      |
+      |  3   |     |     12:8 |   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+      |      +-----+----------+-----+-----+-----+                       |      |      |
+      |      |     |     13:9 |   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+  2   +------|  5  +----------+-----+-----+-----+                       |      |     ---
+      |      |     |    14:19 |   9 |  60 |  40 | 109 (28) -------------       |      |
+      |      |-----+----------+-----+-----+-----+                              |      |
+      |  4   |     | 15,18:11 |   1 |  30 |  40 | 71 (29,30,31,32) ------------      13¨  inheritance
+329   |      |  6  +----------+-----+-----+-----+                                     |
+|     |      |     |    19:12 |  10 |  60 | {70} (36) -------› Φ                      |
+------+------+-----+----------+-----+-----+                                          ---
+      |      |     |    20:13 |  90 |  90 (38) ‹-------------- ¤                      |
+      |      |  7  +----------+-----+                                                 |
+      |  5   |     |       14 |            -----------------------------             17¨  class
+      |      |-----+----------+           |                             |             |
+      |      |     |       15 |           |       LEADING SCHEME        |             |
+  3   +------+  8  +----------+-----      |    (Multiplication Zone)    |            ---
+      |      |     |       16 |           |                             |             |
+      |      |-----+----------+-----+      -----------------------------              |
+      |  6   |     |    28:17 | 100 |                                                19¨  object
+168   |      |  9  +----------+-----+                                                 |
+|     |      |     |    29:18 | 50  | 50(68) ---------> Δ18                           |
+------|------|-----+----------+-----+                                                ---
+

RiemannZeta_Zeros

Riemann Zeta

With the above description then the instance configuration is via matrix integration from tensorflow which is placed at the end position to the turning point 100 vs 50 to the format (2,3) i.e. at id: 68.

π(1000) = π(Φ x 618) = 168 = 100 + 68 = (50x2) + (66+2) = 102 + 66

default

30 + (5+13) + (7+11) + (17+19) = 30 + 18 + 18 + 36 = 30 + 36 + 36 = 102 = 2 + 100

default

With the above description, of course, you can guess where the next direction will be. That is from one (1) unit of DNA to one (1) unit of whole unity. That's why we need a solution of the remaining six (6) other cases to be placed with id: 11, 12, 14, 15, 26 and 28 so that id: 68 is congrued to the number two (2).

docker-github-runner

Therefore the five (5) identities of (10, 11,12,14,15) are twisted prior joining the two (2) identities of (26,28). Since each of these seven (7) identities is linked by the eleven (11) objects then they turn to a strong seven (77). Lets's discuss them one by one.


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\ No newline at end of file diff --git a/identition/folder8/file02.html b/identition/folder8/file02.html new file mode 100644 index 00000000..026d202d --- /dev/null +++ b/identition/folder8/file02.html @@ -0,0 +1,84 @@ + The Bilateral 9 Sums · ₠Quantum

The Bilateral 9 Sums

Root 4x
+29
+ └── 30
+      └── 31
+           └── 32
+    
+Rewrite Root 4x → Twin 4x
+
+Root 4x
+29
+ └── 30
+      └── 31
+           └── 32
+    
+Twin 4x
+33
+ └── 34
+      └── 35
+           └── 36
+
+  -----------------------+----+----+----+----+
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 | 
+  =======================+====+====+====+====+
+   19 → π(10)            |  2 |  3 |  5 |  7 | 4 x Root
+  -----------------------+----+----+----+----+
+   17 → π(20)            | 11 | 13 | 17 | 19 | 4 x Twin
+  -----------------------+----+----+----+----+
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - | ← Rewrite here
+  =======================+====+====+====+====+
+
# Sample workflow for building and deploying a Jekyll site to GitHub Pages
+name: Build and deploy Jekyll site to GitHub Pages
+
+on:
+  # 💎 Runs on pushes targeting the default branch
+  push:
+    branches:
+      - eQ19
+      - Chetabahana
+
+  # Allows you to run this workflow manually from the Actions tab
+  workflow_dispatch:
+
+# Sets permissions of the GITHUB_TOKEN to allow deployment to GitHub Pages
+permissions: write-all
+
  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th ←------------ 10
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ←------------ Rewrite here
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+

Recombimation

default

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th ←------------ 10
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+  =======================+====+====+====+====+====+====+====+====+====+=====  ←-- Rewrite here (bilateral 9 sums)
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+

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\ No newline at end of file diff --git a/identition/folder8/file02.md b/identition/folder8/file02.md new file mode 100644 index 00000000..a2979516 --- /dev/null +++ b/identition/folder8/file02.md @@ -0,0 +1,100 @@ +## The Bilateral 9 Sums + + +``` +Root 4x +29 + └── 30 + └── 31 + └── 32 + +Rewrite Root 4x → Twin 4x + +Root 4x +29 + └── 30 + └── 31 + └── 32 + +Twin 4x +33 + └── 34 + └── 35 + └── 36 + + -----------------------+----+----+----+----+ + True Prime Pairs Δ | 1 | 2 | 3 | 4 | + =======================+====+====+====+====+ + 19 → π(10) | 2 | 3 | 5 | 7 | 4 x Root + -----------------------+----+----+----+----+ + 17 → π(20) | 11 | 13 | 17 | 19 | 4 x Twin + -----------------------+----+----+----+----+ + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | ← Rewrite here + =======================+====+====+====+====+ +``` + +``` +# Sample workflow for building and deploying a Jekyll site to GitHub Pages +name: Build and deploy Jekyll site to GitHub Pages + +on: + # 💎 Runs on pushes targeting the default branch + push: + branches: + - eQ19 + - Chetabahana + + # Allows you to run this workflow manually from the Actions tab + workflow_dispatch: + +# Sets permissions of the GITHUB_TOKEN to allow deployment to GitHub Pages +permissions: write-all +``` + +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th ←------------ 10 + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th ←------------ 20 + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ←------------ Rewrite here + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin +``` +## Recombimation +[![default](https://user-images.githubusercontent.com/8466209/200229388-03811f48-2492-4845-b15f-85259cd93717.png)](https://www.primesdemystified.com/#primingthesquares) + +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th ←------------ 10 + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th ←------------ 20 + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 + =======================+====+====+====+====+====+====+====+====+====+===== ←-- Rewrite here (bilateral 9 sums) + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th ←------------ 20 + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th +``` + diff --git a/identition/folder8/file03.html b/identition/folder8/file03.html new file mode 100644 index 00000000..5d00806b --- /dev/null +++ b/identition/folder8/file03.html @@ -0,0 +1,48 @@ + file03.md · ₠Quantum

Because "Ate Nine" (89)

default

11_89_109_7919_8128

=======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+                                           ↓
+                                           |
+                                           ↓                                          
+                            114-89=139-114=25=5x5
+                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         ↓
+                                |                             |                         |
+                                 ------------ 10 -------------                          | 
+                                                                                        | 
+                                                                                        | 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+
  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root         1 → 4 (5)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin         2 → 8 (10)
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin         5 → 7 (12)
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+                                           |
+                                           ↓                
+

default

default

default


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\ No newline at end of file diff --git a/identition/folder8/file03.md b/identition/folder8/file03.md new file mode 100644 index 00000000..742f60f5 --- /dev/null +++ b/identition/folder8/file03.md @@ -0,0 +1,65 @@ +Because "Ate Nine" (89) + +[![default](https://user-images.githubusercontent.com/8466209/200234332-efce4c04-5f83-4cae-893f-f895eae27647.png)](https://ell.stackexchange.com/questions/115903/why-is-7-the-most-feared-number) + +[![11_89_109_7919_8128](https://user-images.githubusercontent.com/8466209/200228344-9f344f49-3e5d-480f-b11c-6e30a20a8f44.jpg)](https://www.primesdemystified.com/First1000Primes.html) + +``` +=======================+====+====+====+====+====+====+====+====+====+===== 4th Twin + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== + ↓ + | + ↓ + 114-89=139-114=25=5x5 + | + | ----------- 5 ----------- + | | | + ↓ ↑ ↓ + | mapping | feeding | lexering | parsering | syntaxing | grammaring | + |------------- 36' --------------|----------------------------36' ----------------------------| + | 19' | 17' | 13' | 11' | 7' | 5' | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + | 2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 | 8 | 40 | 50 | 1 | 30 | 200 | 8 | 10 | 40 | + +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+ + ↓ ↑ ↓ + | | | + ------------ 10 ------------- | + | + | + -----------------------+----+----+----+----+----+----+----+----+----+----- | + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum | + =======================+====+====+====+====+====+====+====+====+====+===== ↓ + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th ◄- 4 = π(10) +``` + +``` + -----------------------+----+----+----+----+----+----+----+----+----+----- + True Prime Pairs Δ | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | Sum + =======================+====+====+====+====+====+====+====+====+====+===== + 19 → π(10) | 2 | 3 | 5 | 7 | - | - | - | - | - | 4th 4 x Root 1 → 4 (5) + -----------------------+----+----+----+----+----+----+----+----+----+----- + 17 → π(20) | 11 | 13 | 17 | 19 | - | - | - | - | - | 8th 4 x Twin + -----------------------+----+----+----+----+----+----+----+----+----+----- + 13 → π(30) → 12 (Δ1) | 23 | 29 | - | - | - | - | - | - | - |10th + =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin 2 → 8 (10) + 11 → π(42) | 31 | 37 | 41 | - | - | - | - | - | - |13th + -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin + 7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 | - | - | - | - | - |17th + -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin + 5 → π(72) → 18 (Δ13) | 61 | 67 | 71 | - | - | - | - | - | - |20th + =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin 5 → 7 (12) + 3,2 → 18+13+12 → 43 | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th + =======================+====+====+====+====+====+====+====+====+====+===== + | + ↓ +``` + +[![default](https://user-images.githubusercontent.com/8466209/200474984-d0d05783-787c-460b-a80f-3f26debc0c0d.png)](https://gist.github.com/eq19/f21abd90f8d471390aad23d6ecc90d6d#file-feeding-md) + +[![default](https://user-images.githubusercontent.com/8466209/200225487-5e40102b-e8f9-4aa7-8a64-7529dfc14c7c.png)](https://gist.github.com/eq19/f21abd90f8d471390aad23d6ecc90d6d#file-8_spinning-md) + +[![default](https://user-images.githubusercontent.com/8466209/200244306-f5e5a428-83b9-46bb-a4b1-c96367e278b2.png)](https://gist.github.com/eq19/f21abd90f8d471390aad23d6ecc90d6d#file-feeding-md) + diff --git a/identition/folder8/file04.html b/identition/folder8/file04.html new file mode 100644 index 00000000..bd589edc --- /dev/null +++ b/identition/folder8/file04.html @@ -0,0 +1 @@ + file04.md · ₠Quantum
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\ No newline at end of file diff --git a/identition/folder8/file04.md b/identition/folder8/file04.md new file mode 100644 index 00000000..889237d8 --- /dev/null +++ b/identition/folder8/file04.md @@ -0,0 +1,9 @@ +[![default](https://user-images.githubusercontent.com/8466209/201015369-c6ba5c75-c2c7-415b-b424-debaa5c7f64a.png)](https://gist.github.com/eq19/6c89c3b0f109e0ead561a452720d1ebf#file-feeding-md) + +![default](https://user-images.githubusercontent.com/8466209/201012946-c1b10170-a14b-46aa-8c13-4646cf7cadb4.png) + +![default](https://user-images.githubusercontent.com/8466209/201013443-232335d2-af81-47eb-b93e-8005cb5fed56.png) + +![default](https://user-images.githubusercontent.com/8466209/201014411-83fc0bd6-96dc-40ad-9eca-0a56695df151.png) + +![default](https://user-images.githubusercontent.com/8466209/201014604-fd2d3b83-f243-4fc5-8032-ed984cb28002.png) diff --git a/identition/folder8/file05.html b/identition/folder8/file05.html new file mode 100644 index 00000000..1a59f120 --- /dev/null +++ b/identition/folder8/file05.html @@ -0,0 +1 @@ + file05.md · ₠Quantum
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\ No newline at end of file diff --git a/identition/folder8/file05.md b/identition/folder8/file05.md new file mode 100644 index 00000000..a95342f3 --- /dev/null +++ b/identition/folder8/file05.md @@ -0,0 +1,7 @@ +![default](https://user-images.githubusercontent.com/8466209/201009382-ca13eae0-6ae9-4512-aa40-8b8c4f2f276b.png) + +![default](https://user-images.githubusercontent.com/8466209/201010402-205363e4-af41-4b07-b501-22f6533a0210.png) + +![default](https://user-images.githubusercontent.com/8466209/201017831-469513ee-0e92-4b27-9b3d-cb00add66966.png) + +![default](https://user-images.githubusercontent.com/8466209/201019936-a8a19fe8-6a8a-4909-ae8d-063fafed564b.png) diff --git a/identition/folder8/file06.html b/identition/folder8/file06.html new file mode 100644 index 00000000..e43c745c --- /dev/null +++ b/identition/folder8/file06.html @@ -0,0 +1,12 @@ + file06.md · ₠Quantum

---+-----+-----
+ 1 |  1  |  28
+---+-----+-----
+ 2 |  29 |  37
+---+-----+-----
+ 3 | {38}| {48}
+---+-----+-----
+ 4 |  49 | 127
+---+-----+-----
+ 5 | 128 | 129
+---+-----+-----
+

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₠Quantum
profiles
GitHub
Homepage
Repository
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This Software is under the terms of The Unlicense.
\ No newline at end of file diff --git a/identition/folder8/file06.md b/identition/folder8/file06.md new file mode 100644 index 00000000..30d5c1c8 --- /dev/null +++ b/identition/folder8/file06.md @@ -0,0 +1,33 @@ +``` +---+-----+----- + 1 | 1 | 28 +---+-----+----- + 2 | 29 | 37 +---+-----+----- + 3 | {38}| {48} +---+-----+----- + 4 | 49 | 127 +---+-----+----- + 5 | 128 | 129 +---+-----+----- +``` + +![default](https://user-images.githubusercontent.com/8466209/201078012-9b1b1575-a598-4876-aeb4-aef6e8f6d957.png) + +![default](https://user-images.githubusercontent.com/8466209/201077251-993d5ce3-a131-41a9-9f7e-36cb6e5f3b14.png) + +![default](https://user-images.githubusercontent.com/8466209/201078741-00eab47a-7346-4403-a6b8-c0d52956891a.png) + +![default](https://user-images.githubusercontent.com/8466209/201080070-a8895143-3188-4372-ba40-6b0452f432dd.png) + +![default](https://user-images.githubusercontent.com/8466209/201080731-3b71a429-5ab0-4786-a965-4813d47a19ee.png) + +![default](https://user-images.githubusercontent.com/8466209/201081540-f39e3e47-fd2c-4199-ad54-8d65bd9423d9.png) + +![default](https://user-images.githubusercontent.com/8466209/201084190-f171aeb3-0464-427c-bb04-772fd7c01223.png) + +![default](https://user-images.githubusercontent.com/8466209/201085311-e840b515-1764-4d26-8b2d-794016969784.png) + +![default](https://user-images.githubusercontent.com/8466209/201086588-c03cd0e6-fae5-4a18-b491-a34a82b28bf6.png) + +![default](https://user-images.githubusercontent.com/8466209/200228973-fd99095b-aad2-4824-b3dc-d6b21fae38ea.png) diff --git a/identition/folder8/file07.html b/identition/folder8/file07.html new file mode 100644 index 00000000..ca72df12 --- /dev/null +++ b/identition/folder8/file07.html @@ -0,0 +1,35 @@ + How to deal with cicular destination of 36? · ₠Quantum

How to deal with cicular destination of 36?

$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6®
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6®
+      |  6  | 19
+ -----+-----+---------
+

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      |      |-----+-----+-----+                         |
+      |  4   |     |  11 |15,18|  29,30,31,32 ←---4x----    ←--- 35,34,33 are missing?
+      |      |  6  +-----+-----+
+      |      |     |  12 |  19 |  36  --------------------------------------
+------+------+-----+-----+-----+-------                                     |
+      |      |     |  13 |  20 | {38}                                       |
+      |      |  7  +-----+-----+                                            | 
+      |  5   |     |  14 |21,22| {40,41} = (19-17)x ----                    |
+      |      |-----+-----+-----+                         |                  |
+      |      |     |  15 |  23 | {42}                   6x + 13x = 19x      |
+  3   +------+  8  +-----+-----+                         |                  |
+      |      |     |  16 |24,27| {43,44,45,46} ←- 4x --                     |
+      |      |-----+-----+-----+                                            |
+      |  6   |     |  17 |  28 | {50} = 46 + 4                              |
+      |      |  9  +-----+-----+                                            |
+      |      |     |  18 |  29 | {68} = 32 + 36  ←- they meet here ---------
+------|------|-----+-----+------
+

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\ No newline at end of file diff --git a/identition/folder8/file07.md b/identition/folder8/file07.md new file mode 100644 index 00000000..e9d60d01 --- /dev/null +++ b/identition/folder8/file07.md @@ -0,0 +1,48 @@ +## How to deal with cicular destination of 36? + +``` +$True Prime Pairs: + (5,7), (11,13), (17,19) + + layer| i | f + -----+-----+--------- + | 1 | 5 + 1 +-----+ + | 2 | 7 + -----+-----+--- } 36 » 6® + | 3 | 11 + 2 +-----+ + | 4 | 13 + -----+-----+--------- + | 5 | 17 + 3 +-----+ } 36 » 6® + | 6 | 19 + -----+-----+--------- +``` +![default](https://user-images.githubusercontent.com/8466209/201023835-b641450d-827b-4362-8a63-8520edb50ece.png) + +``` + | |-----+-----+-----+ | + | 4 | | 11 |15,18| 29,30,31,32 ←---4x---- ←--- 35,34,33 are missing? + | | 6 +-----+-----+ + | | | 12 | 19 | 36 -------------------------------------- +------+------+-----+-----+-----+------- | + | | | 13 | 20 | {38} | + | | 7 +-----+-----+ | + | 5 | | 14 |21,22| {40,41} = (19-17)x ---- | + | |-----+-----+-----+ | | + | | | 15 | 23 | {42} 6x + 13x = 19x | + 3 +------+ 8 +-----+-----+ | | + | | | 16 |24,27| {43,44,45,46} ←- 4x -- | + | |-----+-----+-----+ | + | 6 | | 17 | 28 | {50} = 46 + 4 | + | | 9 +-----+-----+ | + | | | 18 | 29 | {68} = 32 + 36 ←- they meet here --------- +------|------|-----+-----+------ +``` + +[![default](https://user-images.githubusercontent.com/8466209/201008595-9917fb26-bfea-46e6-b0e1-32db79a12e98.png)](https://gist.github.com/eq19/f21abd90f8d471390aad23d6ecc90d6d#file-runner-md) + +![default](https://user-images.githubusercontent.com/8466209/201008977-b10573d2-b295-440d-82fe-c707474694ce.png) + +![default](https://user-images.githubusercontent.com/8466209/201009190-a8d4dac6-5331-46c5-a704-1e02113f6e6d.png) diff --git a/identition/folder8/index.html b/identition/folder8/index.html new file mode 100644 index 00000000..30bb8db3 --- /dev/null +++ b/identition/folder8/index.html @@ -0,0 +1,23 @@ + Recycling (8th-dimension) · ₠Quantum

Recycling (8th-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

This progression 41,43,47,53,61,71,83,97,113,131 whose general term is 41+x+xx, is as much remarkable since the 40 first terms are all prime numbers (Euler's letter to Bernoulli).

1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+

Plottng 40th prime scheme of the three (3) layers with all the features of 3rd prime identity as explained above then they would form their recycing through the three (3) times bilateral 9 sums as shown below.

89^2 - 1 = 7920 = 22 x 360 = 66 x 120 = (168 - 102) x 120

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I wondered if that property might hold for the incremental powers of phi as well. For this reason I chose to see numbers in the hexagon as quantum, and truncate off the decimal values to determine which integer cell they land in.

That is what I found. Phi and its members have a pisano period if the resulting fractional numbers are truncated.

Truncate to Determine Integer Values

FeynCalc is a Mathematica package for symbolic evaluation of Feynman diagrams and algebraic calculations in quantum field theory and elementary particle physics.

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\ No newline at end of file diff --git a/identition/folder9/file01.html b/identition/folder9/file01.html new file mode 100644 index 00000000..dd689001 --- /dev/null +++ b/identition/folder9/file01.html @@ -0,0 +1,5 @@ + The Centralizing · ₠Quantum

The Centralizing

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Direction:
+- The initial of 168 & 329 brings the 102 as 100+2 to π(π(10000))-1=200 or 100 x 2.
+- Then the 289 lets this 100x2 to 100² so it brings 100 to 10000 by the power of 2.
+- At the last it will be separated by the scheme of 168 to 102 goes back 100 and 2.
+

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\ No newline at end of file diff --git a/identition/folder9/file02.html b/identition/folder9/file02.html new file mode 100644 index 00000000..d6ec1f6c --- /dev/null +++ b/identition/folder9/file02.html @@ -0,0 +1 @@ + file02.md · ₠Quantum
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\ No newline at end of file diff --git a/identition/folder9/file02.md b/identition/folder9/file02.md new file mode 100644 index 00000000..c846b0cd --- /dev/null +++ b/identition/folder9/file02.md @@ -0,0 +1,8 @@ +![default](https://user-images.githubusercontent.com/8466209/201104906-927fddf1-bd46-43b6-8b3d-47c37657deb1.png) +![default](https://user-images.githubusercontent.com/8466209/201105343-f8d9aec8-fd82-442d-8d6a-dcac5a61da42.png) +![default](https://user-images.githubusercontent.com/8466209/201105576-5670bc54-46f9-4f78-b6f8-e1a3868a590e.png) +![default](https://user-images.githubusercontent.com/8466209/201106351-89b330d9-e60f-44b4-ba72-097f04fa63c4.png) +![default](https://user-images.githubusercontent.com/8466209/201107959-5311d9a7-0b61-4b18-8ea1-b32a36f1d804.png) +![default](https://user-images.githubusercontent.com/8466209/201108271-9edc6b15-d4d8-469f-b7c9-797cd0abdfe4.png) +![default](https://user-images.githubusercontent.com/8466209/201108973-71ecaec4-c47e-4b3f-bbec-4cc2343344fd.png) + diff --git a/identition/folder9/file03.html b/identition/folder9/file03.html new file mode 100644 index 00000000..160629d5 --- /dev/null +++ b/identition/folder9/file03.html @@ -0,0 +1 @@ + file03.md · ₠Quantum
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\ No newline at end of file diff --git a/identition/folder9/file03.md b/identition/folder9/file03.md new file mode 100644 index 00000000..c316ac5f --- /dev/null +++ b/identition/folder9/file03.md @@ -0,0 +1,6 @@ +[![default](https://user-images.githubusercontent.com/8466209/201110882-5dd8931d-a1cd-4bb7-8d82-0d3da0b58c66.png)](https://github.com/FeedMapping/feedmapping.github.io) + +![image](https://user-images.githubusercontent.com/8466209/201114200-db3490f8-a9b4-4bb6-bed3-dbc1677fd45e.png) + +[![default](https://user-images.githubusercontent.com/8466209/201117531-d2fd8521-3056-4581-9354-f58052808e9b.png)](https://github.com/eq19/eq19.github.io/tree/eQ19) + diff --git a/identition/folder9/file04.html b/identition/folder9/file04.html new file mode 100644 index 00000000..bb28801d --- /dev/null +++ b/identition/folder9/file04.html @@ -0,0 +1 @@ + file04.md · ₠Quantum
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\ No newline at end of file diff --git a/identition/folder9/file04.md b/identition/folder9/file04.md new file mode 100644 index 00000000..b4d36588 --- /dev/null +++ b/identition/folder9/file04.md @@ -0,0 +1,5 @@ +![default](https://user-images.githubusercontent.com/8466209/201120468-f985427d-b4e8-4bf8-b39c-e5919af1f540.png) + +![default](https://user-images.githubusercontent.com/8466209/201121309-7410e679-3273-4e87-9177-abeae76ffb5b.png) + +![image](https://user-images.githubusercontent.com/8466209/201121924-f8b105e5-0e76-4513-90c6-b561071aa699.png) diff --git a/identition/folder9/file05.html b/identition/folder9/file05.html new file mode 100644 index 00000000..a03dde0e --- /dev/null +++ b/identition/folder9/file05.html @@ -0,0 +1 @@ + file05.md · ₠Quantum
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\ No newline at end of file diff --git a/identition/folder9/file05.md b/identition/folder9/file05.md new file mode 100644 index 00000000..b6e3ce58 --- /dev/null +++ b/identition/folder9/file05.md @@ -0,0 +1,3 @@ +[![default](https://user-images.githubusercontent.com/8466209/201255091-979c9ab2-18a3-467b-95b1-11c9a80bcbf4.png)](https://github.com/TheAlgorithms/Python/blob/master/requirements.txt) +[![default](https://user-images.githubusercontent.com/8466209/201279272-a840ff2f-7eb0-48eb-8dd5-37e266a62d5a.png)](https://github.com/eq19/grammar/actions/workflows/build.yml) +[![default](https://user-images.githubusercontent.com/8466209/201256070-85b14f71-063b-4b4a-b546-be9dec8c9c6f.png)](https://github.com/eq19/grammar/actions/runs/3441609775/jobs/5741337732) diff --git a/identition/folder9/file06.html b/identition/folder9/file06.html new file mode 100644 index 00000000..fd92ae69 --- /dev/null +++ b/identition/folder9/file06.html @@ -0,0 +1,78 @@ + Site GitHub · ₠Quantum

Site GitHub

The following sample information is exposed to Jekyll templates in the site.github namespace:


+{% for item in site.github %}
+  * {{ item | jsonify }}: {{ site.github[item] | jsonify }}
+{% endfor %}
+
+

Output:

{
+    "versions": {
+        "jekyll": <version>,
+        "kramdown": <version>,
+        "liquid": <version>,
+        "maruku": <version>,
+        "rdiscount": <version>,
+        "redcarpet": <version>,
+        "RedCloth": <version>,
+        "jemoji": <version>,
+        "jekyll-mentions": <version>,
+        "jekyll-redirect-from": <version>,
+        "jekyll-sitemap": <version>,
+        "github-pages": <version>,
+        "ruby": <version>"
+    },
+    "hostname": "github.com",
+    "pages_hostname": "github.io",
+    "api_url": "https://api.github.com",
+    "help_url": "https://help.github.com",
+    "environment": "dotcom",
+    "pages_env": "dotcom",
+    "public_repositories": [ Repository Objects ],
+    "organization_members": [ User Objects ],
+    "build_revision": "cbd866ebf142088896cbe71422b949de7f864bce",
+    "project_title": "metadata-example",
+    "project_tagline": "A GitHub Pages site to showcase repository metadata",
+    "owner_name": "github",
+    "owner_url": "https://github.com/github",
+    "owner_gravatar_url": "https://github.com/github.png",
+    "repository_url": "https://github.com/github/metadata-example",
+    "repository_nwo": "github/metadata-example",
+    "repository_name": "metadata-example",
+    "zip_url": "https://github.com/github/metadata-example/zipball/gh-pages",
+    "tar_url": "https://github.com/github/metadata-example/tarball/gh-pages",
+    "clone_url": "https://github.com/github/metadata-example.git",
+    "releases_url": "https://github.com/github/metadata-example/releases",
+    "issues_url": "https://github.com/github/metadata-example/issues",
+    "wiki_url": "https://github.com/github/metadata-example/wiki",
+    "language": null,
+    "is_user_page": false,
+    "is_project_page": true,
+    "show_downloads": true,
+    "url": "http://username.github.io/metadata-example", // (or the CNAME)
+    "baseurl": "/metadata-example",
+    "contributors": [ User Objects ],
+    "releases": [ Release Objects ],
+    "latest_release": [ Release Object ],
+    "private": false,
+    "archived": false,
+    "disabled": false,
+    "license": {
+      "key": "mit",
+      "name": "MIT License",
+      "spdx_id": "MIT",
+      "url": "https://api.github.com/licenses/mit"
+    },
+    "source": {
+      "branch": "gh-pages",
+      "path": "/"
+    }
+}
+

GitHub API

Jekyll supports loading data from YAML, JSON, CSV, and TSV files located in the _data directory. Note that CSV and TSV files must contain a header row.

    gh api -H "${HEADER}" /user/orgs  --jq '.[].login' | sort -uf | yq eval -P | sed "s/ /, /g" > /tmp/user_orgs
+    IFS=', '; array=($(cat /tmp/user_orgs))
+
+    echo "[" > _data/orgs.json
+    for ((i=0; i < ${#array[@]}; i++)); do
+	  gh api -H "${HEADER}" /orgs/${array[$i]} >> _data/orgs.json
+      if [[ "$i" -lt "${#array[@]}-1" ]]; then echo "," >> _data/orgs.json; fi
+    done
+    echo "]" >> _data/orgs.json
+  fi
+

```liquid

{% for item in site.data.orgs %}

  • {{ item.name | jsonify }} {% endfor %}

```- "Scenarios"- "Feeding"- "Entrypoint"- "Mapping"- "Keyring"- "Enneagram"- "Twisting"- "Recycling"- "Exchange"- "Runners"- "Manifest"## Wotkflow Run

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\ No newline at end of file diff --git a/identition/folder9/file06.md b/identition/folder9/file06.md new file mode 100644 index 00000000..7159888c --- /dev/null +++ b/identition/folder9/file06.md @@ -0,0 +1,115 @@ +# Site GitHub + +The following sample information is exposed to Jekyll templates in the [site.github](https://github.com/jekyll/github-metadata/blob/main/docs/site.github.md#using-sitegithub) namespace: + +``` +{% raw %} +{% for item in site.github %} + * {{ item | jsonify }}: {{ site.github[item] | jsonify }} +{% endfor %} +{% endraw %} +``` + +Output: +``` +{ + "versions": { + "jekyll": , + "kramdown": , + "liquid": , + "maruku": , + "rdiscount": , + "redcarpet": , + "RedCloth": , + "jemoji": , + "jekyll-mentions": , + "jekyll-redirect-from": , + "jekyll-sitemap": , + "github-pages": , + "ruby": " + }, + "hostname": "github.com", + "pages_hostname": "github.io", + "api_url": "https://api.github.com", + "help_url": "https://help.github.com", + "environment": "dotcom", + "pages_env": "dotcom", + "public_repositories": [ Repository Objects ], + "organization_members": [ User Objects ], + "build_revision": "cbd866ebf142088896cbe71422b949de7f864bce", + "project_title": "metadata-example", + "project_tagline": "A GitHub Pages site to showcase repository metadata", + "owner_name": "github", + "owner_url": "https://github.com/github", + "owner_gravatar_url": "https://github.com/github.png", + "repository_url": "https://github.com/github/metadata-example", + "repository_nwo": "github/metadata-example", + "repository_name": "metadata-example", + "zip_url": "https://github.com/github/metadata-example/zipball/gh-pages", + "tar_url": "https://github.com/github/metadata-example/tarball/gh-pages", + "clone_url": "https://github.com/github/metadata-example.git", + "releases_url": "https://github.com/github/metadata-example/releases", + "issues_url": "https://github.com/github/metadata-example/issues", + "wiki_url": "https://github.com/github/metadata-example/wiki", + "language": null, + "is_user_page": false, + "is_project_page": true, + "show_downloads": true, + "url": "http://username.github.io/metadata-example", // (or the CNAME) + "baseurl": "/metadata-example", + "contributors": [ User Objects ], + "releases": [ Release Objects ], + "latest_release": [ Release Object ], + "private": false, + "archived": false, + "disabled": false, + "license": { + "key": "mit", + "name": "MIT License", + "spdx_id": "MIT", + "url": "https://api.github.com/licenses/mit" + }, + "source": { + "branch": "gh-pages", + "path": "/" + } +} +``` + +## GitHub API + +Jekyll supports [loading data](https://jekyllrb.com/docs/datafiles/) from YAML, JSON, CSV, and TSV files located in the _data directory. Note that CSV and TSV files must contain a header row. + +```bash + gh api -H "${HEADER}" /user/orgs --jq '.[].login' | sort -uf | yq eval -P | sed "s/ /, /g" > /tmp/user_orgs + IFS=', '; array=($(cat /tmp/user_orgs)) + + echo "[" > _data/orgs.json + for ((i=0; i < ${#array[@]}; i++)); do + gh api -H "${HEADER}" /orgs/${array[$i]} >> _data/orgs.json + if [[ "$i" -lt "${#array[@]}-1" ]]; then echo "," >> _data/orgs.json; fi + done + echo "]" >> _data/orgs.json + fi +``` + +```liquid +{% raw %} +{% for item in site.data.orgs %} + - {{ item.name | jsonify }} +{% endfor %} +{% endraw %} +``` + +{%- for item in site.data.orgs -%} + - {{ item.name | jsonify }} +{%- endfor -%} + +## Wotkflow Run + +[![default](https://user-images.githubusercontent.com/8466209/201278178-6c8eb4c9-1a45-4583-b61e-b948d9431e95.png)](https://github.com/TheAlgorithms/Python/blob/master/.github/workflows/build.yml) + +[![default](https://user-images.githubusercontent.com/8466209/201258756-7f1cc4e4-fc24-4061-8dbe-8610dd56a557.png)](https://gist.github.com/eq19/b541275ab7deda356feef32d600e44d8#file-gitignore-md) + +[![default](https://user-images.githubusercontent.com/8466209/201274327-f0e777ad-7226-4b86-bb1e-c21290264492.png)](https://gist.github.com/eq19/6c89c3b0f109e0ead561a452720d1ebf#file-runner-md) + diff --git a/identition/folder9/file07.html b/identition/folder9/file07.html new file mode 100644 index 00000000..4e9cb194 --- /dev/null +++ b/identition/folder9/file07.html @@ -0,0 +1 @@ + file07.md · ₠Quantum
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Tables Are Cool
col 1 is left-aligned $1600
col 2 is 📂 centered $12
col 3 is right-aligned $1
Tables Are Cool
col 3 is 🚀 right-aligned $1600
col 2 is 🔨 centered $12
zebra stripes are neat $1
<ul><li>💎item1</li><li>💎item2</li></ul> See the list from the first column
Tables Are Cool
col 3 is right-aligned $1600
col 2 is centered $12
zebra stripes are neat $1
  • item1
  • item2
See the list from the first column

The hexagon is also found in the structure of DNA it forms the chains that produce the double-helix macromolecule. Functional description of DNA (I) comprising using a bio-oscillator which reproduces the sequence of bases, in spatial and energetic states, in the form of vibrations, is new.

This Ulam spiral serves to illustrate primes and prime factor abundances in a hexagonal spiral. Prime numbers in green; darker blue indicates numbers with more different prime factors..

Ulam spiral


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\ No newline at end of file diff --git a/identition/folder9/file09.md b/identition/folder9/file09.md new file mode 100644 index 00000000..a3423210 --- /dev/null +++ b/identition/folder9/file09.md @@ -0,0 +1,59 @@ +[![default](https://user-images.githubusercontent.com/8466209/201276953-5e3f16bc-f578-4336-b4d0-9b25a658ff66.png)](https://gist.github.com/eq19/6e2fcc2138be6fb68839a3ede32f0525#file-circular-md) + +[![image](https://user-images.githubusercontent.com/8466209/201293827-ed23aa2f-54a4-4e5c-9535-ddc65eaf63dc.png)](https://github.com/kamranahmedse/developer-roadmap) + +| Tables | Are | Cool | +|----------|:-------------:|------:| +| col 1 is | left-aligned | $1600 | +| col 2 is | 📂 centered | $12 | +| col 3 is | right-aligned | $1 | + + +| Tables | Are | Cool | +| ------------- |:-------------:| -----:| +| col 3 is 🚀 | right-aligned | $1600 | +| col 2 is 🔨 | centered | $12 | +| zebra stripes | are neat | $1 | +|
  • 💎item1
  • 💎item2
| See the list | from the first column| + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
TablesAreCool
col 3 isright-aligned$1600
col 2 iscentered$12
zebra stripesare neat$1
+
    +
  • item1
  • +
  • item2
  • +
+
See the listfrom the first column
+ + +The hexagon is also found in the structure of DNA it forms the chains that produce the double-helix macromolecule. Functional description of DNA (I) comprising using a bio-oscillator which reproduces the sequence of bases, in spatial and energetic states, in the form of vibrations, is new. + +>This Ulam spiral serves to illustrate primes and prime factor abundances in a hexagonal spiral. Prime numbers in green; darker blue indicates numbers with more different prime factors.. + +[![Ulam spiral](https://upload.wikimedia.org/wikipedia/commons/2/25/Hexgrid_prime_number_spiral.svg)](https://en.wikipedia.org/wiki/Ulam_spiral) diff --git a/identition/folder9/file10.html b/identition/folder9/file10.html new file mode 100644 index 00000000..d132192a --- /dev/null +++ b/identition/folder9/file10.html @@ -0,0 +1,31 @@ + Poincaré Conjecture · ₠Quantum

Poincaré Conjecture

---+-----+-----
+ 1 | {1} | {2}
+---+-----+-----
+ 2 |  3  | 20
+---+-----+-----
+ 3 | 21  | 46
+---+-----+-----
+ 4 |{47} | 58
+---+-----+-----
+ 5 | 59  | 70
+---+-----+-----
+ 6 |{71} |{93}
+---+-----+-----
+ 7 | 94  | 103
+---+-----+-----
+ 8 | 104 |{109}
+---+-----+-----
+

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  --------------------+-----+-----+-----+-----+-----+                  |     ---
+     67 --------› 11:7|   5 |   9 |  14 (20) --------› ¤               |      |
+     |                +-----+-----+-----+                              |      |
+     |  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
+     |  |             +-----+-----+-----+                       |      |      |
+     |  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
+     |  |  |          +-----+-----+-----+                       |      |     ---
+     |  |   ---› 14:10|   9 |  60 |  40 | 109 (28) -------------       |      |
+     |  |             +-----+-----+-----+                              |      |
+     |   ---› 15,18:11|   1 |  30 |  40 | 71 (29,30,31,32) ----------        13¨  inheritance
+329  |                +-----+-----+-----+                                     |
+  |   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
+   -------------------+-----+-----+                                          ---
+

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In 1904 the French mathematician Henri Poincaré asked if the three dimensional sphere is characterized as the unique simply connected three manifold. This question, the Poincaré conjecture, was a special case of Thurston's geometrization conjecture. Perelman's proof tells us that every three manifold is built from a set of standard pieces, each with one of eight well-understood geometries (Clay Institute).

Poincaré Conjecture

The Ricci Flow method has now been developed not only in to geometric but also to the conversion of facial shapes in three (3) dimensions to computer data. A big leap in the field of AI (Artificial intelligence). No wonder now all the science leads to it.

AI is one of the most debated subjects of today and there seems little common understanding concerning the differences and similarities of human intelligence and artificial intelligence. Discussions on many relevant topics, such as trustworthiness, explainability, and ethics are characterized by implicit anthropocentric and anthropomorphistic conceptions and, for instance, the pursuit of human-like intelligence as the golden standard for Artificial Intelligence (Human vs AI).

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Despite of any debated subjects regarding Human vs AI, the said AI would not even close to the ability of human brain without undertanding of GAP functionality between left and right of the human brain. Let's find it in details on further discussion.


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\ No newline at end of file diff --git a/identition/folder9/file10.md b/identition/folder9/file10.md new file mode 100644 index 00000000..ab864959 --- /dev/null +++ b/identition/folder9/file10.md @@ -0,0 +1,69 @@ +## Poincaré Conjecture + +``` +---+-----+----- + 1 | {1} | {2} +---+-----+----- + 2 | 3 | 20 +---+-----+----- + 3 | 21 | 46 +---+-----+----- + 4 |{47} | 58 +---+-----+----- + 5 | 59 | 70 +---+-----+----- + 6 |{71} |{93} +---+-----+----- + 7 | 94 | 103 +---+-----+----- + 8 | 104 |{109} +---+-----+----- +``` + +![](https://user-images.githubusercontent.com/36441664/84181975-e2d99680-aab3-11ea-8cf0-7da54cf0eb3f.jpg) + +![](https://user-images.githubusercontent.com/36441664/84181982-e4a35a00-aab3-11ea-848a-89c1a1f8c9cf.jpg) + +![default](https://user-images.githubusercontent.com/8466209/200230450-2754c2d3-2b52-429d-b1c5-48fcfdf923be.png) + +![](https://user-images.githubusercontent.com/36441664/86853354-88e2e580-c0e0-11ea-92e4-24de95335054.gif) + +![](https://user-images.githubusercontent.com/36441664/88384290-54f10b00-cdd6-11ea-878d-c687cc1afbea.gif) + +![](https://user-images.githubusercontent.com/36441664/84181979-e3722d00-aab3-11ea-9868-982020dcd4b3.png) + +![](https://user-images.githubusercontent.com/36441664/84685920-3ee56480-af65-11ea-81a4-f44ebc656a19.jpg) + +``` + --------------------+-----+-----+-----+-----+-----+ | --- + 67 --------› 11:7| 5 | 9 | 14 (20) --------› ¤ | | + | +-----+-----+-----+ | | + | 78 ‹----- 12:8| 9 | 60 | 40 | 109 (26) «------------ | 11¨ polymorphism + | | +-----+-----+-----+ | | | + | | 86‹--- 13:9| 9 | 60 | 69 (27) «-- Δ19 (Rep Fork) | {2®} | | + | | | +-----+-----+-----+ | | --- + | | ---› 14:10| 9 | 60 | 40 | 109 (28) ------------- | | + | | +-----+-----+-----+ | | + | ---› 15,18:11| 1 | 30 | 40 | 71 (29,30,31,32) ---------- 13¨ inheritance +329 | +-----+-----+-----+ | + | ‹--------- 19:12| 10 | 60 | {70} (36) ‹--------------------- Φ | + -------------------+-----+-----+ --- +``` + +![](https://user-images.githubusercontent.com/36441664/82712407-12b22d00-9cb2-11ea-9cc2-3cf392b2d35c.png) + +![](https://user-images.githubusercontent.com/36441664/88372848-e5bcec00-cdc0-11ea-8b8a-09b579a257f9.png) + +![default](https://user-images.githubusercontent.com/8466209/200230504-9b543817-cb59-4bc1-8bbb-fddc059c7d6b.png) + +>In 1904 the French mathematician Henri Poincaré asked if the three dimensional sphere is characterized as the unique simply connected three manifold. This question, the Poincaré conjecture, was a special case of Thurston's geometrization conjecture. Perelman's proof tells us that every three manifold is built from a set of standard pieces, each with one of eight well-understood geometries _([Clay Institute](https://www.claymath.org/millennium-problems))_. + +[![Poincaré Conjecture](https://user-images.githubusercontent.com/36441664/84187330-17515080-aabc-11ea-8e53-47f12a248d4c.jpg)](https://www.claymath.org/millennium-problems/poincar%C3%A9-conjecture) + +The Ricci Flow method has now been _[developed](http://engine.scichina.com/publisher/scp/journal/SCIS/62/9/10.1007/s11432-018-9702-7)_ not only in to geometric but also to the conversion of facial shapes in three (3) dimensions to computer data. A big leap in the field of AI ([Artificial intelligence](https://en.wikipedia.org/wiki/Artificial_intelligence)). No wonder now all the science leads to it. + +>AI is one of the most debated subjects of today and there seems little common understanding concerning the differences and similarities of human intelligence and artificial intelligence. Discussions on many relevant topics, such as trustworthiness, explainability, and ethics are characterized by implicit anthropocentric and anthropomorphistic conceptions and, for instance, the pursuit of human-like intelligence as the golden standard for Artificial Intelligence _([Human vs AI](https://www.frontiersin.org/articles/10.3389/frai.2021.622364/full))_. + +[![default](https://user-images.githubusercontent.com/8466209/224466884-5ba87f02-e01d-45ca-a9c3-a1d535e83228.png)](https://gist.github.com/eq19/b9f901cda16e8a11dd24ee6b677ca288#mass-gap-%CE%B4) + +Despite of any debated subjects regarding _Human vs AI_, the said AI would not even close to the ability of human brain without undertanding of _[GAP](https://gist.github.com/eq19/e9832026b5b78f694e4ad22c3eb6c3ef#mass-vs-gap-%CE%B4)_ functionality between left and right of the human brain. Let's find it in details on further discussion. \ No newline at end of file diff --git a/identition/folder9/index.html b/identition/folder9/index.html new file mode 100644 index 00000000..a9a5e385 --- /dev/null +++ b/identition/folder9/index.html @@ -0,0 +1,9 @@ + Exchange (9th-dimension) · ₠Quantum

Exchange (9th-dimension)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

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The exchange interaction is a quantum mechanical process that only happens between identical particles in chemistry and physics. The energy produced when two or more electrons with the same spin swap locations in a subshell's degenerate orbitals .

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On the instinctual level, people may internally stress and externally express the need to protect themselves (self-preservation), to connect with important others or partners (sexual), or to get along or succeed in groups (social).


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\ No newline at end of file diff --git a/identition/index.html b/identition/index.html new file mode 100644 index 00000000..60366991 --- /dev/null +++ b/identition/index.html @@ -0,0 +1,103 @@ + Identition Zones (37-102) · ₠Quantum

Identition Zones (37-102)

By this image you would see how the exponentiation zones should actually work on our solar system. But there is still not enough. Nowadays there are many scientists come in to the conclusion that there should be extra dimensions involved.

+
+ + Note +
+
+

Five consistent versions of superstring theory were developed before it was conjectured in the mid-1990s that they were all different limiting cases of a single theory in 11 dimensions known as M-theory (Wikipedia).

+
+

Solar Ststem

The extra dimensions play a crucial role in string theory and typically it would take a very complicated form. It is not even showed in the function of Euler Identity which brings the three (3) operations of addition, multiplication and exponentiation.

+
+ + Tip +
+
+

The concept of eleven dimensions is a theoretical one in physics and cosmology, specifically in the realm of string theory and M-theory. These theories propose that our observable universe is made up of 11 dimensions, rather than the traditional three dimensions of length, width, and height, and the fourth dimension of time. The additional dimensions are thought to be compactified or curled up, meaning that they are not directly observable by us in our everyday experience.As for the cosmic philosophy, it is important to note that these theories are still considered speculative and have not been proven through experimental evidence. However, they do offer a new perspective on the nature of our universe and the fundamental forces that govern it. Some scientists and philosophers argue that these theories may provide new insights into the origins of the universe and the nature of reality itself. Ultimately, the concept of eleven dimensions is a fascinating area of study that continues to inspire new research and discoveries in the field of physics and cosmology. (ChatGPT)

+
+

M-theory

Despite the theories are still considered speculative, we are going to take them in to our main topics. That is the reason why we bring this identition zones of 11 dimensions.

Below is our way to generate the separation between each others.

Orbital Transformation

Below is a model of E11 (shown by 11 dimensions). Its absolute dimensions represent all related key knowledges of modern physics. Moreover a model that represents Quark-Gluon Plasma, with fundamental forces in the early stage after Big Bang.

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+
+ + Note +
+
+

The concept was introduced by Freeman Dyson in a paper published in the journal Eureka. It was presented in the context of a study of certain congruence properties of the partition function discovered by the Indian mathematical genius Srinivasa Ramanujan. (Wikipedia)

+
+

Rank_of_a_partition

As conclusion the behaviour of this 7 is happen between the sequence of 30 and 36 while the 12 is happen between the sequence of 36 and 102.

+
+ + Note +
+
+

We’ve seen how it [Euler’s identity] can easily be deduced from results of Johann Bernoulli and Roger Cotes, but that neither of them seem to have done so. Even Euler does not seem to have written it down explicitly – and certainly it doesn’t appear in any of his publications – though he must surely have realized that it follows immediately from his identity [i.e. Euler’s formula], e^ix = cos x + i sin x. Moreover, it seems to be unknown who first stated the result explicitly… (Wikipedia)

+
+

Euler's identity

Each result goes to the 9th object of prime 67 which is 19th prime. So when the cycle has passed the 10th object then the 43 objects will be laid by 9 collumns and slightly forming a recombination which facilitate them to finaly generate 1000 primes

+
+ + Tip +
+
+

By this tabulation you may see that all the numbers between 37 and 102 are located within 11 columns. This 11 is reflected to the extra dimensions. However by MEC30 the number 11 is bonding with 19 so it would go to another cycles starting with the 26th dimension which will bring them to the 30. And by the MEC30 this 30th order repeats itself to infinity. Even in the first 30s system.

+
+
  Δ1 + Δ7 + Δ29    | Δ37 + Δ77 = Δ114 = Δ113 + Δ1  
+
+     |         1st (Form)          |         2nd (Route)         |         3rd (Channel)       |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ 150 | 151| 152| 153| 154| 155| 156| 157| 158| 159| 160| 161| 162| 163| 164| 165| 166| 167| 168|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ1 | 19 |  - | 31 | 37 |  - |  - |  - |  - |  - |  - |  - |  - |  - |  - | 103|  - |  - |  - |  
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ2 | 20 | 26 |  - | 38 |  - |  - |  - |  - |  - | 74 |  - |  - |  - | 98 | 104|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+ 
+  Δ3 | 21 | 27 |  - | 39 |  - |  - |  - |  - |  - | 75 |  - |  - |  - | 99 | 105|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ4 | 22 | 28 |  - | 40 |  - |  - |  - |  - |  - | 76 |  - |  - |  - | 100|  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ5 | 23 | 29 |  - | 41 |  - |  - |  - |  - |  - | 77 |  - |  - |  - | 101|  - |  - |  - |  - | 
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ6 | 24 |  - |  - | 42 |  - | 54 |  - |  - | 72 | 78 |  - | 90 | 96 |  - |  - |  - |  - | 114|
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  Δ7 | 25 |  - |  - | 43 |  - | 55 |  - |  - | 73 | 79 |  - | 91 | 97 |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ8 |  - |  - |  - | 44 |  - | 56 |  - |  - |  - | 80 |  - | 92 |  - |  - |  - |  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+  Δ9 |  - |  - |  - | 45 |  - | 57 |  - |  - |  - | 81 |  - | 93 |  - |  - |  - |  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ10 |  - |  - |  - | 46 | 52 | 58 |  - | 70 |  - | 82 | 88 | 94 |  - |  - |  - |  - | 112|  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ11 |  - |  - |  - | 47 | 53 | 59 |  - | 71 |  - | 83 | 89 | 95 |  - |  - |  - |  - | 113|  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ12 |  - |  - |  - | 48 |  - | 60 | 66 |  - |  - | 84 |  - |  - |  - |  - |  - | 108|  - |  - |
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+ Δ13 |  - |  - |  - | 49 |  - | 61 | 67 |  - |  - | 85 |  - |  - |  - |  - |  - | 109|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ14 |  - |  - | 32 | 50 |  - | 62 | 68 |  - |  - | 86 |  - |  - |  - |  - |  - | 110|  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ15 |  - |  - | 33 | 51 |  - | 63 | 69 |  - |  - | 87 |  - |  - |  - |  - |  - | 111|  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ16 |  - |  - | 34 |  - |  - | 64 |  - |  - |  - |  - |  - |  - |  - | -  | 106|  - |  - |  - |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ17 |  - |  - | 35 |  - |  - | 65 |  - |  - |  - |  - |  - |  - |  - | -  | 107|  - |  - |  - |
+     +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+ Δ18 |  - | 30 | 36 |  - |  - |  - |  - |  - |  - |  - |  - |  - | -  | 102|   -|  - |  - |  - |
+=====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+====+
+  1  |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 | 12 | 13 | 14 | 15 |  16|  17| 18 | 19 |
+-----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
+     |       Δ    Δ    Δ           |                     Φ12     |       Δ                   Δ |
+           -113 +150 = +37                                             +102 = +139    -113 -114
+

Euler partition

By The Δ(19 vs 18) Scenario those three are exactly landed in the 0's cell out of Δ18. See that the sum of 30 and 36 is 66 while the difference between 36 and 102 is also 66.

0 + 30 + 36 + 102 = 168 = π(1000)

19vs18

The function that appears in the denominator is Partition Function. The equality between the product on the first line and the formulas in the third and fourth lines is Euler's pentagonal number theorem where p(33) = 10143 landed exactly by n - 7.

+
+ + Tip +
+
+

Using Euler’s method to find p(40): A ruler with plus and minus signs (grey box) is slid downwards, the relevant terms added or subtracted. The positions of the signs are given by differences of alternating natural (blue) and odd (orange) numbers. In the SVG file, hover over the image to move the ruler (Wikipedia).

+
+

Euler_partition_function

As explicitly indicated by n - 7 within identition zones this p(33) behave reversal to the exponentiation zones so it would stand as π(π(π(1000th prime)))+1. By the prime pair 11 and 13 the nodes is converted from 7 to 77 which is 7 times 11.

+
+ + Tip +
+
+

Note that when 77 contains ‘Lucky 7 and 11’ as prime factors it is also the product of the middle two numbers of this sequence (11*7 = 77). (Prime Curios!)

+
+

114 Nodes

By the next term there are fractions within these 1000 primes which end up with 168 identities of the same structure as the seven (7) pàrtitions of addition zones.

The only difference is the base unit of the lexer (Id: 33).
It is now carrying the above p(33) = 10143.


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Spacetime (spin 1)

Speculative theories with more than one time dimension have been explored in physics. The additional dimensions may be similar to conventional time, compactified like the additional spatial dimensions in string theory, or components of a complex time

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In physics, spacetime is a mathematical model that combines the three dimensions of space and one dimension of time into a single four-dimensional manifold.

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Spacetime diagrams can be used to visualize relativistic effects, such as why different observers perceive differently where and when events occur.

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Einstein's general theory of relativity, published in November 1915, describes gravity as the warping of spacetime by masses such as the Earth and moon. The latest issue of Science News celebrates general relativity's 100th anniversary

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The Solar System is the gravitationally bound system of the Sun and the objects that orbit the star. The largest of such objects are the eight planets. This was formed 4.6 billion years ago from the gravitational collapse of a giant interstellar molecular cloud.

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Space and Time: Minkowski's Papers on Relativity, published by the Minkowski Institute. Hand-tinted transparency presented by Hermann Minkowski in his famous Raum und Zeit talk to the German Society of Scientists and Physicians in 1908

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Besides many theories there is COMPOSITE and PRIMES as a self organized system (12/12/12). Even though it is proven that it is not from Tesla, whoever made it if you are reading this article, I sincerely want to thank you because I use a lot of the analysis.

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This scheme has a configuration of 30 nodes so the recombination is involving 2x30 or 60 nodes out of the 72 nodes of True Prime Pairs will act as the base platform. The rest of 11 which is initially came out from the prime 13 is the irrational.

  #8 |----------- 5® --------|------------ 7® --------------|
+     |  1  |---------------- 77 = 4² + 5² + 6² -------------|
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ user|  7  |  -  | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78
+ main|  -  |  9  | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+               Δ | Δ             |                       Δ  |   Δ
+              Φ17|Φ29            |                     96-99|  100 - 123 ({24})
+                 |--- A,T,G,C ---|                          |  └── 100 - 103 (4x) » 100
+                 Δ    2x2 = 4x   |-------  2x3 = 6x  -------|  └── 104 - 109 (6x) » 30
+                {98}                                        |  └── 110 - 123 (14x)» 70
+

The approach taken is to think of the solutions of an equation as a geometric object. For example, an equation in two variables defines a curve in the plane. More generally, an equation, or system of equations, in two or more variables defines a curve, a surface or some other such object in n-dimensional space (Wikipedia).

Proceeding, the number line begins to coil upon itself; 20 lands on 2's cell, 21 on 3's cell. Prime number 23 sends the number line left to form the fourth hexagon, purple. As it is not a twin, the clockwise progression (rotation) reverses itself. When viewed with an extra dimension of space, these respectively generate hyperboloids of one sheet and two sheets.

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The concept of dark matter arose in the study of cosmological phenomena, that is matters dealing with the Universe and galaxies and so on. However, evidence from the Hubble telescope in 1998 showed that the Universe began expanding at an accelerating rate sometime in the past and still is doing so. This came as a surprise to many

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The major problem, however, is that quantum mechanical calculations for the cosmological constant give value that is grossly out of the required range. This indicates that either something is wrong with the theory, or our knowledge is incomplete.


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Scenarios (spin 2)

Prime hexagon is a mathematical structure developed by mathematician T. Gallion that is formed when integers are sequentially added to a field of tessellating equilateral triangles, where the path of the integers is changed whenever a prime is encountered.

This is not easy as they are linked to the nature of prime numbers, and nothing is easy about the nature of prime numbers. But I begin with this assumption: if the hexagons participate in the Universe in any way other than haphazardly, they must be demonstrably congruent to something organized (T. Gallion).

This behaviour in a fundamental causal relation to the primes when the products are entered into the partitions system. The subclasses of partitions systemically develops characters similar to the distribution of prime numbers.

Rank of a partition

Now the following results: Due to the convolution and starting from the desired value of the prime position pairs, the product templates and prime numbers templates of the prime number 7 lie in the numerical Double strand parallel opposite.

Double Strands

The spacetime diagram on the left, the magenta hyperbolae connect events of equal spacelike separation from the origin, while the green hyperbolae connect events of equal timelike separation from the origin.

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This scheme has a configuration of 30 nodes so the recombination is involving 2x30 or 60 nodes out of the 72 nodes of True Prime Pairs will act as the base platform. The rest of 11 which is initially came out from the prime 13 is the irrational.

  Tabulate Prime by Power of 10
+  loop(10) = π(10)-π(1) = 4-0 = 4
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114
+
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+
+Sequence:
+ By the next layer the 89² will become 89 and 5 become 5² or 25.
+ This 89 and 25 are in the same layer with total of 114 or prime 619
+ So sequence from the first prime is 1,4,7,10,29,68,89,114,139,168,329,618.
+

When recombination is occur then the prime 13 is forced to → 12 where the impact (Δ1) goes to 18+13+12=43 on the last 7th row. This sequence is simulated by a flowchart having 12 arrows flowing on 10 (ten) shapes of prime 31 up to 71 (40 nodes).

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17) (₠Quantum).

flowchart

This polarity is happened per six (6) cycles by the polar of six (6) to one (1) and six (6) to seven (7) by which we finally found if this behaviour is cascaded bilaterally within the correlation between 61 as the 18th prime and 67 as the 19th prime.

Dyson discovered an intriguing connection between quantum physics and Montgomery's pair correlation conjecture about the zeros of the zeta function which dealts with the distribution of primes. This finaly bring us to the equation of Euler's identity.

This scale shows that the Mathematical Elementary Cell 30 (MEC30) standard unites the mathematical and physical results of 1972 by the mathematician Hugh Montgomery and the physicist Freeman Dyson and thus reproduces energy distribution in systems as a path plan more accurately than a measurement (Google Patent DE102011101032A9).

Euler's identity

The finiteness position of middle zero axis = 15 by the said MEC30 opens up the possibility of accurately representing the self-similarity based on the distribution of True Prime Pairs. So that all number would belongs together with their own identity.

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Feeding (spin 3)

As shown in The Primes Platform this cycle goes to the prime 13 then reinjected through index 13:9 . So it forms The Scheme-139 through the infinitely primes cycling. This scheme will be implemented by taking the following as the syntax algorithm:

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The Prime Spiral Sieve possesses remarkable structural and numeric symmetries. For starters, the intervals between the prime roots (and every subsequent row or rotation of the sieve) are perfectly balanced, with a period eight (8) difference sequence of: {6, 4, 2, 4, 2, 4, 6, 2} (Primesdemystified).

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Speaking of the Fibonacci number sequence, there is symmetry mirroring the above in the relationship between the terminating digits of Fibonacci numbers and their index numbers equating to members of the array populating the Prime Spiral Sieve.

11's additive sums

These objects will then behave as a complex numbers that leads to trivial and complex roots of the 18th prime identity. 286 - (231x5)/(11x7) = 286 - 1155/77 = 286 - 15 = 200 + 71 = 271

  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th ←------------ 10
+  =======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20 --------
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin                |
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 --------
+  =======================+====+====+====+====+====+====+====+====+====+===== bilateral 9 sums (2)+60+40=102
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th ------------→ 30 --------
+  =======================+====+====+====+====+====+====+====+====+====+===== 4th Twin                |
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th ←------------ 20 --------
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+

The opposite direction will be made through switching beetween Linux and Windows which is proceed the old strand in the 3′ to 5′ direction, while the new strand is synthesized in the 5' to 3' direction. Here we set a remote self-host runner via WSL.

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The rest of primes goes to the 33's of 15th axis that holding 102 primes of (2,60,40). By the bilateral way the form will be splitted to (1,30,20). Since the base frame shall be 40 so it will be forced to form (1,30,40) of prime 71.

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Entrypoint (spin 4)

SUBMODULE=path/to/submodule
+
+rm -rf $SUBMODULE
+git rm --cached $SUBMODULE
+rm -rf .git/modules/$SUBMODULE
+git config -f .gitmodules --remove-section submodule.$SUBMODULE
+git add . && git commit -m "delete $SUBMODULE" && git push
+

This recombination is taking a scheme called DNA Recombination: M+F to C1+C2 which could only be happen when two (2) chromosomes involve. Here we found that each of their DNA will form a scheme called The Scheme 13:9 as shown below.

The 10 ranks will coordinate with the 18 to raise up the symmetrical behaviour of 12+24=36 which is prime pair 17+19=36 and let the 2 and 3 out of 2,3,5,7 to begin a new cycle while the 5,7 will pair the 11,13 and 17,19 as True Prime Pairs.

I like that 0 can occupy a center point. Incidentally, this circular shape minus all my numbers and colors s has been called Seed of Life / Flower of Life by certain New Age groups who claim it has a sacred geometry. Please don't see this as an endorsement of any spiritual group or religion. (Prime Hexagon - Circulat Form)

image

You can use either mklink /j or junction in Windows 10 to create junctions. Junction not only allows you to create NTFS junctions, it allows you to see if files or directories are actually reparse points. Reparse points are the mechanism on which NTFS junctions are based, and they are used by Windows' Remote Storage Service (RSS), as well as volume mount points.

mklink /j .github C:\Users\Admin\.github
+

mklink

The color spin addresses for numbers are generally straightforward – a composite number takes the spin of the prior prime. 4 spins blue because 3 spins blue. 8 is red because 7 is red. However, twin primes, and the 0 type numbers between them, are open to some interpretation.

base

By The Δ(19 vs 18) Scenario those three are exactly landed in the 0's cell out of Δ18. See that the sum of 30 and 36 is 66 while the difference between 36 and 102 is also 66.

19vs18

In the second opposing member, the position 13 in the second term gives a redundant value of the template 7 of 7 × 7 = 49. The opposite prime position 31 as the 11th prime number is now forced to determine a new axis-symmetrical zero position.

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Many relevant topics, such as trustworthiness, explainability, and ethics are characterized by implicit anthropocentric and anthropomorphistic conceptions and, for instance, the pursuit of human-like intelligence.

AI is one of the most debated subjects of today and there seems little common understanding concerning the differences and similarities of human intelligence and artificial intelligence (Human vs AI).

The next step we will explore to find out if this configuration is relevant in the programming process. The following will explain how the formations are arranged so that we can simulate an instance based on their respective characters.

33's

This process would take place all the way to three (3) layers in a more complex way involving 114 objects generated by the sum of the above mentioned prime 71 and 43. This is what we will discuss further on how apply it in to a custom domain.


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Mapping (spin 5)

When we come to a mapping of a Project, is critical to look for the future of Parts Unlimited otherwise the project will massively over budget and very late. So to deal with this we shall consider to move everything to the cloud…

phoenix

Since version 3.2 , a new Jekyll project bootstrapped with jekyll new uses gem-based themes to define the look of the site. This results in a lighter default directory structure: _layouts, _includes and _sass are stored in the theme-gem, by default.

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You can attach a persistent disk or create an instance with Local SSDs when using Container-Optimized OS. The disks can be mounted by creating a subdirectory under /mnt/disks directory (writable, executable, stateless, tmpfs) using startup-scripts.

image

If you are using Docker-for-Windows, you can run now both Windows and Linux containers simultaneously: Running Docker Windows and Linux Containers Simultaneously, not only the Linux container itself, but also an orchestrator like Kubernetes: Kubernetes is Now Available In Docker Desktop Stable Channel

GitHub Actions workflow

On the lagging strand template, a primase "reads" the template DNA and initiates synthesis of a short complementary RNA primer. This is assigned to Windows container.

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You can run .NET applications in Linux containers, but only if they're written in .NET Core which can be deployed on Windows Server Containers. Applications running in Windows Server Containers can run in any language supported by Windows.

kernel-6.1.21.1-microsoft-standard-WSL2.img

Let's combine them all then we will get 168 which is the total primes out of 1000 numbers. This 168 we will get it also when we combine the 1's and 17's cell of (31+37)+(35+65)=68+100=168.

zeta-vs-zero

This can be remedied by re-mounting your Windows partition inside WSL with the metdata option. Edit the /etc/wsl.conf file (create it if it doesn't exist) and add the following:

[automount]
+options = "metadata"
+

Log out from WSL and log in again, and now the windows partition will be mounted with metadata and chmod will work against windows files. You can now chmod 600 ~/.ssh/id_rsa and everything will work correctly.

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By this project we are going to use a library called Chevrotain. It can be used to build Lexers, Parsers and Interpreters for various use cases ranging from simple config files to full fledged programming languages.

Lexers, Parsers and Interpreters with Chevrotain

This Widows is an isolated container, lightweight package for running an application on the host operating system. Containers build on top of the host operating system's kernel (which can be thought of as the buried plumbing of the operating system).


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Keyring (spin 6)

A lexer is the part of an interpreter that turns a sequence of characters (plain text) into a sequence of tokens. The Parser which takes the tokens from the lexer and returns a syntax tree based on a grammar. The grammar is often expressed in a meta language.

BusyBox v1.34.1 (2022-07-19 20:11:24 UTC) multi-call binary.
+
+Usage: mv [-finT] SOURCE DEST
+or: mv [-fin] SOURCE... { -t DIRECTORY | DIRECTORY }
+
+Rename SOURCE to DEST, or move SOURCEs to DIRECTORY
+
+	-f	Don't prompt before overwriting
+	-i	Interactive, prompt before overwrite
+	-n	Don't overwrite an existing file
+	-T	Refuse to move if DEST is a directory
+	-t DIR	Move all SOURCEs into DIR
+

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By this modification we are going to build the three (3) layers of 19 cells with a cumulative sum of 1, 7 and 19 in sequence. So follow to the scheme then it would get 50 nodes out of the total nodes of 66.

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The next step we will explore to find out if this configuration is relevant in the programming process. The following will explain how the formations are arranged so that we can simulate an instance based on their respective characters.

image

By The Δ(19 vs 18) Scenario those three are exactly landed in the 0's cell out of Δ18. See that the sum of 30 and 36 is 66 while the difference between 36 and 102 is also 66.

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\ No newline at end of file diff --git a/multiplication/file25.html b/multiplication/file25.html new file mode 100644 index 00000000..3b52ac63 --- /dev/null +++ b/multiplication/file25.html @@ -0,0 +1,31 @@ + Enneagram (spin 7) · ₠Quantum

Enneagram (spin 7)

For some Enneagram theorists the lines connecting the points add further meaning to the information provided by the descriptions of the types. Sometimes called the "security" and "stress" points, or points of "integration" and "disintegration".

From this perspective, there are twenty-seven (27) distinct personality patterns, because people of each of the nine (9) types also express themselves as one of the three (3) subtypes (Wikipedia).

This is managed within twelve (12) flows (A: to W:). Each flows is representing a certain period which is converting the three (3) layers of 19 cells with a cumulative sum of 1, 7 and 19 in sequence as explained before.

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It turns out it's actually pretty straight forward to set WSL to use your Windows home directory. First, within WSL edit the /etc/passwd file (eg with sudo nano /etc/passwd).

+
eq19:x:1000:1000:eQ19:/home/eq19:/bin/bash
+eq19:x:1000:1000:eQ19:/mnt/c/users/Admin:/bin/bash
+

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+
₠Quantum
profiles
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\ No newline at end of file diff --git a/multiplication/file26.html b/multiplication/file26.html new file mode 100644 index 00000000..6e0a83e9 --- /dev/null +++ b/multiplication/file26.html @@ -0,0 +1,29 @@ + Twisting (spin 8) · ₠Quantum

Twisting (spin 8)

1155 / 5 = 286 - 55 = 200 + 31 = 231

layer|  i    |   f
+-----+-------+------
+     | 1,2:1 | (2,3)
+  1  +-------+
+     | 3:2   | (7)
+-----+-------+------
+     | 4,6:3 | (10,11,12)  <--- 231 (3x)
+  2  +-------+
+     |{7}:4  |({13})
+-----+-------+------
+     | 8,9:5 | (14,{15})   <--- 231 (2x)
+  3  +-------+
+     | 10:6  | (19)
+-----+-------+------
+

We study the limit shape of the generalized Young diagram when the tensor power N and the rank n of the algebra tend to infinity with N/n fixed. We derive an explicit formula for the limit shape and prove convergence to it in probability. We prove central limit theorem for global fluctuations around the limit shape (arXiv:2010.16383v4).

Limit shape for infinite rank limit of tensor power decomposition for Lie algebras of series

Dyson discovered that the eigenvalue of these matrices are spaced apart in exactly the same manner as Montgomery conjecture of the nontrivial zeros of the zeta function. Means it also depends on Riemann hypotesis which is still in a major issue. Similar case left science today many unsolved problems that associated with.

Eigenvectors_of_a_linear_operator

In order to propagate through space and interact we shall attemp it using string theory One must therefore imagine scenarios in which these extra dimensions would not be observed in experiments so it would become irrational partitions.

In turns out that quantum string theory always destroys the symmetries of the classical string theory, except in one special case: when the number of dimensions is 10. That's why string theory works only in 10 dimensions (Physicsforums).

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True Prime Pairs:
+(5,7), (11,13), (17,19)
+
+|------------------------- Skema-12 ------------------------|
+|------------ 6¤ -------------|------------- 6¤ ------------|
+|--------------------------- 192 ---------------------------|
+|---- {23} ----|---- {49} ----|-- {29} -|--{30} --|-- 61 ---|
++----+----+----+----+----+----+----+----+----+----+----+----+
+|  5 |  7 | 11 |{13}| 17 | 19 | 17 |{12}| 11 | 19 | 18 | 43 |
++----+----+----+----+----+----+----+----+----+----+----+----+
+|---------  5¤  ---------|---- {48} ----|----- {48} ---|{43}|
+|---------  5¤  ---------|------------ {96} -----------|{43}|
+|--------- {53} ---------|-------------- {139} -------------|
+|------- Skema-23 -------|------------- Skema-34 -----------|    
+

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This 23 units will form Scheme-23 as two (2) long strands which is known as doble helix Here we call them as Scheme-23 (71) and Scheme-23 (68). These strands are originated by the three (3) layers of True Prime Pairs.

Scheme-139

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Since the arithmetic mean of those primes yields 157 then the existence of 114 will remain to let this 18+19=37th prime number stands as the balanced prime.

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\ No newline at end of file diff --git a/multiplication/file27.html b/multiplication/file27.html new file mode 100644 index 00000000..9cec69a4 --- /dev/null +++ b/multiplication/file27.html @@ -0,0 +1,15 @@ + Recycling (spin 9) · ₠Quantum

Recycling (spin 9)

This progression 41,43,47,53,61,71,83,97,113,131 whose general term is 41+x+xx, is as much remarkable since the 40 first terms are all prime numbers (Euler's letter to Bernoulli).

1st layer:
+It has a total of 1000 numbers
+Total primes = π(1000) = 168 primes
+
+2nd layer:
+It will start by π(168)+1 as the 40th prime
+It has 100x100 numbers or π(π(10000)) = 201 primes
+Total cum primes = 168 + (201-40) = 168+161 = 329 primes
+
+3rd layer:
+Behave the same as 2nd layer which has a total of 329 primes
+The primes will start by π(π(π(1000th prime)))+1 as the 40th prime
+This 1000 primes will become 1000 numbers by 1st layer of the next level
+Total of all primes = 329 + (329-40) = 329+289 = 618 = 619-1 = 619 primes - Δ1 
+

Plottng 40th prime scheme of the three (3) layers with all the features of 3rd prime identity as explained above then they would form their recycing through the three (3) times bilateral 9 sums as shown below.

89^2 - 1 = 7920 = 22 x 360 = 66 x 120 = (168 - 102) x 120

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I wondered if that property might hold for the incremental powers of phi as well. For this reason I chose to see numbers in the hexagon as quantum, and truncate off the decimal values to determine which integer cell they land in.

That is what I found. Phi and its members have a pisano period if the resulting fractional numbers are truncated.

Truncate to Determine Integer Values

FeynCalc is a Mathematica package for symbolic evaluation of Feynman diagrams and algebraic calculations in quantum field theory and elementary particle physics.

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\ No newline at end of file diff --git a/multiplication/file28.html b/multiplication/file28.html new file mode 100644 index 00000000..01cb1d53 --- /dev/null +++ b/multiplication/file28.html @@ -0,0 +1 @@ + Exchange (spin 10) · ₠Quantum

Exchange (spin 10)

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The exchange interaction is a quantum mechanical process that only happens between identical particles in chemistry and physics. The energy produced when two or more electrons with the same spin swap locations in a subshell's degenerate orbitals .

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On the instinctual level, people may internally stress and externally express the need to protect themselves (self-preservation), to connect with important others or partners (sexual), or to get along or succeed in groups (social).


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\ No newline at end of file diff --git a/multiplication/file29.html b/multiplication/file29.html new file mode 100644 index 00000000..1c6ff2e9 --- /dev/null +++ b/multiplication/file29.html @@ -0,0 +1,89 @@ + Runners (spin 11) · ₠Quantum

Runners (spin 11)

In this Feynman diagram, an electron (e−) and a positron (e+) annihilate, producing a photon (γ, represented by the blue sine wave) that becomes a quark–antiquark pair (quark q, antiquark q̄), after which the antiquark radiates a gluon (g, represented by the green helix).

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Runners are the machines that execute jobs in a GitHub Actions workflow. You can access Variables and Contexts information in specific OS. For example, a runner can clone your repository locally, install testing software, and then run commands.


+# Sample workflow for building and deploying a Jekyll site to GitHub Pages
+name: Build and deploy Jekyll site
+
+# 💎 Runs on deployment targeting the default branch
+on:
+  # push:
+    # branches: [eQ19]
+  workflow_run:
+    types: [completed] #requested
+    workflows: ["pages-build-deployment"]
+
+# 🪂 Allow only one concurrent deployment across the branches
+concurrency:
+  group: "pages"
+  cancel-in-progress: true
+  
+# Sets permissions of the GITHUB_TOKEN
+permissions: write-all
+
+# Sets global environtment variables
+env:
+  OWNER: ${{ github.repository_owner }}
+
+jobs:
+  # Build job
+  github-pages:
+    if: github.event.workflow_run.conclusion == 'success'
+    runs-on: ${{ vars.OWNER != 'FeedMapping' && 'ubuntu-latest' || 'windows-latest' }}
+    steps:
+      - name: 📂 Checkout
+        uses: actions/checkout@v3
+        with:
+          submodules: recursive
+ 
+      - name: 💎 Build on Linux
+        if: runner.os == 'Linux'
+        uses: eq19/feed@v2
+        with:
+          pre_build_commands: 'make build'
+          token: ${{ secrets.JEKYLL_GITHUB_TOKEN }}
+
+      - name: 💎 Build on Windows
+        if: runner.os == 'Windows'
+        uses: eq19/maps@v1
+        id: stepid
+        with:
+          dotnet-version: '3.1.x'
+
+

By deploying containers on Compute Engine, you can simplify app deployment while controlling four dimensional space. You can configure a virtual machine (VM) instance or an instance template to deploy and launch a Docker container.

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This property would tend the ballancing scheme of MEC30 so it will let 30-18=12 pairing with another 12 of 24 spins prime hexagon. The 24 goes to the center of True Prime Pairs ny the prime pair 13 and 11 and let the crancks of 2,3,5,7 inside the 10 ranks.

                                | 
+                                |                              ----------- 5 -----------
+                                |                             |                         |  
+                                ↓                             ↑                         ↓
+ |   feeding    |     mapping     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
+ |------------- 36' --------------|----------------------------36' ----------------------------|
+ |     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
+                                ↓                             ↑                         |    |
+                                |                             |                         |    |
+                                 ------------ 10 -------------                          |    |
+                                                                                        ↓    ↓ |
+                                                                                +----+----+----+
+                                                                                |  2 | 60 | 40 |
+                                                                                +----+----+----+
+                                                                                        |    | |
+                                                                                     2+100 ◄- 
+   -----------------------+----+----+----+----+----+----+----+----+----+-----           |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum             |
+  =======================+====+====+====+====+====+====+====+====+====+=====            ↓
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  ◄- 4 =  π(10)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+

This 71 is a conformation that it has the same result as we have explained on the residual objects of 571 turn to a vektor of 71 while the rest of 500 turn to 200 objects of 3's identity and the last objects of 300 goes to the next cycles.

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So now out of 1000 numbers that generated from 1000 primes we will get the rest of 1000 - 100 = 900. This 900 will behave as matrix square 30x30 and act as the base frame of 2nd and 3rd layer which are working on π(π(100x100))-1=200 primes:

                            33+34=67=19th prime
+ |----------------------------------|-------------------------------------------------------------|
+ |             33                   |                             34                              |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |     lexering = π(1000)           |                    parsering = 1000/Φ                       |
+ |--------------|-------------------|------------------------------|------------------------------|
+ |   feeding    |      mapping      |          syntaxing           |          grammaring          |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 |  39 | 40 | 41 | 42 | 43 | 44 | 45  | 46 | 47 | 48 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |  2 | 60 | 40 | 1  | 30 | 30 | 5  | 1  | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+ +----+----+----+----+----+----+----+----+----+-----+----+----+----+----+----+-----+----+----+----+
+ |       2'     |        3'         |              5'              |               7'             | 
+

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The GitHub hosted runner is assigned to run the Linux container and a Windows Server Core container simultaneously. This is an experimental feature of Microsoft WSL2 and may have some issues. One known problem is volumes are not stable.

Set WSL

The 10 ranks will coordinate with the 18 to raise up the symmetrical behaviour of 12+24=36 which is prime pair 17+19=36 and let the 2 and 3 out of 2,3,5,7 to begin a new cycle while the 5,7 will pair the 11,13 and 17,19 as True Prime Pairs.

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\ No newline at end of file diff --git a/multiplication/file30.html b/multiplication/file30.html new file mode 100644 index 00000000..efdf9e42 --- /dev/null +++ b/multiplication/file30.html @@ -0,0 +1,118 @@ + Manifest (spin 12) · ₠Quantum

Manifest (spin 12)

---+-----+-----
+ 1 | {1} | {2}
+---+-----+-----
+ 2 |  3  | 101
+---+-----+-----
+ 3 |{102}| 111
+---+-----+-----
+

There are some mathematical shape of this residual objects. Torus is basically a donut shape, which has the property of of having variable Gaussian curvature. Some parts of the surface has positive curvature, others zero, others negative.

The blue parts of the torus above have positive curvature, the red parts negative and the top grey band has zero curvature. If our 3 dimensional space was like the surface areas of a 4 dimensional torus, the parts would have different angle sums.

Torus

These are two more bizarre shapes with strange properties. Mobius strip only has one side, if you start anywhere on its surface and follow the curvature round you will eventually return to the same place having travelled on every part of the surface.

Mobius

The Klein bottle is in someways a 3D version of the Mobius strip and even though it exists in 3 dimensions, to make a true one you need to "fold through" the 4th dimension.

Klein bottle

By our project, this partition stands as the prime identity. The tabulation below shows the 2nd prime identity where the 20 out of the largest part = 21 goes to rank = 10 via crank = 20-11 = 9. These 10 and 9 are associated with the 19th prime identitity.

           largest part = 21 → 11+13+12 = 36  →  MEC30
+                        ↓                      |
+---+-----+-----+-----+-----+                   ↓
+ 1 | 19  | 1   | 20  | 21  |-------------------|-----
+---+-----+-----+-----+-----+                   ↓     |
+ 2 | 18  | 21  | 39  | 60  |-------------------      |
+---+-----+-----+-----+-----+                   |     |
+ 3 |{63} | 40  | 103 | 143 |-------------      |     |
+---+-----+-----+-----+-----+             |     |     |
+ 4 | 37  | 104 | 141 | 245 |-------      |     |     |
+---+-----+-----+-----+-----+       |     |     |     |
+ 5 | 10* | 142 | 152 | 294 |- 11** | 13  | 12  | 12  | 18
+---+-----+-----+-----+-----+       |     |     |     |
+ 6 | 24  | 153 | 177 | 332 |-------      |     |     |
+---+-----+-----+-----+-----+             |     |     |
+ 7 | 75  | 178 | 253 | 431 |-------------      |     |
+---+-----+-----+-----+-----+                   |     |
+ 8 | 30  | 254 | 284 | 538 |-------------------      |
+---+-----+-----+-----+-----+                   ↓     |
+ 9 | 1   | 285 | 286 | 571 |-------------------|-----
+===+=====+=====+=====+=====+                   ↓
+45 | 277 |                      ← 11+13+12=36 ←  MEC30
+---+-----+                                     |
+ ↑
+Note:
+10* stands as the central rank
+11** stands as the central parts
+

In order to describe real physical phenomena using string theory, one must therefore imagine scenarios in which these extra dimensions would not be observed in experiments so it would become the irrational partitions.

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17) (₠Quantum).

$True Prime Pairs:
+ (5,7), (11,13), (17,19)
+ 
+ layer|  i  |   f
+ -----+-----+---------
+      |  1  | 5
+   1  +-----+
+      |  2  | 7
+ -----+-----+---  } 36 » 6®
+      |  3  | 11
+   2  +-----+
+      |  4  | 13
+ -----+-----+---------
+      |  5  | 17
+   3  +-----+     } 36 » 6®
+      |  6  | 19
+ -----+-----+---------
+  
+layer | node | sub |  i  |  f                               
+------+------+-----+---------- 
+      |      |     |  1  | -------------------- _site ---  71 = 72-1
+      |      |  1  +-----+                        |
+      |  1   |     |  2  | (5)                  _saas
+      |      |-----+-----+                        |
+      |      |     |  3  | ---------            _data
+  1   +------+  2  +-----+----      |             |
+      |      |     |  4  |         5x ---       _posts
+      |      +-----+-----+          |     |       |
+      |  2   |     |  5  | (7) -----      |     _drafts
+      |      |  3  +-----+                |       |
+289+11=300   |     |  6  |                |     _plugins
+------+------+-----+-----+----- 72 x 6   7x ------------ 11x = 77 (rational)◄--
+      |      |     |  7  |                |     _includes                      |
+      |      |  4  +-----+                |       |                            |
+      |  3   |     |  8  | (11)  ---      |     _layouts                       |
+      |      +-----+-----+          |     |       |                            |
+      |      |     |  9  |         2x ---        assets  (69 = 72-3)           |
+  2   +------|  5  +-----+-----     |             |                            |
+      |      |     |  10 | ---------            _saas                          |
+      |      |-----+-----+                        |                            |
+      |  4   |     |  11 | (13) ----------------_site --  71 = 72-1            |
+      |      |  6  +-----+                                                     |
+329+71=400   |     |  12 |------------------------------  70 = 72-2            |
+------+------+-----+-----+                                                    11x
+      |      |     |  13 |                                                     |
+      |      |  7  +-----+                                                     |
+      |  5   |     |  14 | (17) ◄------------------------------------------- (17)
+      |      |-----+-----+                                                     |
+      |      |     |  15 | ◄-- 42 x 6 partitions of 13 (irrational)            |
+  3   +------+  8  +-----+-----                                                +
+      |      |     |  16 |                                                     |  
+      |      |-----+-----+                                                     |
+      |  6   |     |  17 | (19) ◄------------------------------------------- (19)
+      |      |  9  +-----+                                                     |
+168+32=200   |  |  |  18 |------------------------------  68 = 72-4            |
+------|------|--|--+-----+                                                     |
+       900 -----                                                               |
+                                                                               |
+Tabulate Prime by Power of 10                                                  |
+  loop(10) = π(10)-π(1) = 4-0 = 4                                            (36)
+  loop(100) = π(100)-π(10)-1th = 25-4-2 = 19                                   |
+  loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114                       |
+                                                                               |
+  -----------------------+----+----+----+----+----+----+----+----+----+-----   |
+   True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum    |
+  =======================+====+====+====+====+====+====+====+====+====+=====   |
+   19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  (19)    
+  -----------------------+----+----+----+----+----+----+----+----+----+-----   +     
+   17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  (17)
+  -----------------------+----+----+----+----+----+----+----+----+----+-----
+   13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th    |
+  =======================+====+====+====+====+====+====+====+====+====+=====   |
+   11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th   11x
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
+  -----------------------+----+----+----+----+----+----+----+----+----+----- 
+    5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
+  =======================+====+====+====+====+====+====+====+====+====+===== 
+    3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th 
+  =======================+====+====+====+====+====+====+====+====+====+=====
+           Δ                                                            Δ
+  12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1
+  
+

Within a cycle this scheme would generate the prime platform which is performing the rank of 10 shapes starting with the primes 2,3,5,7. Via the 11 partitions as the lexer and 13 frames as the parser we do a recombination to build the grammar in 6 periods.

6 minor hexagons

For starters, it possesses a perfectly balanced structural and numeric symmetries. So it conforms the intervals between the prime roots of the Prime Spiral Sieve (and every subsequent row or rotation of the sieve) with the period eight (8) difference sequence.

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These two (2) exponent are acting as the exchange zones of the MEC30 behaviour of the other two operators. This interactions is managed in between 4 identities of (26 to 29) and 2 identities (30 to 31) by means of Triangular waves.

MEC30

When the subclasses of partitions are flatten out into a matrix, you want to take the Jacobian of each of a stack of targets with respect to a stack of sources, where the Jacobians for each target-source pair are independent .

It's possible to build a Hessian matrix for a Newton's method step using the Jacobian method. You would first flatten out its axes into a matrix, and flatten out the gradient into a vector (Tensorflow).

Batch Jacobian

By The GitHub Runner you can connect to the Google COS Instance. For self-hosted runners defined at the organization level, configure runs-on.group in your workflow file to target a runner groups or combine groups and labels.

A seemingly unrelated construction is the j-function of number theory. This object belongs to a special class of functions called modular functions, whose graphs form a certain kind of repeating pattern.

Although this function appears in a branch of mathematics that seems very different from the theory of finite groups, the two subjects turn out to be intimately related (Wikipedia).

Monstrous moonshine

We propose a new higher dimensional version of the McKay correspondence which enables us to understand the Hodge theory assigned to singular Gorenstein varieties by physicists, and so-called Higgs bundles.

Hodge theory can be extended to cohomology with coefficients in nonabelian groups between flat vector bundles which, by the Riemann-Hilbert correspondence, are the same as local systems (Hodge Theory in String Theory)

Hodge conjecture

Our results lead to the conjecture that string theory indicates the existence of some new cohomology theory for algebraic varieties with Gorenstein singularities.


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\ No newline at end of file diff --git a/multiplication/index.html b/multiplication/index.html new file mode 100644 index 00000000..45b3d6b4 --- /dev/null +++ b/multiplication/index.html @@ -0,0 +1,192 @@ + Multiplication Zones (19-30) · ₠Quantum

Multiplication Zones (19-30)

+
+ + Warning +
+
+

This page is referring to child section which source is inherited by the prime spin with partitions listed below. Please return always to the Home Page to track the hierarchy.

+
+

Assigning a lexer

By prime hexagon we can see that the number seven (7), hold the power to make the prime spin remain on the track. This power is then transfered to twelve (12) spins.

+
+ + Note +
+
+

Surprisingly, the 24-cell hexagon confines all natural numbers. The reason: no prime numbers occupy a cell with a right or left wall on the t-hexagon’s outer boundary, other than 2 and 3, the initial primes that forced the number line into this complex coil. Without a prime number in the outer set of triangles, the number line does not change to an outward course and remains forever contained in the 24 cells shown above. (HexSpin)

+
+

Structure: Minor Hexagons

So basically there is a power transformation between addition of 3 + 4 = 7 in to their multiplication of 3 x 4 = 12 where this 7 will be treated as one of 12's member.

(11 x 7) + 13 x (6 + 1) = 24 x 7 = 168

  #8 |----------- 5® --------|------------ 7® --------------|
+     |  1  |---------------- 77 = 4² + 5² + 6² -------------|
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ repo| {1} | {2} | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77=11x7
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+ user|  7  |  -  | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+ 7,78=13x6
+ main|  -  |  9  | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
+-----+-----|-----+---+---+---+---+---+---+---+----+----+----+
+               Δ | Δ             |                       Δ  |   Δ
+              Φ17|Φ29            |                     96-99|  168
+                 |--- A,T,G,C ---|                          |   └── 77
+                 Δ    2x2 = 4x   |-------  2x3 = 6x  -------|   └── 78
+                {98}                                        |   └── 13
+

Therefore this 12's treatment will involve at least 11 groups of runner and one (1) profile of the 7's transformation. We collect them in 11 + 7 = 18 gists as below.

+
+ + Tip +
+
+

Gists provide a simple way to share code snippets with others. Every gist is a Git repository, which means that it can be forked and cloned. If you are signed in to GitHub when you create a gist, the gist will be associated with your account and you will see it in your list of gists when you navigate to your gist home page. (GitHub)

+
+
$ gh api -H "${HEADER}" /users/eq19/gists --jq '.[].url'
+
+https://api.github.com/gists/e9832026b5b78f694e4ad22c3eb6c3ef 18 grammar 36
+https://api.github.com/gists/e84a0961dc7636c01d5953d19d65e30a 17 syntax
+https://api.github.com/gists/dc30497160f3389546d177da901537d9 16 parser
+https://api.github.com/gists/b9f901cda16e8a11dd24ee6b677ca288 15 lexer
+https://api.github.com/gists/765ddc69e339079a5a64b56c1d46e00f 14 feed
+https://api.github.com/gists/f78d4470250720fb18111165564d555f 13 maps 30
+                                                           --------
+https://api.github.com/gists/4ffc4d02579d5cfd336a553c6da2f267 12 group11 77
+https://api.github.com/gists/80c8098f16f3e6ca06893b17a02d910e 11 group10
+https://api.github.com/gists/b541275ab7deda356feef32d600e44d8 10 group9
+https://api.github.com/gists/6e2fcc2138be6fb68839a3ede32f0525 9 group8
+https://api.github.com/gists/f21abd90f8d471390aad23d6ecc90d6d 8 group7
+https://api.github.com/gists/6c89c3b0f109e0ead561a452720d1ebf 7 group6
+https://api.github.com/gists/f1af4317b619154719546e615aaa2155 6 group5
+https://api.github.com/gists/54600a56d20163c2da8910dd804ec406 5 group4
+https://api.github.com/gists/8cab5e72d52ecb338a2f2187082a1699 4 group3
+https://api.github.com/gists/88d09204b2e5986237bd66d062406fde 3 group2
+https://api.github.com/gists/b32915925d9d365e2e9351f0c4ed786e 2 group1
+https://api.github.com/gists/0ce5848f7ad62dc46dedfaa430069857 1 eq19/* 37
+

By the prime hexagon the 19th spin is touching back to the first node. So the workflow will be proceeded as bilateral way and twisted them by such a kind of double strands.

https://api.github.com/gists/4ffc4d02579d5cfd336a553c6da2f267 12 group11 77
+https://api.github.com/gists/80c8098f16f3e6ca06893b17a02d910e 11 group10
+https://api.github.com/gists/b541275ab7deda356feef32d600e44d8 10 group9
+https://api.github.com/gists/6e2fcc2138be6fb68839a3ede32f0525 9 group8
+https://api.github.com/gists/f21abd90f8d471390aad23d6ecc90d6d 8 group7
+https://api.github.com/gists/6c89c3b0f109e0ead561a452720d1ebf 7 group6
+https://api.github.com/gists/f1af4317b619154719546e615aaa2155 6 group5
+https://api.github.com/gists/54600a56d20163c2da8910dd804ec406 5 group4
+https://api.github.com/gists/8cab5e72d52ecb338a2f2187082a1699 4 group3
+https://api.github.com/gists/88d09204b2e5986237bd66d062406fde 3 group2
+https://api.github.com/gists/b32915925d9d365e2e9351f0c4ed786e 2 group1
+https://api.github.com/gists/0ce5848f7ad62dc46dedfaa430069857 1 eq19/* 1
+-------- bilateral
+https://github.com/eq19/eq19.github.io/wiki                   19 identity 37
+https://api.github.com/gists/e9832026b5b78f694e4ad22c3eb6c3ef 18 grammar
+https://api.github.com/gists/e84a0961dc7636c01d5953d19d65e30a 17 syntax
+https://api.github.com/gists/dc30497160f3389546d177da901537d9 16 parser
+https://api.github.com/gists/b9f901cda16e8a11dd24ee6b677ca288 15 lexer
+https://api.github.com/gists/765ddc69e339079a5a64b56c1d46e00f 14 feed
+https://api.github.com/gists/f78d4470250720fb18111165564d555f 13 maps 30
+

We concluded later on that this bilateral would not come to be possible if only one (1) profile is assigned. Therefore we add another profile so they would be 11 + 2 = 13's.

These are the ones that bring 11 + 13 = 24 cell hexagons.

Orbital structure

The the main reason of assigning two (2) profiles instead of only one (1) is that we have to accommodate the two (2) major types of primes numbers.

+
+ + Note +
+
+

This is a necessary but not sufficient condition for N to be a prime as noted, for example, by N= 6(4)+1= 25, which is clearly composite. We note that each turn of the spiral equals an increase of six units. This means that we have a mod(6) situation allowing us to write: N mod(6)=6n+1 or N mod(6)=6n-1 (equivalent to 6n+5). (HexSpiral-Pdf)

+
+

twin primes

There are primes number called twin primes. By a group of number up to 31 they have a profile reflect module 6 view of numbers as happens with the minor hexagons.

+
+ + Note +
+
+

Cell types are interesting, but they simply reflect a modulo 6 view of numbers. More interesting are the six internal hexagons within the Prime Hexagon. Like the Prime Hexagon, they are newly discovered. The minor hexagons form solely from the order, and type, of primes along the number line (HexSpin).

+
+

Proof of Confinement

By our project the scheme will be treated as the sun and the moon orbit where this 31 is the maximum days of a month:

https://api.github.com/gists/f78d4470250720fb18111165564d555f 13 maps 1
+https://api.github.com/gists/765ddc69e339079a5a64b56c1d46e00f 14 feed
+https://api.github.com/gists/b9f901cda16e8a11dd24ee6b677ca288 15 lexer
+https://api.github.com/gists/dc30497160f3389546d177da901537d9 16 parser
+https://api.github.com/gists/e84a0961dc7636c01d5953d19d65e30a 17 syntax
+https://api.github.com/gists/e9832026b5b78f694e4ad22c3eb6c3ef 18 grammar
+https://github.com/eq19/eq19.github.io.wiki                   19 identity 37
+7 days (sun)
+-------- bilateral 9 sums
+12 months (moon)
+https://api.github.com/gists/0ce5848f7ad62dc46dedfaa430069857 1 eq19/* 1
+https://api.github.com/gists/b32915925d9d365e2e9351f0c4ed786e 2 group1
+https://api.github.com/gists/88d09204b2e5986237bd66d062406fde 3 group2
+https://api.github.com/gists/8cab5e72d52ecb338a2f2187082a1699 4 group3
+https://api.github.com/gists/54600a56d20163c2da8910dd804ec406 5 group4
+https://api.github.com/gists/f1af4317b619154719546e615aaa2155 6 group5
+https://api.github.com/gists/6c89c3b0f109e0ead561a452720d1ebf 7 group6
+https://api.github.com/gists/f21abd90f8d471390aad23d6ecc90d6d 8 group7
+https://api.github.com/gists/6e2fcc2138be6fb68839a3ede32f0525 9 group8
+https://api.github.com/gists/b541275ab7deda356feef32d600e44d8 10 group9
+https://api.github.com/gists/80c8098f16f3e6ca06893b17a02d910e 11 group10
+https://api.github.com/gists/4ffc4d02579d5cfd336a553c6da2f267 12 group11 77
+

So by the exponentiation zone they will end up as 7 days (sun) and 12 months (moon) while the 11 will represent the ones outside the orbit (stars or galaxies).

This eleven (11) things will be discussed later in identition zones.

MEC30 Structure

We are going to manage the relation of all the involved things in the scheme above using wiki and gist available by GitHub. Here is the example of the code:

#!/usr/bin/env bash
+
+WIKI=https://github.com/$2/$1.wiki.git
+BASE=https://github.com/eq19/eq19.github.io.wiki.git
+rm -rf /tmp/workdir /tmp/gistdir && mkdir /tmp/gistdir
+
+git ls-remote ${WIKI} > /dev/null 2>&1
+git clone $([ $? == 0 ] && echo $WIKI || echo $BASE) /tmp/workdir
+gh gist clone 0ce5848f7ad62dc46dedfaa430069857 /tmp/gistdir/addition
+
+gh gist clone b32915925d9d365e2e9351f0c4ed786e /tmp/gistdir/identition/folder1
+gh gist clone 88d09204b2e5986237bd66d062406fde /tmp/gistdir/identition/folder2
+gh gist clone 8cab5e72d52ecb338a2f2187082a1699 /tmp/gistdir/identition/folder3
+gh gist clone 54600a56d20163c2da8910dd804ec406 /tmp/gistdir/identition/folder4
+gh gist clone f1af4317b619154719546e615aaa2155 /tmp/gistdir/identition/folder5
+gh gist clone 6c89c3b0f109e0ead561a452720d1ebf /tmp/gistdir/identition/folder6
+gh gist clone f21abd90f8d471390aad23d6ecc90d6d /tmp/gistdir/identition/folder7
+gh gist clone 6e2fcc2138be6fb68839a3ede32f0525 /tmp/gistdir/identition/folder8
+gh gist clone b541275ab7deda356feef32d600e44d8 /tmp/gistdir/identition/folder9
+gh gist clone 80c8098f16f3e6ca06893b17a02d910e /tmp/gistdir/identition/folder10
+gh gist clone 4ffc4d02579d5cfd336a553c6da2f267 /tmp/gistdir/identition/folder11
+
+gh gist clone f78d4470250720fb18111165564d555f /tmp/gistdir/exponentiation/folder13
+gh gist clone 765ddc69e339079a5a64b56c1d46e00f /tmp/gistdir/exponentiation/folder14
+gh gist clone b9f901cda16e8a11dd24ee6b677ca288 /tmp/gistdir/exponentiation/folder15
+gh gist clone dc30497160f3389546d177da901537d9 /tmp/gistdir/exponentiation/folder16
+gh gist clone e84a0961dc7636c01d5953d19d65e30a /tmp/gistdir/exponentiation/folder17
+gh gist clone e9832026b5b78f694e4ad22c3eb6c3ef /tmp/gistdir/exponentiation/folder18
+
+find /tmp/workdir -type f -name "Home.md" -prune -exec sh -c 'mv -f "$1" "${1%/*}/README.md"' sh {} \;
+find /tmp/workdir -type f -name "*zone.md" -prune -exec sh -c 'mv -f "$1" "${1%/*}/README.md"' sh {} \;
+find /tmp/workdir/identition -type f -name "*.md" -prune -exec sh -c 'mv -f "$1" "${1%/*}/README.md"' sh {} \;
+find /tmp/workdir/exponentiation -type f -name "*.md" -prune -exec sh -c 'mv -f "$1" "${1%/*}/README.md"' sh {} \;
+find /tmp/gistdir -type d -name .git -prune -exec rm -rf {} \; && find /tmp/gistdir -type f -name "README.md" -exec rm -rf {} \;
+

Gists and Wiki are actually Git repositories, which means that you can fork or clone any gist, even if you aren't the original author. The wiki will look like as below;

+
+ + Tip +
+
+

Every repository on GitHub.com comes equipped with a section for hosting documentation, called a wiki. You can use your repository’s wiki to share long-form content about your project, such as how to use it, how you designed it, or its core principles. (GitHub)

+
+

4 zomes

The main different with gist is that wiki is allowing folder. So we can sort the files regardless where the folder that contained the file is located.

main spin

This feature are the solution to arrange 30 files located in in four (4) of zone folders to cope with the Prime Spin and MEC30 Structure. Let's find what we can do with it.

Parsering Structure

By this point we come to the position where the lexer is being assigned per MEC30. Base on the its spin as shown in the above picture this lexer is assigned by Id: 33.

+
+ + Note +
+
+

Because the value 30 is the first (common) product of the first 3 primes. And this 30th order repeats itself to infinity. Even in the first 30s system, therefore, the positions are fixed in which the number information positions itself to infinity. We call it the first member of the MEC 30. (Google Patent DE102011101032A9)

+
+

MEC30

You may see that the spins are going backward starting with Id: 31. This is identical with the rotation curve of energy distribution by the MEC30.

+
+ + Note +
+
+

The position 19 in the second term gives a redundant value of the template 7 of 7 × 7 = 49. The opposite prime position of the 19 is 11. So in this second term the 11th-prime number 31 is now forced to determine a new axis-symmetrical zero position. (Google Patent DE102011101032A9)

+
+

37 + 12 = 61 - 12 = 49 = 7 x 7 = d(13)

image

Below is the scheme showing a parsering result by repeating the positions in the next step. These positions: 1 7 11 13 17 19 23 29 refer as the basic system of MEC30.

+
+ + Tip +
+
+

According to the results of Princeton University USA in 1972, the distribution of the prime numbers shows in the Riemann zeta function between the position of its complex zeros and middle axis is identical with the rotation curve of energy distribution.

+
+

parsering

Here we can see that the transformation from 7 to 12 is actually started from the prime 13. So the power of 7 is transfered to 77 by the prime pair 11 and 13.

+
+ + Note +
+
+

We call this double strand a convolution, which results in an opposite arrangement. It represents the natural vibration, thus also the redundant vibrations in the energy transfer. In the 6 For example, in the graph, the even number 60 is folded. At folding of the even number 60 6 result in 8 prime pairs. (Google Patent DE102011101032A9)

+
+

89^2 - 1 = 7920 = 22 x 360 = 66 x 120 = (168 - 102) x 120

As you can see on the left sidebar (dekstop mode) a total of 102 items will be reached by the end of Id: 35. So when they transfered to Id: 36 it will cover 11 x 6 = 66 items thus the total will be 102 + 66 = 168

168 + 329 + 289 - 619 - 30 - 30 - 5 = 786 - 619 - 65 = 102

exponentiation zones

Using the javascript library from Chevotrain and data parser from Jekyll/Liquid finally we found the correlation between the lexer and parser as below:

Parsering

The implementation from addition folder 1 will be exposed by the exponentiation folder 7 meanwhile the folder 12 of multiplication goes to identition zone of 11 folders.

So they are 4 folders (1, 7, 11, 12) remain inviolable by the gist.


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