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Detect nodes going down and reassigning work in @parallel #217

Closed
ViralBShah opened this issue Oct 15, 2011 · 10 comments
Closed

Detect nodes going down and reassigning work in @parallel #217

ViralBShah opened this issue Oct 15, 2011 · 10 comments
Labels
parallelism Parallel or distributed computation

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@ViralBShah
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The @parallel for could use some simple fault tolerance, where iterations just get scheduled on other processors if a processor disappears.

This could be simple and easy to do, before we do any fancy database backed stuff.

Assigning to Stephan since he said he wanted to do some compiler stuff. This could possibly qualify..

@ghost ghost assigned stepchowfun Oct 15, 2011
@StefanKarpinski
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I think this is way bigger than just an issue to be "fixed" or "implemented". This is something we all need to figure out the right approach to doing. It is kind of the key to elastic parallelism.

@JeffBezanson
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This is not in the compiler. And it will only work depending on what the parallel for loop does. If it uses distributed arrays, making it fault tolerant is not so easy.

I think the thing to do here is make sure the system has some basic robustness: if a node goes down, everything else should survive and keep working, but you might get errors if you try to do something that depends on the dead node. This has the immediate consequence that if nothing depends on the dead node, you've simply succeeded at removing a processor.

@StefanKarpinski
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This is why, in my mind, "elastic" and "fault tolerant" go together: removing a node intentionally and having a node fail and then removing it from the computation reactively are very similar. For real fault tolerance, the trick would be to ensure that even if the node responsible for a piece of a computation fails, the computation can be completed by another node eventually. Really want to hear Parry's take on this...

@ViralBShah
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I feel that just allowing nodes to go down without bringing down the rest of the system is useful. For a particular class of problems such as Monte Carlo stuff, which are likely to be the first parallel problems, it will also be sufficient.

-viral

On 15-Oct-2011, at 1:52 PM, Stefan Karpinski wrote:

This is why, in my mind, "elastic" and "fault tolerant" go together: removing a node intentionally and having a node fail and then removing it from the computation reactively are very similar. For real fault tolerance, the trick would be to ensure that even if the node responsible for a piece of a computation fails, the computation can be completed by another node eventually. Really want to hear Parry's take on this...

Reply to this email directly or view it on GitHub:
#217 (comment)

@StefanKarpinski
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That's definitely a start. For anything more complex than that, however, we're really going to need some form of fault recovery.

@JeffBezanson
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The key first step here is to decide what to do with processor ids. The set of processors will have to be a vector instead of just an integer, and nprocs is the length of that vector. We need to change everywhere that uses something like 1:np. Then we need to decide whether to reuse processor ids.

@StefanKarpinski
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Does hostname + pid on that host cut it? Or should we just assign a UUID upon joining a computation? Then the set of processors will have to be just that — a set. Can it be a GlobalObject, this set of processors?

@6e441f9c
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6e441f9c commented Nov 2, 2012

Would the very basic tolerance be an easier first step or not? Simply reverting to single-threaded mode after a node failure would be an improvement. I want to use local parallel processingon a 4-core server to make my interactive session quicker to respond; I am OK with getting a message and restarting the threads, but having the session hang is suboptimal.

I guess some easily checkpointable computation could also benefit right now from running a monitor on ID=1 processor that restarts computation from last known data on crash...

@ViralBShah ViralBShah changed the title Simple fault tolerance Detect nodes going down and reassigning work in @parallel and pmap Apr 16, 2015
@amitmurthy amitmurthy changed the title Detect nodes going down and reassigning work in @parallel and pmap Detect nodes going down and reassigning work in @parallel Jun 7, 2016
@amitmurthy
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pmap does this. @parallel currently does not.

@JeffBezanson JeffBezanson modified the milestones: 1.x, 1.0 May 10, 2017
@ViralBShah
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Given that this is done in pmap and the plan is to do away with @parallel eventually, we can close this.

StefanKarpinski pushed a commit that referenced this issue Feb 8, 2018
* avoid looping through deprecations that are gone now

should hopefully fix tests on 0.5

* Also remove msync

It wasn't in Libc for very long, people shouldn't be relying on it.
We can probably take it out of Compat.Libc later.
KristofferC added a commit that referenced this issue Mar 23, 2018
(cherry picked from commit 6f0ff7f1eb2d0103518ef9e91abf13723c8a497e)
cmcaine pushed a commit to cmcaine/julia that referenced this issue Sep 24, 2020
* added perfect numbers

I have'nt added it to the config file as i am unaware how to.

* updated the json file

* fixed tests and added readme

* Update runtests.jl

* Update runtests.jl

* I want to run the check again as the test  just takes time :( I can't do anything about it

* Update runtests.jl

* Update example.jl

* fixed everything

* Added generated README.md

* Made all the suggested edits.

* Update exercises/perfect-numbers/generator/generator.jl

changed formating

Co-Authored-By: Sascha Mann <[email protected]>

* Re run the runtests

* created a basic labeler

* Update labeler.yml

* moved generator

Co-authored-by: Sascha Mann <[email protected]>
Co-authored-by: Logan Kilpatrick <[email protected]>
LilithHafner pushed a commit to LilithHafner/julia that referenced this issue Oct 11, 2021
Keno pushed a commit that referenced this issue Oct 9, 2023
quinnj pushed a commit that referenced this issue Jan 26, 2024
`@something` eagerly unwraps any `Some` given to it, while keeping the
variable between its arguments the same. This can be an issue if a
previously unpacked value is used as input to `@something`, leading to a
type instability on more than two arguments (e.g. because of a fallback
to `Some(nothing)`). By using different variables for each argument,
type inference has an easier time handling these cases that are isolated
to single branches anyway.

This also adds some comments to the macro, since it's non-obvious what
it does.

Benchmarking the specific case I encountered this in led to a ~2x
performance improvement on multiple machines.

1.10-beta3/master:

```
[sukera@tower 01]$ jl1100 -q --project=. -L 01.jl -e 'bench()'
v"1.10.0-beta3"

BenchmarkTools.Trial: 10000 samples with 1 evaluation.
 Range (min … max):  38.670 μs … 70.350 μs  ┊ GC (min … max): 0.00% … 0.00%
 Time  (median):     43.340 μs              ┊ GC (median):    0.00%
 Time  (mean ± σ):   43.395 μs ±  1.518 μs  ┊ GC (mean ± σ):  0.00% ± 0.00%

                              ▆█▂ ▁▁                           
  ▂▂▂▂▂▂▂▂▂▁▂▂▂▃▃▃▂▂▃▃▃▂▂▂▂▂▄▇███▆██▄▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂ ▃
  38.7 μs         Histogram: frequency by time          48 μs <

 Memory estimate: 0 bytes, allocs estimate: 0.
```

This PR:

```
[sukera@tower 01]$ julia -q --project=. -L 01.jl -e 'bench()'
v"1.11.0-DEV.970"

BenchmarkTools.Trial: 10000 samples with 1 evaluation.
 Range (min … max):  22.820 μs …  44.980 μs  ┊ GC (min … max): 0.00% … 0.00%
 Time  (median):     24.300 μs               ┊ GC (median):    0.00%
 Time  (mean ± σ):   24.370 μs ± 832.239 ns  ┊ GC (mean ± σ):  0.00% ± 0.00%

                ▂▅▇██▇▆▅▁                                       
  ▂▂▂▂▂▂▂▂▃▃▄▅▇███████████▅▄▃▃▂▂▂▂▂▂▂▂▂▂▁▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▁▁▂▂ ▃
  22.8 μs         Histogram: frequency by time         27.7 μs <

 Memory estimate: 0 bytes, allocs estimate: 0.
``` 


<details>
<summary>Benchmarking code (spoilers for Advent Of Code 2023 Day 01,
Part 01). Running this requires the input of that Advent Of Code
day.</summary>

```julia
using BenchmarkTools
using InteractiveUtils

isdigit(d::UInt8) = UInt8('0') <= d <= UInt8('9')
someDigit(c::UInt8) = isdigit(c) ? Some(c - UInt8('0')) : nothing

function part1(data)
    total = 0
    may_a = nothing
    may_b = nothing

    for c in data
        digitRes = someDigit(c)
        may_a = @something may_a digitRes Some(nothing)
        may_b = @something digitRes may_b Some(nothing)
        if c == UInt8('\n')
            digit_a = may_a::UInt8
            digit_b = may_b::UInt8
            total += digit_a*0xa + digit_b
            may_a = nothing
            may_b = nothing
        end
    end

    return total
end

function bench()
    data = read("input.txt")
    display(VERSION)
    println()
    display(@benchmark part1($data))
    nothing
end
```
</details>

<details>
<summary>`@code_warntype` before</summary>

```julia
julia> @code_warntype part1(data)
MethodInstance for part1(::Vector{UInt8})
  from part1(data) @ Main ~/Documents/projects/AOC/2023/01/01.jl:7
Arguments
  #self#::Core.Const(part1)
  data::Vector{UInt8}
Locals
  @_3::Union{Nothing, Tuple{UInt8, Int64}}
  may_b::Union{Nothing, UInt8}
  may_a::Union{Nothing, UInt8}
  total::Int64
  c::UInt8
  digit_b::UInt8
  digit_a::UInt8
  val@_10::Any
  val@_11::Any
  digitRes::Union{Nothing, Some{UInt8}}
  @_13::Union{Some{Nothing}, Some{UInt8}, UInt8}
  @_14::Union{Some{Nothing}, Some{UInt8}}
  @_15::Some{Nothing}
  @_16::Union{Some{Nothing}, Some{UInt8}, UInt8}
  @_17::Union{Some{Nothing}, UInt8}
  @_18::Some{Nothing}
Body::Int64
1 ──       (total = 0)
│          (may_a = Main.nothing)
│          (may_b = Main.nothing)
│    %4  = data::Vector{UInt8}
│          (@_3 = Base.iterate(%4))
│    %6  = (@_3 === nothing)::Bool
│    %7  = Base.not_int(%6)::Bool
└───       goto #24 if not %7
2 ┄─       Core.NewvarNode(:(digit_b))
│          Core.NewvarNode(:(digit_a))
│          Core.NewvarNode(:(val@_10))
│    %12 = @_3::Tuple{UInt8, Int64}
│          (c = Core.getfield(%12, 1))
│    %14 = Core.getfield(%12, 2)::Int64
│          (digitRes = Main.someDigit(c))
│          (val@_11 = may_a)
│    %17 = (val@_11::Union{Nothing, UInt8} !== Base.nothing)::Bool
└───       goto #4 if not %17
3 ──       (@_13 = val@_11::UInt8)
└───       goto #11
4 ──       (val@_11 = digitRes)
│    %22 = (val@_11::Union{Nothing, Some{UInt8}} !== Base.nothing)::Bool
└───       goto #6 if not %22
5 ──       (@_14 = val@_11::Some{UInt8})
└───       goto #10
6 ──       (val@_11 = Main.Some(Main.nothing))
│    %27 = (val@_11::Core.Const(Some(nothing)) !== Base.nothing)::Core.Const(true)
└───       goto #8 if not %27
7 ──       (@_15 = val@_11::Core.Const(Some(nothing)))
└───       goto #9
8 ──       Core.Const(:(@_15 = Base.nothing))
9 ┄─       (@_14 = @_15)
10 ┄       (@_13 = @_14)
11 ┄ %34 = @_13::Union{Some{Nothing}, Some{UInt8}, UInt8}
│          (may_a = Base.something(%34))
│          (val@_10 = digitRes)
│    %37 = (val@_10::Union{Nothing, Some{UInt8}} !== Base.nothing)::Bool
└───       goto #13 if not %37
12 ─       (@_16 = val@_10::Some{UInt8})
└───       goto #20
13 ─       (val@_10 = may_b)
│    %42 = (val@_10::Union{Nothing, UInt8} !== Base.nothing)::Bool
└───       goto #15 if not %42
14 ─       (@_17 = val@_10::UInt8)
└───       goto #19
15 ─       (val@_10 = Main.Some(Main.nothing))
│    %47 = (val@_10::Core.Const(Some(nothing)) !== Base.nothing)::Core.Const(true)
└───       goto #17 if not %47
16 ─       (@_18 = val@_10::Core.Const(Some(nothing)))
└───       goto #18
17 ─       Core.Const(:(@_18 = Base.nothing))
18 ┄       (@_17 = @_18)
19 ┄       (@_16 = @_17)
20 ┄ %54 = @_16::Union{Some{Nothing}, Some{UInt8}, UInt8}
│          (may_b = Base.something(%54))
│    %56 = c::UInt8
│    %57 = Main.UInt8('\n')::Core.Const(0x0a)
│    %58 = (%56 == %57)::Bool
└───       goto #22 if not %58
21 ─       (digit_a = Core.typeassert(may_a, Main.UInt8))
│          (digit_b = Core.typeassert(may_b, Main.UInt8))
│    %62 = total::Int64
│    %63 = (digit_a * 0x0a)::UInt8
│    %64 = (%63 + digit_b)::UInt8
│          (total = %62 + %64)
│          (may_a = Main.nothing)
└───       (may_b = Main.nothing)
22 ┄       (@_3 = Base.iterate(%4, %14))
│    %69 = (@_3 === nothing)::Bool
│    %70 = Base.not_int(%69)::Bool
└───       goto #24 if not %70
23 ─       goto #2
24 ┄       return total
```
</details>

<details>
<summary>`@code_native debuginfo=:none` Before </summary>

```julia
julia> @code_native debuginfo=:none part1(data)
	.text
	.file	"part1"
	.globl	julia_part1_418                 # -- Begin function julia_part1_418
	.p2align	4, 0x90
	.type	julia_part1_418,@function
julia_part1_418:                        # @julia_part1_418
# %bb.0:                                # %top
	push	rbp
	mov	rbp, rsp
	push	r15
	push	r14
	push	r13
	push	r12
	push	rbx
	sub	rsp, 40
	mov	rax, qword ptr [rdi + 8]
	test	rax, rax
	je	.LBB0_1
# %bb.2:                                # %L17
	mov	rcx, qword ptr [rdi]
	dec	rax
	mov	r10b, 1
	xor	r14d, r14d
                                        # implicit-def: $r12b
                                        # implicit-def: $r13b
                                        # implicit-def: $r9b
                                        # implicit-def: $sil
	mov	qword ptr [rbp - 64], rax       # 8-byte Spill
	mov	al, 1
	mov	dword ptr [rbp - 48], eax       # 4-byte Spill
                                        # implicit-def: $al
                                        # kill: killed $al
	xor	eax, eax
	mov	qword ptr [rbp - 56], rax       # 8-byte Spill
	mov	qword ptr [rbp - 72], rcx       # 8-byte Spill
                                        # implicit-def: $cl
	jmp	.LBB0_3
	.p2align	4, 0x90
.LBB0_8:                                #   in Loop: Header=BB0_3 Depth=1
	mov	dword ptr [rbp - 48], 0         # 4-byte Folded Spill
.LBB0_24:                               # %post_union_move
                                        #   in Loop: Header=BB0_3 Depth=1
	movzx	r13d, byte ptr [rbp - 41]       # 1-byte Folded Reload
	mov	r12d, r8d
	cmp	qword ptr [rbp - 64], r14       # 8-byte Folded Reload
	je	.LBB0_13
.LBB0_25:                               # %guard_exit113
                                        #   in Loop: Header=BB0_3 Depth=1
	inc	r14
	mov	r10d, ebx
.LBB0_3:                                # %L19
                                        # =>This Inner Loop Header: Depth=1
	mov	rax, qword ptr [rbp - 72]       # 8-byte Reload
	xor	ebx, ebx
	xor	edi, edi
	movzx	r15d, r9b
	movzx	ecx, cl
	movzx	esi, sil
	mov	r11b, 1
                                        # implicit-def: $r9b
	movzx	edx, byte ptr [rax + r14]
	lea	eax, [rdx - 58]
	lea	r8d, [rdx - 48]
	cmp	al, -10
	setae	bl
	setb	dil
	test	r10b, 1
	cmovne	r15d, edi
	mov	edi, 0
	cmovne	ecx, ebx
	mov	bl, 1
	cmovne	esi, edi
	test	r15b, 1
	jne	.LBB0_7
# %bb.4:                                # %L76
                                        #   in Loop: Header=BB0_3 Depth=1
	mov	r11b, 2
	test	cl, 1
	jne	.LBB0_5
# %bb.6:                                # %L78
                                        #   in Loop: Header=BB0_3 Depth=1
	mov	ebx, r10d
	mov	r9d, r15d
	mov	byte ptr [rbp - 41], r13b       # 1-byte Spill
	test	sil, 1
	je	.LBB0_26
.LBB0_7:                                # %L82
                                        #   in Loop: Header=BB0_3 Depth=1
	cmp	al, -11
	jbe	.LBB0_9
	jmp	.LBB0_8
	.p2align	4, 0x90
.LBB0_5:                                #   in Loop: Header=BB0_3 Depth=1
	mov	ecx, r8d
	mov	sil, 1
	xor	ebx, ebx
	mov	byte ptr [rbp - 41], r8b        # 1-byte Spill
	xor	r9d, r9d
	xor	ecx, ecx
	cmp	al, -11
	ja	.LBB0_8
.LBB0_9:                                # %L90
                                        #   in Loop: Header=BB0_3 Depth=1
	test	byte ptr [rbp - 48], 1          # 1-byte Folded Reload
	jne	.LBB0_23
# %bb.10:                               # %L115
                                        #   in Loop: Header=BB0_3 Depth=1
	cmp	dl, 10
	jne	.LBB0_11
# %bb.14:                               # %L122
                                        #   in Loop: Header=BB0_3 Depth=1
	test	r15b, 1
	jne	.LBB0_15
# %bb.12:                               # %L130.thread
                                        #   in Loop: Header=BB0_3 Depth=1
	movzx	eax, byte ptr [rbp - 41]        # 1-byte Folded Reload
	mov	bl, 1
	add	eax, eax
	lea	eax, [rax + 4*rax]
	add	al, r12b
	movzx	eax, al
	add	qword ptr [rbp - 56], rax       # 8-byte Folded Spill
	mov	al, 1
	mov	dword ptr [rbp - 48], eax       # 4-byte Spill
	cmp	qword ptr [rbp - 64], r14       # 8-byte Folded Reload
	jne	.LBB0_25
	jmp	.LBB0_13
	.p2align	4, 0x90
.LBB0_23:                               # %L115.thread
                                        #   in Loop: Header=BB0_3 Depth=1
	mov	al, 1
                                        # implicit-def: $r8b
	mov	dword ptr [rbp - 48], eax       # 4-byte Spill
	cmp	dl, 10
	jne	.LBB0_24
	jmp	.LBB0_21
.LBB0_11:                               #   in Loop: Header=BB0_3 Depth=1
	mov	r8d, r12d
	jmp	.LBB0_24
.LBB0_1:
	xor	eax, eax
	mov	qword ptr [rbp - 56], rax       # 8-byte Spill
.LBB0_13:                               # %L159
	mov	rax, qword ptr [rbp - 56]       # 8-byte Reload
	add	rsp, 40
	pop	rbx
	pop	r12
	pop	r13
	pop	r14
	pop	r15
	pop	rbp
	ret
.LBB0_21:                               # %L122.thread
	test	r15b, 1
	jne	.LBB0_15
# %bb.22:                               # %post_box_union58
	movabs	rdi, offset .L_j_str1
	movabs	rax, offset ijl_type_error
	movabs	rsi, 140008511215408
	movabs	rdx, 140008667209736
	call	rax
.LBB0_15:                               # %fail
	cmp	r11b, 1
	je	.LBB0_19
# %bb.16:                               # %fail
	movzx	eax, r11b
	cmp	eax, 2
	jne	.LBB0_17
# %bb.20:                               # %box_union54
	movzx	eax, byte ptr [rbp - 41]        # 1-byte Folded Reload
	movabs	rcx, offset jl_boxed_uint8_cache
	mov	rdx, qword ptr [rcx + 8*rax]
	jmp	.LBB0_18
.LBB0_26:                               # %L80
	movabs	rax, offset ijl_throw
	movabs	rdi, 140008495049392
	call	rax
.LBB0_19:                               # %box_union
	movabs	rdx, 140008667209736
	jmp	.LBB0_18
.LBB0_17:
	xor	edx, edx
.LBB0_18:                               # %post_box_union
	movabs	rdi, offset .L_j_str1
	movabs	rax, offset ijl_type_error
	movabs	rsi, 140008511215408
	call	rax
.Lfunc_end0:
	.size	julia_part1_418, .Lfunc_end0-julia_part1_418
                                        # -- End function
	.type	.L_j_str1,@object               # @_j_str1
	.section	.rodata.str1.1,"aMS",@progbits,1
.L_j_str1:
	.asciz	"typeassert"
	.size	.L_j_str1, 11

	.section	".note.GNU-stack","",@progbits
```
</details>

<details>
<summary>`@code_warntype` After</summary>

```julia

[sukera@tower 01]$ julia -q --project=. -L 01.jl
julia> data = read("input.txt");

julia> @code_warntype part1(data)
MethodInstance for part1(::Vector{UInt8})
  from part1(data) @ Main ~/Documents/projects/AOC/2023/01/01.jl:7
Arguments
  #self#::Core.Const(part1)
  data::Vector{UInt8}
Locals
  @_3::Union{Nothing, Tuple{UInt8, Int64}}
  may_b::Union{Nothing, UInt8}
  may_a::Union{Nothing, UInt8}
  total::Int64
  val@_7::Union{}
  val@_8::Union{}
  c::UInt8
  digit_b::UInt8
  digit_a::UInt8
  ##215::Some{Nothing}
  ##216::Union{Nothing, UInt8}
  ##217::Union{Nothing, Some{UInt8}}
  ##212::Some{Nothing}
  ##213::Union{Nothing, Some{UInt8}}
  ##214::Union{Nothing, UInt8}
  digitRes::Union{Nothing, Some{UInt8}}
  @_19::Union{Nothing, UInt8}
  @_20::Union{Nothing, UInt8}
  @_21::Nothing
  @_22::Union{Nothing, UInt8}
  @_23::Union{Nothing, UInt8}
  @_24::Nothing
Body::Int64
1 ──        (total = 0)
│           (may_a = Main.nothing)
│           (may_b = Main.nothing)
│    %4   = data::Vector{UInt8}
│           (@_3 = Base.iterate(%4))
│    %6   = @_3::Union{Nothing, Tuple{UInt8, Int64}}
│    %7   = (%6 === nothing)::Bool
│    %8   = Base.not_int(%7)::Bool
└───        goto #24 if not %8
2 ┄─        Core.NewvarNode(:(val@_7))
│           Core.NewvarNode(:(val@_8))
│           Core.NewvarNode(:(digit_b))
│           Core.NewvarNode(:(digit_a))
│           Core.NewvarNode(:(##215))
│           Core.NewvarNode(:(##216))
│           Core.NewvarNode(:(##217))
│           Core.NewvarNode(:(##212))
│           Core.NewvarNode(:(##213))
│    %19  = @_3::Tuple{UInt8, Int64}
│           (c = Core.getfield(%19, 1))
│    %21  = Core.getfield(%19, 2)::Int64
│    %22  = c::UInt8
│           (digitRes = Main.someDigit(%22))
│    %24  = may_a::Union{Nothing, UInt8}
│           (##214 = %24)
│    %26  = Base.:!::Core.Const(!)
│    %27  = ##214::Union{Nothing, UInt8}
│    %28  = Base.isnothing(%27)::Bool
│    %29  = (%26)(%28)::Bool
└───        goto #4 if not %29
3 ── %31  = ##214::UInt8
│           (@_19 = Base.something(%31))
└───        goto #11
4 ── %34  = digitRes::Union{Nothing, Some{UInt8}}
│           (##213 = %34)
│    %36  = Base.:!::Core.Const(!)
│    %37  = ##213::Union{Nothing, Some{UInt8}}
│    %38  = Base.isnothing(%37)::Bool
│    %39  = (%36)(%38)::Bool
└───        goto #6 if not %39
5 ── %41  = ##213::Some{UInt8}
│           (@_20 = Base.something(%41))
└───        goto #10
6 ── %44  = Main.Some::Core.Const(Some)
│    %45  = Main.nothing::Core.Const(nothing)
│           (##212 = (%44)(%45))
│    %47  = Base.:!::Core.Const(!)
│    %48  = ##212::Core.Const(Some(nothing))
│    %49  = Base.isnothing(%48)::Core.Const(false)
│    %50  = (%47)(%49)::Core.Const(true)
└───        goto #8 if not %50
7 ── %52  = ##212::Core.Const(Some(nothing))
│           (@_21 = Base.something(%52))
└───        goto #9
8 ──        Core.Const(nothing)
│           Core.Const(:(val@_8 = Base.something(Base.nothing)))
│           Core.Const(nothing)
│           Core.Const(:(val@_8))
└───        Core.Const(:(@_21 = %58))
9 ┄─ %60  = @_21::Core.Const(nothing)
└───        (@_20 = %60)
10 ┄ %62  = @_20::Union{Nothing, UInt8}
└───        (@_19 = %62)
11 ┄ %64  = @_19::Union{Nothing, UInt8}
│           (may_a = %64)
│    %66  = digitRes::Union{Nothing, Some{UInt8}}
│           (##217 = %66)
│    %68  = Base.:!::Core.Const(!)
│    %69  = ##217::Union{Nothing, Some{UInt8}}
│    %70  = Base.isnothing(%69)::Bool
│    %71  = (%68)(%70)::Bool
└───        goto #13 if not %71
12 ─ %73  = ##217::Some{UInt8}
│           (@_22 = Base.something(%73))
└───        goto #20
13 ─ %76  = may_b::Union{Nothing, UInt8}
│           (##216 = %76)
│    %78  = Base.:!::Core.Const(!)
│    %79  = ##216::Union{Nothing, UInt8}
│    %80  = Base.isnothing(%79)::Bool
│    %81  = (%78)(%80)::Bool
└───        goto #15 if not %81
14 ─ %83  = ##216::UInt8
│           (@_23 = Base.something(%83))
└───        goto #19
15 ─ %86  = Main.Some::Core.Const(Some)
│    %87  = Main.nothing::Core.Const(nothing)
│           (##215 = (%86)(%87))
│    %89  = Base.:!::Core.Const(!)
│    %90  = ##215::Core.Const(Some(nothing))
│    %91  = Base.isnothing(%90)::Core.Const(false)
│    %92  = (%89)(%91)::Core.Const(true)
└───        goto #17 if not %92
16 ─ %94  = ##215::Core.Const(Some(nothing))
│           (@_24 = Base.something(%94))
└───        goto #18
17 ─        Core.Const(nothing)
│           Core.Const(:(val@_7 = Base.something(Base.nothing)))
│           Core.Const(nothing)
│           Core.Const(:(val@_7))
└───        Core.Const(:(@_24 = %100))
18 ┄ %102 = @_24::Core.Const(nothing)
└───        (@_23 = %102)
19 ┄ %104 = @_23::Union{Nothing, UInt8}
└───        (@_22 = %104)
20 ┄ %106 = @_22::Union{Nothing, UInt8}
│           (may_b = %106)
│    %108 = Main.:(==)::Core.Const(==)
│    %109 = c::UInt8
│    %110 = Main.UInt8('\n')::Core.Const(0x0a)
│    %111 = (%108)(%109, %110)::Bool
└───        goto #22 if not %111
21 ─ %113 = may_a::Union{Nothing, UInt8}
│           (digit_a = Core.typeassert(%113, Main.UInt8))
│    %115 = may_b::Union{Nothing, UInt8}
│           (digit_b = Core.typeassert(%115, Main.UInt8))
│    %117 = Main.:+::Core.Const(+)
│    %118 = total::Int64
│    %119 = Main.:+::Core.Const(+)
│    %120 = Main.:*::Core.Const(*)
│    %121 = digit_a::UInt8
│    %122 = (%120)(%121, 0x0a)::UInt8
│    %123 = digit_b::UInt8
│    %124 = (%119)(%122, %123)::UInt8
│           (total = (%117)(%118, %124))
│           (may_a = Main.nothing)
└───        (may_b = Main.nothing)
22 ┄        (@_3 = Base.iterate(%4, %21))
│    %129 = @_3::Union{Nothing, Tuple{UInt8, Int64}}
│    %130 = (%129 === nothing)::Bool
│    %131 = Base.not_int(%130)::Bool
└───        goto #24 if not %131
23 ─        goto #2
24 ┄ %134 = total::Int64
└───        return %134
```
</details>


<details>
<summary>`@code_native debuginfo=:none` After </summary>

```julia

julia> @code_native debuginfo=:none part1(data)
	.text
	.file	"part1"
	.globl	julia_part1_1203                # -- Begin function julia_part1_1203
	.p2align	4, 0x90
	.type	julia_part1_1203,@function
julia_part1_1203:                       # @julia_part1_1203
; Function Signature: part1(Array{UInt8, 1})
# %bb.0:                                # %top
	#DEBUG_VALUE: part1:data <- [DW_OP_deref] $rdi
	push	rbp
	mov	rbp, rsp
	push	r15
	push	r14
	push	r13
	push	r12
	push	rbx
	sub	rsp, 40
	vxorps	xmm0, xmm0, xmm0
	#APP
	mov	rax, qword ptr fs:[0]
	#NO_APP
	lea	rdx, [rbp - 64]
	vmovaps	xmmword ptr [rbp - 64], xmm0
	mov	qword ptr [rbp - 48], 0
	mov	rcx, qword ptr [rax - 8]
	mov	qword ptr [rbp - 64], 4
	mov	rax, qword ptr [rcx]
	mov	qword ptr [rbp - 72], rcx       # 8-byte Spill
	mov	qword ptr [rbp - 56], rax
	mov	qword ptr [rcx], rdx
	#DEBUG_VALUE: part1:data <- [DW_OP_deref] 0
	mov	r15, qword ptr [rdi + 16]
	test	r15, r15
	je	.LBB0_1
# %bb.2:                                # %L34
	mov	r14, qword ptr [rdi]
	dec	r15
	mov	r11b, 1
	mov	r13b, 1
                                        # implicit-def: $r12b
                                        # implicit-def: $r10b
	xor	eax, eax
	jmp	.LBB0_3
	.p2align	4, 0x90
.LBB0_4:                                #   in Loop: Header=BB0_3 Depth=1
	xor	r11d, r11d
	mov	ebx, edi
	mov	r10d, r8d
.LBB0_9:                                # %L114
                                        #   in Loop: Header=BB0_3 Depth=1
	mov	r12d, esi
	test	r15, r15
	je	.LBB0_12
.LBB0_10:                               # %guard_exit126
                                        #   in Loop: Header=BB0_3 Depth=1
	inc	r14
	dec	r15
	mov	r13d, ebx
.LBB0_3:                                # %L36
                                        # =>This Inner Loop Header: Depth=1
	movzx	edx, byte ptr [r14]
	test	r13b, 1
	movzx	edi, r13b
	mov	ebx, 1
	mov	ecx, 0
	cmove	ebx, edi
	cmovne	edi, ecx
	movzx	ecx, r10b
	lea	esi, [rdx - 48]
	lea	r9d, [rdx - 58]
	movzx	r8d, sil
	cmove	r8d, ecx
	cmp	r9b, -11
	ja	.LBB0_4
# %bb.5:                                # %L89
                                        #   in Loop: Header=BB0_3 Depth=1
	test	r11b, 1
	jne	.LBB0_8
# %bb.6:                                # %L102
                                        #   in Loop: Header=BB0_3 Depth=1
	cmp	dl, 10
	jne	.LBB0_7
# %bb.13:                               # %L106
                                        #   in Loop: Header=BB0_3 Depth=1
	test	r13b, 1
	jne	.LBB0_14
# %bb.11:                               # %L114.thread
                                        #   in Loop: Header=BB0_3 Depth=1
	add	ecx, ecx
	mov	bl, 1
	mov	r11b, 1
	lea	ecx, [rcx + 4*rcx]
	add	cl, r12b
	movzx	ecx, cl
	add	rax, rcx
	test	r15, r15
	jne	.LBB0_10
	jmp	.LBB0_12
	.p2align	4, 0x90
.LBB0_8:                                # %L102.thread
                                        #   in Loop: Header=BB0_3 Depth=1
	mov	r11b, 1
                                        # implicit-def: $sil
	cmp	dl, 10
	jne	.LBB0_9
	jmp	.LBB0_15
.LBB0_7:                                #   in Loop: Header=BB0_3 Depth=1
	mov	esi, r12d
	jmp	.LBB0_9
.LBB0_1:
	xor	eax, eax
.LBB0_12:                               # %L154
	mov	rcx, qword ptr [rbp - 56]
	mov	rdx, qword ptr [rbp - 72]       # 8-byte Reload
	mov	qword ptr [rdx], rcx
	add	rsp, 40
	pop	rbx
	pop	r12
	pop	r13
	pop	r14
	pop	r15
	pop	rbp
	ret
.LBB0_15:                               # %L106.thread
	test	r13b, 1
	jne	.LBB0_14
# %bb.16:                               # %post_box_union47
	movabs	rax, offset jl_nothing
	movabs	rcx, offset jl_small_typeof
	movabs	rdi, offset ".L_j_str_typeassert#1"
	mov	rdx, qword ptr [rax]
	mov	rsi, qword ptr [rcx + 336]
	movabs	rax, offset ijl_type_error
	mov	qword ptr [rbp - 48], rsi
	call	rax
.LBB0_14:                               # %post_box_union
	movabs	rax, offset jl_nothing
	movabs	rcx, offset jl_small_typeof
	movabs	rdi, offset ".L_j_str_typeassert#1"
	mov	rdx, qword ptr [rax]
	mov	rsi, qword ptr [rcx + 336]
	movabs	rax, offset ijl_type_error
	mov	qword ptr [rbp - 48], rsi
	call	rax
.Lfunc_end0:
	.size	julia_part1_1203, .Lfunc_end0-julia_part1_1203
                                        # -- End function
	.type	".L_j_str_typeassert#1",@object # @"_j_str_typeassert#1"
	.section	.rodata.str1.1,"aMS",@progbits,1
".L_j_str_typeassert#1":
	.asciz	"typeassert"
	.size	".L_j_str_typeassert#1", 11

	.section	".note.GNU-stack","",@progbits
```
</details>

Co-authored-by: Sukera <[email protected]>
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