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[DOCS] update the documents of int range. (apache#17)
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* Update dependabot.yml

* remove dependency.

* UPDATE INT8xINT2

* refactor the docs' link

* update int range
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LeiWang1999 authored Apr 16, 2024
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12 changes: 6 additions & 6 deletions README.md
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Expand Up @@ -9,7 +9,7 @@ Some of the key features of BitBLAS include:
- $W_{wdtype}A_{adtype}$ mixed-precision matrix multiplication including FP16xINT4/2/1, INT8xINT4/2/1, etc. Please checkout [support matrix](#support-matrix) for detailed data types support.
- Matrix multiplication like FP16xFP16 and INT8xINT8.
- Auto-Tensorization for TensorCore-like hardware instructions.
- Implemented [integration](./integration/) to [PyTorch](https://pytorch.org/), [AutoGPTQ](https://github.com/AutoGPTQ/AutoGPTQ) and [vLLM](https://github.com/vllm-project/vllm) for LLM deployment. Please checkout [benchmark summary](#benchmark-summary) for detailed end2end LLM inference performance.
- Implemented [integration](/integration/) to [PyTorch](https://pytorch.org/), [AutoGPTQ](https://github.com/AutoGPTQ/AutoGPTQ) and [vLLM](https://github.com/vllm-project/vllm) for LLM deployment. Please checkout [benchmark summary](#benchmark-summary) for detailed end2end LLM inference performance.
- BitBLAS first implemented $W_{INT2}A_{INT8}$ GEMV/GEMM in [BitNet-b1.58](https://arxiv.org/abs/2402.17764) with 8x/2x speedup over cuBLAS $W_{FP16}A_{FP16}$ on A100, please checkout [op_benchmark_a100_int2_scaling](images/figures/op_benchmark_a100_int2_scaling.png) for detailed benchmark results.
- Support customizing mixed-precision DNN operations for your specific scenarios via the flexible DSL (TIR Script).

Expand Down Expand Up @@ -68,16 +68,16 @@ We are continuously expanding the support matrix. If you have any specific requi

## Getting Started

- [Installation](./docs/Installation.md):
To install BitBLAS, please checkout the document [installation](./docs/Installation.md). Also Make sure you already have the cuda toolkit (version >= 11) installed in the system. Or you can easily install from `pip install bitblas` in the root directory.
- [Installation](/docs/Installation.md):
To install BitBLAS, please checkout the document [installation](/docs/Installation.md). Also Make sure you already have the cuda toolkit (version >= 11) installed in the system. Or you can easily install from `pip install bitblas` in the root directory.

- [QuickStart](./docs/QuickStart.md): BitBLAS provides two Python APIs to perform mixed-precision matrix multiplication:
- [QuickStart](/docs/QuickStart.md): BitBLAS provides two Python APIs to perform mixed-precision matrix multiplication:
- ```bitblas.Matmul``` implements the $W_{wdtype}A_{adtype}$ mixed-precision matrix multiplication of $C_{cdtype}[M, N] = A_{adtype}[M, K] \times W_{wdtype}[N, K]$.
- ```bitblas.Linear``` is a PyTorch ```nn.Linear```-like module to support a Linear of mixed-precision.

- [Integration](./integration/): Explore how BitBLAS seamlessly integrates with LLM deployment frameworks through our examples. Discover the ease of integrating BitBLAS with PyTorch, AutoGPTQ, and vLLM in the 3rd-party integration examples.
- [Integration](/integration/): Explore how BitBLAS seamlessly integrates with LLM deployment frameworks through our examples. Discover the ease of integrating BitBLAS with PyTorch, AutoGPTQ, and vLLM in the 3rd-party integration examples.

- [Customization](./docs/ExtendOperatorsWithDSL.md): BitBLAS supports implementing customized mixed-precision DNN operations rather than matrix multiplication with the flexible DSL (TIR Script).
- [Customization](/docs/ExtendOperatorsWithDSL.md): BitBLAS supports implementing customized mixed-precision DNN operations rather than matrix multiplication with the flexible DSL (TIR Script).

## Contributing

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8 changes: 6 additions & 2 deletions benchmark/README.md
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Expand Up @@ -80,9 +80,13 @@ The benchmark configurations for each test scenario are detailed below:

## Benchmark Images

INT8xINT1 Matmul BS Scaling on A100.
BitNET 1.58B INT8xINT2 Matmul BS Scaling on A100.

![int8xint1_scaling](../images/figures/op_benchmark_a100_int1_scaling.png)
![int8xiint2_scaling](../images/figures/op_benchmark_a100_int2_scaling.png)

INT8xUINT1 Matmul BS Scaling on A100.

![int8xiint1_scaling](../images/figures/op_benchmark_a100_uint1_scaling.png)

3090 Related benchmark numbers

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16 changes: 11 additions & 5 deletions docs/PythonAPI.md
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Expand Up @@ -16,17 +16,19 @@
- **K** *(int)*: The common dimension of matrices A and W.
- **A_dtype** *(str, default='float16')*: The data type of matrix A.
- Choices: `'float16'`, `'int8'`.
- **W_dtype** *(str, default='float16')*: The data type of matrix W. Also acts as a wrapper for source_format and bit.
- Choices: `'float16'`, `'int8'`, `'int4'`, `'int2'`, `'int1'`, `'fp4_e2m1'`, `'nf4'`.
- **W_dtype** *(str, optional)*: Data type of the weights. Default: `'float16'`.
- Choices: `'float16'`, `'int8'`, `'int4'`, `'int2'`, `'int1'`, `'uint4'`,`'uint2'`, `'uint1'`, `'fp4_e2m1'`, `'nf4'`.
- The Range of the INT Format:
- `'int4'`: [-8, 7]
- `'int2'`: [-2, 1]
- `'int1'`: [-1, 1]
- **accum_dtype** *(str, default='float16')*: The data type used for accumulation during the matrix multiplication.
- Choices: `'float16'`, `'int32'`.
- **out_dtype** *(str, default='float16')*: The data type of the output matrix.
- Choices: `'float32'`, `'float16'`, `'int8'`, `'int32'`.
- **layout** *(Literal['nn', 'nt', 'tn', 'tt'], default='nt')*: The layout of the matrix multiplication operation. The matrix is stored in row-major.
- `'nn'`: Both matrices are non-transposed.
- `'nt'`: Matrix A is non-transposed, and matrix W is transposed.
- `'tn'`: Matrix A is transposed, and matrix W is non-transposed.
- `'tt'`: Both matrices are transposed.
- **with_bias** *(bool, default=False)*: Indicates whether a bias vector is added to the output.
- **group_size** *(int, default=-1)*: The group size for quantization, -1 indicates no grouping.
- **with_scaling** *(bool, default=False)*: Indicates whether scaling is applied during quantization.
Expand Down Expand Up @@ -90,7 +92,11 @@ Applies a linear transformation to the incoming data: $out[M, N] = A[M, K] \time
- **A_dtype** *(str, optional)*: Data type of the input tensor. Default: `'float16'`.
- Choices: `'float16'`, `'int8'`.
- **W_dtype** *(str, optional)*: Data type of the weights. Default: `'float16'`.
- Choices: `'float16'`, `'int8'`, `'int4'`, `'int2'`, `'int1'`, `'fp4_e2m1'`, `'af4'`.
- Choices: `'float16'`, `'int8'`, `'int4'`, `'int2'`, `'int1'`, `'uint4'`,`'uint2'`, `'uint1'`, `'fp4_e2m1'`, `'nf4'`.
- The Range of the INT Format:
- `'int4'`: [-8, 7]
- `'int2'`: [-2, 1]
- `'int1'`: [-1, 1]
- **accum_dtype** *(str, optional)*: Data type for accumulation. Default: `'float16'`.
- Choices: `'float16'`, `'int32'`.
- **out_dtype** *(str, optional)*: Data type of the output tensor. Default: `'float16'`.
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4 changes: 2 additions & 2 deletions python/bitblas/gpu/intrin/lop3.py
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Expand Up @@ -633,14 +633,14 @@
static constexpr uint immLut = (0xf0 & 0xcc) | 0xaa; // 0b11101010
static constexpr uint BOTTOM_MASK = 0x03030303; // 0xf -> 0b11 select 0,3
static constexpr uint I8s_MAGIC_NUM = 0x00000000; // 1024
static constexpr uint MEDIAN_NUM = 0x01010101;
static constexpr uint MEDIAN_NUM = 0x02020202;
#pragma unroll
for (int i = 0; i < (N / 4); i++)
{
asm volatile("lop3.b32 %0, %1, %2, %3, %4;\\n"
: "=r"(i8s[i])
: "r"(i2b >> (2 * i)), "n"(BOTTOM_MASK), "n"(I8s_MAGIC_NUM), "n"(immLut));
i8s[i] = __vsubss4(i8s[i], MEDIAN_NUM);
i8s[i] = __vsub4(i8s[i], MEDIAN_NUM);
}
}
template <typename T1, typename T2>
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