import os import sys from pathlib import Path from setuptools import setup, Extension, find_packages import subprocess import math import platform os.environ["CC"] = "g++" os.environ["CXX"] = "g++" common_setup_kwargs = { "version": "0.5.0.dev0", "name": "auto_gptq", "author": "PanQiWei", "description": "An easy-to-use LLMs quantization package with user-friendly apis, based on GPTQ algorithm.", "long_description": (Path(__file__).parent / "README.md").read_text(encoding="UTF-8"), "long_description_content_type": "text/markdown", "url": "https://github.com/PanQiWei/AutoGPTQ", "keywords": ["gptq", "quantization", "large-language-models", "transformers"], "platforms": ["windows", "linux"], "classifiers": [ "Environment :: GPU :: NVIDIA CUDA :: 11.7", "Environment :: GPU :: NVIDIA CUDA :: 11.8", "Environment :: GPU :: NVIDIA CUDA :: 12", "License :: OSI Approved :: MIT License", "Natural Language :: Chinese (Simplified)", "Natural Language :: English", "Programming Language :: Python :: 3.8", "Programming Language :: Python :: 3.9", "Programming Language :: Python :: 3.10", "Programming Language :: Python :: 3.11", "Programming Language :: C++", ] } PYPI_RELEASE = os.environ.get('PYPI_RELEASE', None) BUILD_CUDA_EXT = int(os.environ.get('BUILD_CUDA_EXT', '1')) == 1 if BUILD_CUDA_EXT: try: import torch except: print("Building cuda extension requires PyTorch(>=1.13.0) been installed, please install PyTorch first!") sys.exit(-1) CUDA_VERSION = None ROCM_VERSION = os.environ.get('ROCM_VERSION', None) if ROCM_VERSION and not torch.version.hip: print( f"Trying to compile auto-gptq for RoCm, but PyTorch {torch.__version__} " "is installed without RoCm support." ) sys.exit(-1) if not ROCM_VERSION: default_cuda_version = torch.version.cuda CUDA_VERSION = "".join(os.environ.get("CUDA_VERSION", default_cuda_version).split(".")) if ROCM_VERSION: common_setup_kwargs['version'] += f"+rocm{ROCM_VERSION}" else: if not CUDA_VERSION: print( f"Trying to compile auto-gptq for CUDA, byt Pytorch {torch.__version__} " "is installed without CUDA support." ) sys.exit(-1) # For the PyPI release, the version is simply x.x.x to comply with PEP 440. if not PYPI_RELEASE: common_setup_kwargs['version'] += f"+cu{CUDA_VERSION}" requirements = [ "accelerate>=0.19.0", "datasets", "sentencepiece", "numpy", "rouge", "gekko", "torch>=1.13.0", "safetensors", "transformers>=4.31.0", "peft", "tqdm", ] extras_require = { "triton": ["triton==2.0.0"], "test": ["parameterized"] } include_dirs = ["autogptq_cuda"] additional_setup_kwargs = dict() if BUILD_CUDA_EXT: from torch.utils import cpp_extension if platform.system() != 'Windows': p = int(subprocess.run("cat /proc/cpuinfo | grep cores | head -1", shell=True, check=True, text=True, stdout=subprocess.PIPE).stdout.split(" ")[2]) subprocess.call(["python", "./autogptq_extension/qigen/generate.py", "--module", "--search", "--p", str(p)]) if not ROCM_VERSION: from distutils.sysconfig import get_python_lib conda_cuda_include_dir = os.path.join(get_python_lib(), "nvidia/cuda_runtime/include") print("conda_cuda_include_dir", conda_cuda_include_dir) if os.path.isdir(conda_cuda_include_dir): include_dirs.append(conda_cuda_include_dir) print(f"appending conda cuda include dir {conda_cuda_include_dir}") extensions = [ cpp_extension.CUDAExtension( "autogptq_cuda_64", [ "autogptq_extension/cuda_64/autogptq_cuda_64.cpp", "autogptq_extension/cuda_64/autogptq_cuda_kernel_64.cu" ] ), cpp_extension.CUDAExtension( "autogptq_cuda_256", [ "autogptq_extension/cuda_256/autogptq_cuda_256.cpp", "autogptq_extension/cuda_256/autogptq_cuda_kernel_256.cu" ] ) ] if platform.system() != 'Windows': extensions.append( cpp_extension.CppExtension( "cQIGen", [ 'autogptq_extension/qigen/backend.cpp' ], extra_compile_args = ["-O3", "-mavx", "-mavx2", "-mfma", "-march=native", "-ffast-math", "-ftree-vectorize", "-faligned-new", "-std=c++17", "-fopenmp", "-fno-signaling-nans", "-fno-trapping-math"] ) ) if os.name == "nt": # On Windows, fix an error LNK2001: unresolved external symbol cublasHgemm bug in the compilation cuda_path = os.environ.get("CUDA_PATH", None) if cuda_path is None: raise ValueError("The environment variable CUDA_PATH must be set to the path to the CUDA install when installing from source on Windows systems.") extra_link_args = ["-L", f"{cuda_path}/lib/x64/cublas.lib"] else: extra_link_args = [] extensions.append( cpp_extension.CUDAExtension( "exllama_kernels", [ "autogptq_extension/exllama/exllama_ext.cpp", "autogptq_extension/exllama/cuda_buffers.cu", "autogptq_extension/exllama/cuda_func/column_remap.cu", "autogptq_extension/exllama/cuda_func/q4_matmul.cu", "autogptq_extension/exllama/cuda_func/q4_matrix.cu" ], extra_link_args=extra_link_args ) ) extensions.append( cpp_extension.CUDAExtension( "exllamav2_kernels", [ "autogptq_extension/exllamav2/ext.cpp", "autogptq_extension/exllamav2/cuda/q_matrix.cu", "autogptq_extension/exllamav2/cuda/q_gemm.cu", ], extra_link_args=extra_link_args ) ) additional_setup_kwargs = { "ext_modules": extensions, "cmdclass": {'build_ext': cpp_extension.BuildExtension} } common_setup_kwargs.update(additional_setup_kwargs) setup( packages=find_packages(), install_requires=requirements, extras_require=extras_require, include_dirs=include_dirs, python_requires=">=3.8.0", **common_setup_kwargs )