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setup.py
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setup.py
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import contextlib
import io
import os
import re
import subprocess
import warnings
from pathlib import Path
from typing import List, Set
from packaging.version import parse, Version
import setuptools
import torch
import torch.utils.cpp_extension as torch_cpp_ext
from torch.utils.cpp_extension import BuildExtension, CUDAExtension, CUDA_HOME, ROCM_HOME
ROOT_DIR = os.path.dirname(__file__)
# If you are developing the C++ backend of vLLM, consider building vLLM with
# `python setup.py develop` since it will give you incremental builds.
# The downside is that this method is deprecated, see
# https://github.com/pypa/setuptools/issues/917
MAIN_CUDA_VERSION = "12.1"
# Supported NVIDIA GPU architectures.
NVIDIA_SUPPORTED_ARCHS = {"7.0", "7.5", "8.0", "8.6", "8.9", "9.0"}
ROCM_SUPPORTED_ARCHS = {"gfx90a", "gfx942", "gfx1100"}
# SUPPORTED_ARCHS = NVIDIA_SUPPORTED_ARCHS.union(ROCM_SUPPORTED_ARCHS)
def _is_hip() -> bool:
return torch.version.hip is not None
def _is_neuron() -> bool:
torch_neuronx_installed = True
try:
subprocess.run(["neuron-ls"], capture_output=True, check=True)
except FileNotFoundError:
torch_neuronx_installed = False
return torch_neuronx_installed
def _is_cuda() -> bool:
return (torch.version.cuda is not None) and not _is_neuron()
# Compiler flags.
CXX_FLAGS = ["-g", "-O2", "-std=c++17", "-I/home/zsx/spdk/build/include"]
# TODO(woosuk): Should we use -O3?
NVCC_FLAGS = ["-O2", "-std=c++17"]
if _is_hip():
if ROCM_HOME is None:
raise RuntimeError(
"Cannot find ROCM_HOME. ROCm must be available to build the package."
)
NVCC_FLAGS += ["-DUSE_ROCM"]
NVCC_FLAGS += ["-U__HIP_NO_HALF_CONVERSIONS__"]
NVCC_FLAGS += ["-U__HIP_NO_HALF_OPERATORS__"]
if _is_cuda() and CUDA_HOME is None:
raise RuntimeError(
"Cannot find CUDA_HOME. CUDA must be available to build the package.")
ABI = 1 if torch._C._GLIBCXX_USE_CXX11_ABI else 0
CXX_FLAGS += [f"-D_GLIBCXX_USE_CXX11_ABI={ABI}"]
NVCC_FLAGS += [f"-D_GLIBCXX_USE_CXX11_ABI={ABI}"]
def get_hipcc_rocm_version():
# Run the hipcc --version command
result = subprocess.run(['hipcc', '--version'],
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
text=True)
# Check if the command was executed successfully
if result.returncode != 0:
print("Error running 'hipcc --version'")
return None
# Extract the version using a regular expression
match = re.search(r'HIP version: (\S+)', result.stdout)
if match:
# Return the version string
return match.group(1)
else:
print("Could not find HIP version in the output")
return None
def glob(pattern: str):
root = Path(__name__).parent
return [str(p) for p in root.glob(pattern)]
def get_neuronxcc_version():
import sysconfig
site_dir = sysconfig.get_paths()["purelib"]
version_file = os.path.join(site_dir, "neuronxcc", "version",
"__init__.py")
# Check if the command was executed successfully
with open(version_file, "rt") as fp:
content = fp.read()
# Extract the version using a regular expression
match = re.search(r"__version__ = '(\S+)'", content)
if match:
# Return the version string
return match.group(1)
else:
raise RuntimeError("Could not find HIP version in the output")
def get_nvcc_cuda_version(cuda_dir: str) -> Version:
"""Get the CUDA version from nvcc.
Adapted from https://github.com/NVIDIA/apex/blob/8b7a1ff183741dd8f9b87e7bafd04cfde99cea28/setup.py
"""
nvcc_output = subprocess.check_output([cuda_dir + "/bin/nvcc", "-V"],
universal_newlines=True)
output = nvcc_output.split()
release_idx = output.index("release") + 1
nvcc_cuda_version = parse(output[release_idx].split(",")[0])
return nvcc_cuda_version
def get_pytorch_rocm_arch() -> Set[str]:
"""Get the cross section of Pytorch,and vllm supported gfx arches
ROCM can get the supported gfx architectures in one of two ways
Either through the PYTORCH_ROCM_ARCH env var, or output from
rocm_agent_enumerator.
In either case we can generate a list of supported arch's and
cross reference with VLLM's own ROCM_SUPPORTED_ARCHs.
"""
env_arch_list = os.environ.get("PYTORCH_ROCM_ARCH", None)
# If we don't have PYTORCH_ROCM_ARCH specified pull the list from rocm_agent_enumerator
if env_arch_list is None:
command = "rocm_agent_enumerator"
env_arch_list = subprocess.check_output([command]).decode('utf-8')\
.strip().replace("\n", ";")
arch_source_str = "rocm_agent_enumerator"
else:
arch_source_str = "PYTORCH_ROCM_ARCH env variable"
# List are separated by ; or space.
pytorch_rocm_arch = set(env_arch_list.replace(" ", ";").split(";"))
# Filter out the invalid architectures and print a warning.
arch_list = pytorch_rocm_arch.intersection(ROCM_SUPPORTED_ARCHS)
# If none of the specified architectures are valid, raise an error.
if not arch_list:
raise RuntimeError(
f"None of the ROCM architectures in {arch_source_str} "
f"({env_arch_list}) is supported. "
f"Supported ROCM architectures are: {ROCM_SUPPORTED_ARCHS}.")
invalid_arch_list = pytorch_rocm_arch - ROCM_SUPPORTED_ARCHS
if invalid_arch_list:
warnings.warn(
f"Unsupported ROCM architectures ({invalid_arch_list}) are "
f"excluded from the {arch_source_str} output "
f"({env_arch_list}). Supported ROCM architectures are: "
f"{ROCM_SUPPORTED_ARCHS}.",
stacklevel=2)
return arch_list
def get_torch_arch_list() -> Set[str]:
# TORCH_CUDA_ARCH_LIST can have one or more architectures,
# e.g. "8.0" or "7.5,8.0,8.6+PTX". Here, the "8.6+PTX" option asks the
# compiler to additionally include PTX code that can be runtime-compiled
# and executed on the 8.6 or newer architectures. While the PTX code will
# not give the best performance on the newer architectures, it provides
# forward compatibility.
env_arch_list = os.environ.get("TORCH_CUDA_ARCH_LIST", None)
if env_arch_list is None:
return set()
# List are separated by ; or space.
torch_arch_list = set(env_arch_list.replace(" ", ";").split(";"))
if not torch_arch_list:
return set()
# Filter out the invalid architectures and print a warning.
valid_archs = NVIDIA_SUPPORTED_ARCHS.union(
{s + "+PTX"
for s in NVIDIA_SUPPORTED_ARCHS})
arch_list = torch_arch_list.intersection(valid_archs)
# If none of the specified architectures are valid, raise an error.
if not arch_list:
raise RuntimeError(
"None of the CUDA architectures in `TORCH_CUDA_ARCH_LIST` env "
f"variable ({env_arch_list}) is supported. "
f"Supported CUDA architectures are: {valid_archs}.")
invalid_arch_list = torch_arch_list - valid_archs
if invalid_arch_list:
warnings.warn(
f"Unsupported CUDA architectures ({invalid_arch_list}) are "
"excluded from the `TORCH_CUDA_ARCH_LIST` env variable "
f"({env_arch_list}). Supported CUDA architectures are: "
f"{valid_archs}.",
stacklevel=2)
return arch_list
if _is_hip():
rocm_arches = get_pytorch_rocm_arch()
NVCC_FLAGS += ["--offload-arch=" + arch for arch in rocm_arches]
else:
# First, check the TORCH_CUDA_ARCH_LIST environment variable.
compute_capabilities = get_torch_arch_list()
if _is_cuda() and not compute_capabilities:
# If TORCH_CUDA_ARCH_LIST is not defined or empty, target all available
# GPUs on the current machine.
device_count = torch.cuda.device_count()
for i in range(device_count):
major, minor = torch.cuda.get_device_capability(i)
if major < 7:
raise RuntimeError(
"GPUs with compute capability below 7.0 are not supported.")
compute_capabilities.add(f"{major}.{minor}")
ext_modules = []
if _is_cuda():
nvcc_cuda_version = get_nvcc_cuda_version(CUDA_HOME)
if not compute_capabilities:
# If no GPU is specified nor available, add all supported architectures
# based on the NVCC CUDA version.
compute_capabilities = NVIDIA_SUPPORTED_ARCHS.copy()
if nvcc_cuda_version < Version("11.1"):
compute_capabilities.remove("8.6")
if nvcc_cuda_version < Version("11.8"):
compute_capabilities.remove("8.9")
compute_capabilities.remove("9.0")
# Validate the NVCC CUDA version.
if nvcc_cuda_version < Version("11.0"):
raise RuntimeError(
"CUDA 11.0 or higher is required to build the package.")
if (nvcc_cuda_version < Version("11.1")
and any(cc.startswith("8.6") for cc in compute_capabilities)):
raise RuntimeError(
"CUDA 11.1 or higher is required for compute capability 8.6.")
if nvcc_cuda_version < Version("11.8"):
if any(cc.startswith("8.9") for cc in compute_capabilities):
# CUDA 11.8 is required to generate the code targeting compute capability 8.9.
# However, GPUs with compute capability 8.9 can also run the code generated by
# the previous versions of CUDA 11 and targeting compute capability 8.0.
# Therefore, if CUDA 11.8 is not available, we target compute capability 8.0
# instead of 8.9.
warnings.warn(
"CUDA 11.8 or higher is required for compute capability 8.9. "
"Targeting compute capability 8.0 instead.",
stacklevel=2)
compute_capabilities = set(cc for cc in compute_capabilities
if not cc.startswith("8.9"))
compute_capabilities.add("8.0+PTX")
if any(cc.startswith("9.0") for cc in compute_capabilities):
raise RuntimeError(
"CUDA 11.8 or higher is required for compute capability 9.0.")
NVCC_FLAGS_PUNICA = NVCC_FLAGS.copy()
# Add target compute capabilities to NVCC flags.
for capability in compute_capabilities:
num = capability[0] + capability[2]
NVCC_FLAGS += ["-gencode", f"arch=compute_{num},code=sm_{num}"]
if capability.endswith("+PTX"):
NVCC_FLAGS += [
"-gencode", f"arch=compute_{num},code=compute_{num}"
]
if int(capability[0]) >= 8:
NVCC_FLAGS_PUNICA += [
"-gencode", f"arch=compute_{num},code=sm_{num}"
]
if capability.endswith("+PTX"):
NVCC_FLAGS_PUNICA += [
"-gencode", f"arch=compute_{num},code=compute_{num}"
]
# Use NVCC threads to parallelize the build.
if nvcc_cuda_version >= Version("11.2"):
nvcc_threads = int(os.getenv("NVCC_THREADS", 8))
num_threads = min(os.cpu_count(), nvcc_threads)
NVCC_FLAGS += ["--threads", str(num_threads)]
if nvcc_cuda_version >= Version("11.8"):
NVCC_FLAGS += ["-DENABLE_FP8_E5M2"]
# changes for punica kernels
NVCC_FLAGS += torch_cpp_ext.COMMON_NVCC_FLAGS
REMOVE_NVCC_FLAGS = [
'-D__CUDA_NO_HALF_OPERATORS__',
'-D__CUDA_NO_HALF_CONVERSIONS__',
'-D__CUDA_NO_BFLOAT16_CONVERSIONS__',
'-D__CUDA_NO_HALF2_OPERATORS__',
]
for flag in REMOVE_NVCC_FLAGS:
with contextlib.suppress(ValueError):
torch_cpp_ext.COMMON_NVCC_FLAGS.remove(flag)
install_punica = bool(int(os.getenv("VLLM_INSTALL_PUNICA_KERNELS", "0")))
device_count = torch.cuda.device_count()
for i in range(device_count):
major, minor = torch.cuda.get_device_capability(i)
if major < 8:
install_punica = False
break
if install_punica:
ext_modules.append(
CUDAExtension(
name="vllm._punica_C",
sources=["csrc/punica/punica_ops.cc"] +
glob("csrc/punica/bgmv/*.cu"),
extra_compile_args={
"cxx": CXX_FLAGS,
"nvcc": NVCC_FLAGS_PUNICA,
},
))
elif _is_neuron():
neuronxcc_version = get_neuronxcc_version()
vllm_extension_sources = [
"csrc/cache_kernels.cu",
"csrc/attention/attention_kernels.cu",
"csrc/pos_encoding_kernels.cu",
"csrc/activation_kernels.cu",
"csrc/layernorm_kernels.cu",
"csrc/quantization/squeezellm/quant_cuda_kernel.cu",
"csrc/quantization/gptq/q_gemm.cu",
"csrc/cuda_utils_kernels.cu",
"csrc/moe_align_block_size_kernels.cu",
"csrc/cuda_graph.cu",
"csrc/tensor_ops.cu",
"csrc/test_spdk.cu",
"csrc/spdk_util.cpp",
"csrc/pybind.cpp",
]
if _is_cuda():
vllm_extension_sources.append("csrc/quantization/awq/gemm_kernels.cu")
vllm_extension_sources.append("csrc/custom_all_reduce.cu")
# Add MoE kernels.
ext_modules.append(
CUDAExtension(
name="vllm._moe_C",
sources=glob("csrc/moe/*.cu") + glob("csrc/moe/*.cpp"),
extra_compile_args={
"cxx": CXX_FLAGS,
"nvcc": NVCC_FLAGS,
},
))
if not _is_neuron():
LDFLAGS1 = "-L/usr/local/lib/ -lgdrapi -Wl,--whole-archive -Wl,--no-as-needed -lspdk_sock_posix -lspdk_nvme -lspdk_sock -lspdk_trace -lspdk_rpc -lspdk_jsonrpc -lspdk_json -lspdk_vfio_user -lspdk_vmd -lspdk_util -lspdk_log -Wl,--no-whole-archive /home/zsx/spdk/build/lib/libspdk_env_dpdk.so -Wl,--no-as-needed /home/zsx/spdk/dpdk/build/lib/librte_bus_pci.so /home/zsx/spdk/dpdk/build/lib/librte_cryptodev.so /home/zsx/spdk/dpdk/build/lib/librte_dmadev.so /home/zsx/spdk/dpdk/build/lib/librte_eal.so /home/zsx/spdk/dpdk/build/lib/librte_ethdev.so /home/zsx/spdk/dpdk/build/lib/librte_hash.so /home/zsx/spdk/dpdk/build/lib/librte_kvargs.so /home/zsx/spdk/dpdk/build/lib/librte_log.so /home/zsx/spdk/dpdk/build/lib/librte_mbuf.so /home/zsx/spdk/dpdk/build/lib/librte_mempool.so /home/zsx/spdk/dpdk/build/lib/librte_mempool_ring.so /home/zsx/spdk/dpdk/build/lib/librte_net.so /home/zsx/spdk/dpdk/build/lib/librte_pci.so /home/zsx/spdk/dpdk/build/lib/librte_power.so /home/zsx/spdk/dpdk/build/lib/librte_rcu.so /home/zsx/spdk/dpdk/build/lib/librte_ring.so /home/zsx/spdk/dpdk/build/lib/librte_telemetry.so /home/zsx/spdk/dpdk/build/lib/librte_vhost.so -Wl,-as-needed -Wl,-rpath=/home/zsx/spdk/dpdk/build/lib -L/home/zsx/spdk/isa-l/.libs -lisal -L/home/zsx/spdk/isa-l-crypto/.libs -lisal_crypto -pthread -lrt -luuid -lssl -lcrypto -lm -lfuse3 -laio -laio -lcudart -lcublas -lgdrapi"
flags = LDFLAGS1.split()
new_cxx_flags = flags.extend(CXX_FLAGS)
vllm_extension = CUDAExtension(
name="vllm._C",
sources=vllm_extension_sources,
extra_compile_args={
"cxx": flags,
"nvcc": NVCC_FLAGS,
},
libraries=["cuda"] if _is_cuda() else [],
extra_link_args = LDFLAGS1.split()
)
ext_modules.append(vllm_extension)
def get_path(*filepath) -> str:
return os.path.join(ROOT_DIR, *filepath)
def find_version(filepath: str) -> str:
"""Extract version information from the given filepath.
Adapted from https://github.com/ray-project/ray/blob/0b190ee1160eeca9796bc091e07eaebf4c85b511/python/setup.py
"""
with open(filepath) as fp:
version_match = re.search(r"^__version__ = ['\"]([^'\"]*)['\"]",
fp.read(), re.M)
if version_match:
return version_match.group(1)
raise RuntimeError("Unable to find version string.")
def get_vllm_version() -> str:
version = find_version(get_path("vllm", "__init__.py"))
if _is_hip():
# Get the HIP version
hipcc_version = get_hipcc_rocm_version()
if hipcc_version != MAIN_CUDA_VERSION:
rocm_version_str = hipcc_version.replace(".", "")[:3]
version += f"+rocm{rocm_version_str}"
elif _is_neuron():
# Get the Neuron version
neuron_version = str(neuronxcc_version)
if neuron_version != MAIN_CUDA_VERSION:
neuron_version_str = neuron_version.replace(".", "")[:3]
version += f"+neuron{neuron_version_str}"
else:
cuda_version = str(nvcc_cuda_version)
if cuda_version != MAIN_CUDA_VERSION:
cuda_version_str = cuda_version.replace(".", "")[:3]
version += f"+cu{cuda_version_str}"
return version
def read_readme() -> str:
"""Read the README file if present."""
p = get_path("README.md")
if os.path.isfile(p):
return io.open(get_path("README.md"), "r", encoding="utf-8").read()
else:
return ""
def get_requirements() -> List[str]:
"""Get Python package dependencies from requirements.txt."""
if _is_hip():
with open(get_path("requirements-rocm.txt")) as f:
requirements = f.read().strip().split("\n")
elif _is_neuron():
with open(get_path("requirements-neuron.txt")) as f:
requirements = f.read().strip().split("\n")
else:
with open(get_path("requirements.txt")) as f:
requirements = f.read().strip().split("\n")
return requirements
package_data = {"vllm": ["py.typed"]}
if os.environ.get("VLLM_USE_PRECOMPILED"):
ext_modules = []
package_data["vllm"].append("*.so")
setuptools.setup(
name="vllm",
version=get_vllm_version(),
author="vLLM Team",
license="Apache 2.0",
description=("A high-throughput and memory-efficient inference and "
"serving engine for LLMs"),
long_description=read_readme(),
long_description_content_type="text/markdown",
url="https://github.com/vllm-project/vllm",
project_urls={
"Homepage": "https://github.com/vllm-project/vllm",
"Documentation": "https://vllm.readthedocs.io/en/latest/",
},
classifiers=[
"Programming Language :: Python :: 3.8",
"Programming Language :: Python :: 3.9",
"Programming Language :: Python :: 3.10",
"Programming Language :: Python :: 3.11",
"License :: OSI Approved :: Apache Software License",
"Topic :: Scientific/Engineering :: Artificial Intelligence",
],
packages=setuptools.find_packages(exclude=("benchmarks", "csrc", "docs",
"examples", "tests")),
python_requires=">=3.8",
install_requires=get_requirements(),
ext_modules=ext_modules,
cmdclass={"build_ext": BuildExtension} if not _is_neuron() else {},
package_data=package_data,
)