165 lines
5.8 KiB
Python
165 lines
5.8 KiB
Python
"""
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extract factors the build is dependent on:
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[X] compute capability
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[ ] TODO: Q - What if we have multiple GPUs of different makes?
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- CUDA version
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- Software:
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- CPU-only: only CPU quantization functions (no optimizer, no matrix multipl)
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- CuBLAS-LT: full-build 8-bit optimizer
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- no CuBLAS-LT: no 8-bit matrix multiplication (`nomatmul`)
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evaluation:
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- if paths faulty, return meaningful error
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- else:
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- determine CUDA version
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- determine capabilities
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- based on that set the default path
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"""
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import ctypes
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from .paths import determine_cuda_runtime_lib_path
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def check_cuda_result(cuda, result_val):
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# 3. Check for CUDA errors
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if result_val != 0:
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error_str = ctypes.c_char_p()
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cuda.cuGetErrorString(result_val, ctypes.byref(error_str))
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print(f"CUDA exception! Error code: {error_str.value.decode()}")
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def get_cuda_version(cuda, cudart_path):
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# https://docs.nvidia.com/cuda/cuda-runtime-api/group__CUDART____VERSION.html#group__CUDART____VERSION
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try:
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cudart = ctypes.CDLL(cudart_path)
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except OSError:
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# TODO: shouldn't we error or at least warn here?
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print(f'ERROR: libcudart.so could not be read from path: {cudart_path}!')
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return None
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version = ctypes.c_int()
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check_cuda_result(cuda, cudart.cudaRuntimeGetVersion(ctypes.byref(version)))
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version = int(version.value)
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major = version//1000
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minor = (version-(major*1000))//10
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if major < 11:
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print('CUDA SETUP: CUDA version lower than 11 are currenlty not supported for LLM.int8(). You will be only to use 8-bit optimizers and quantization routines!!')
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return f'{major}{minor}'
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def get_cuda_lib_handle():
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# 1. find libcuda.so library (GPU driver) (/usr/lib)
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try:
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cuda = ctypes.CDLL("libcuda.so")
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except OSError:
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# TODO: shouldn't we error or at least warn here?
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print('CUDA SETUP: WARNING! libcuda.so not found! Do you have a CUDA driver installed? If you are on a cluster, make sure you are on a CUDA machine!')
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return None
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check_cuda_result(cuda, cuda.cuInit(0))
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return cuda
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def get_compute_capabilities(cuda):
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"""
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1. find libcuda.so library (GPU driver) (/usr/lib)
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init_device -> init variables -> call function by reference
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2. call extern C function to determine CC
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(https://docs.nvidia.com/cuda/cuda-driver-api/group__CUDA__DEVICE__DEPRECATED.html)
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3. Check for CUDA errors
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https://stackoverflow.com/questions/14038589/what-is-the-canonical-way-to-check-for-errors-using-the-cuda-runtime-api
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# bits taken from https://gist.github.com/f0k/63a664160d016a491b2cbea15913d549
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"""
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nGpus = ctypes.c_int()
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cc_major = ctypes.c_int()
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cc_minor = ctypes.c_int()
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device = ctypes.c_int()
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check_cuda_result(cuda, cuda.cuDeviceGetCount(ctypes.byref(nGpus)))
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ccs = []
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for i in range(nGpus.value):
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check_cuda_result(cuda, cuda.cuDeviceGet(ctypes.byref(device), i))
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ref_major = ctypes.byref(cc_major)
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ref_minor = ctypes.byref(cc_minor)
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# 2. call extern C function to determine CC
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check_cuda_result(
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cuda, cuda.cuDeviceComputeCapability(ref_major, ref_minor, device)
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)
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ccs.append(f"{cc_major.value}.{cc_minor.value}")
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return ccs
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# def get_compute_capability()-> Union[List[str, ...], None]: # FIXME: error
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def get_compute_capability(cuda):
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"""
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Extracts the highest compute capbility from all available GPUs, as compute
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capabilities are downwards compatible. If no GPUs are detected, it returns
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None.
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"""
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ccs = get_compute_capabilities(cuda)
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if ccs is not None:
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# TODO: handle different compute capabilities; for now, take the max
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return ccs[-1]
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return None
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def evaluate_cuda_setup():
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print('')
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print('='*35 + 'BUG REPORT' + '='*35)
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print('Welcome to bitsandbytes. For bug reports, please submit your error trace to: https://github.com/TimDettmers/bitsandbytes/issues')
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print('For effortless bug reporting copy-paste your error into this form: https://docs.google.com/forms/d/e/1FAIpQLScPB8emS3Thkp66nvqwmjTEgxp8Y9ufuWTzFyr9kJ5AoI47dQ/viewform?usp=sf_link')
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print('='*80)
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binary_name = "libbitsandbytes_cpu.so"
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#if not torch.cuda.is_available():
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#print('No GPU detected. Loading CPU library...')
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#return binary_name
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cudart_path = determine_cuda_runtime_lib_path()
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if cudart_path is None:
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print(
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"WARNING: No libcudart.so found! Install CUDA or the cudatoolkit package (anaconda)!"
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)
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return binary_name
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print(f"CUDA SETUP: CUDA runtime path found: {cudart_path}")
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cuda = get_cuda_lib_handle()
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cc = get_compute_capability(cuda)
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print(f"CUDA SETUP: Highest compute capability among GPUs detected: {cc}")
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cuda_version_string = get_cuda_version(cuda, cudart_path)
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if cc == '':
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print(
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"WARNING: No GPU detected! Check your CUDA paths. Processing to load CPU-only library..."
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)
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return binary_name
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# 7.5 is the minimum CC vor cublaslt
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has_cublaslt = cc in ["7.5", "8.0", "8.6"]
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# TODO:
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# (1) CUDA missing cases (no CUDA installed by CUDA driver (nvidia-smi accessible)
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# (2) Multiple CUDA versions installed
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# we use ls -l instead of nvcc to determine the cuda version
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# since most installations will have the libcudart.so installed, but not the compiler
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print(f'CUDA SETUP: Detected CUDA version {cuda_version_string}')
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def get_binary_name():
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"if not has_cublaslt (CC < 7.5), then we have to choose _nocublaslt.so"
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bin_base_name = "libbitsandbytes_cuda"
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if has_cublaslt:
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return f"{bin_base_name}{cuda_version_string}.so"
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else:
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return f"{bin_base_name}{cuda_version_string}_nocublaslt.so"
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binary_name = get_binary_name()
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return binary_name
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