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Source code for torch.backends.cudnn

import os
import sys
import warnings
from contextlib import contextmanager

import torch
from torch.backends import __allow_nonbracketed_mutation, ContextProp, PropModule

try:
    from torch._C import _cudnn
except ImportError:
    _cudnn = None  # type: ignore[assignment]

# Write:
#
#   torch.backends.cudnn.enabled = False
#
# to globally disable CuDNN/MIOpen

__cudnn_version = None

if _cudnn is not None:

    def _init():
        global __cudnn_version
        if __cudnn_version is None:
            __cudnn_version = _cudnn.getVersionInt()
            runtime_version = _cudnn.getRuntimeVersion()
            compile_version = _cudnn.getCompileVersion()
            runtime_major, runtime_minor, _ = runtime_version
            compile_major, compile_minor, _ = compile_version
            # Different major versions are always incompatible
            # Starting with cuDNN 7, minor versions are backwards-compatible
            # Not sure about MIOpen (ROCm), so always do a strict check
            if runtime_major != compile_major:
                cudnn_compatible = False
            elif runtime_major < 7 or not _cudnn.is_cuda:
                cudnn_compatible = runtime_minor == compile_minor
            else:
                cudnn_compatible = runtime_minor >= compile_minor
            if not cudnn_compatible:
                if os.environ.get("PYTORCH_SKIP_CUDNN_COMPATIBILITY_CHECK", "0") == "1":
                    return True
                base_error_msg = (
                    f"cuDNN version incompatibility: "
                    f"PyTorch was compiled  against {compile_version} "
                    f"but found runtime version {runtime_version}. "
                    f"PyTorch already comes bundled with cuDNN. "
                    f"One option to resolving this error is to ensure PyTorch "
                    f"can find the bundled cuDNN."
                )

                if "LD_LIBRARY_PATH" in os.environ:
                    ld_library_path = os.environ.get("LD_LIBRARY_PATH", "")
                    if any(
                        substring in ld_library_path for substring in ["cuda", "cudnn"]
                    ):
                        raise RuntimeError(
                            f"{base_error_msg}"
                            f"Looks like your LD_LIBRARY_PATH contains incompatible version of cudnn"
                            f"Please either remove it from the path or install cudnn {compile_version}"
                        )
                    else:
                        raise RuntimeError(
                            f"{base_error_msg}"
                            f"one possibility is that there is a "
                            f"conflicting cuDNN in LD_LIBRARY_PATH."
                        )
                else:
                    raise RuntimeError(base_error_msg)

        return True

else:

    def _init():
        return False


[docs]def version(): """Returns the version of cuDNN""" if not _init(): return None return __cudnn_version
CUDNN_TENSOR_DTYPES = { torch.half, torch.float, torch.double, }
[docs]def is_available(): r"""Returns a bool indicating if CUDNN is currently available.""" return torch._C._has_cudnn
def is_acceptable(tensor): if not torch._C._get_cudnn_enabled(): return False if tensor.device.type != "cuda" or tensor.dtype not in CUDNN_TENSOR_DTYPES: return False if not is_available(): warnings.warn( "PyTorch was compiled without cuDNN/MIOpen support. To use cuDNN/MIOpen, rebuild " "PyTorch making sure the library is visible to the build system." ) return False if not _init(): warnings.warn( "cuDNN/MIOpen library not found. Check your {libpath}".format( libpath={"darwin": "DYLD_LIBRARY_PATH", "win32": "PATH"}.get( sys.platform, "LD_LIBRARY_PATH" ) ) ) return False return True def set_flags( _enabled=None, _benchmark=None, _benchmark_limit=None, _deterministic=None, _allow_tf32=None, ): orig_flags = ( torch._C._get_cudnn_enabled(), torch._C._get_cudnn_benchmark(), None if not is_available() else torch._C._cuda_get_cudnn_benchmark_limit(), torch._C._get_cudnn_deterministic(), torch._C._get_cudnn_allow_tf32(), ) if _enabled is not None: torch._C._set_cudnn_enabled(_enabled) if _benchmark is not None: torch._C._set_cudnn_benchmark(_benchmark) if _benchmark_limit is not None and is_available(): torch._C._cuda_set_cudnn_benchmark_limit(_benchmark_limit) if _deterministic is not None: torch._C._set_cudnn_deterministic(_deterministic) if _allow_tf32 is not None: torch._C._set_cudnn_allow_tf32(_allow_tf32) return orig_flags @contextmanager def flags( enabled=False, benchmark=False, benchmark_limit=10, deterministic=False, allow_tf32=True, ): with __allow_nonbracketed_mutation(): orig_flags = set_flags( enabled, benchmark, benchmark_limit, deterministic, allow_tf32 ) try: yield finally: # recover the previous values with __allow_nonbracketed_mutation(): set_flags(*orig_flags) # The magic here is to allow us to intercept code like this: # # torch.backends.<cudnn|mkldnn>.enabled = True class CudnnModule(PropModule): def __init__(self, m, name): super().__init__(m, name) enabled = ContextProp(torch._C._get_cudnn_enabled, torch._C._set_cudnn_enabled) deterministic = ContextProp( torch._C._get_cudnn_deterministic, torch._C._set_cudnn_deterministic ) benchmark = ContextProp( torch._C._get_cudnn_benchmark, torch._C._set_cudnn_benchmark ) benchmark_limit = None if is_available(): benchmark_limit = ContextProp( torch._C._cuda_get_cudnn_benchmark_limit, torch._C._cuda_set_cudnn_benchmark_limit, ) allow_tf32 = ContextProp( torch._C._get_cudnn_allow_tf32, torch._C._set_cudnn_allow_tf32 ) # This is the sys.modules replacement trick, see # https://stackoverflow.com/questions/2447353/getattr-on-a-module/7668273#7668273 sys.modules[__name__] = CudnnModule(sys.modules[__name__], __name__) # Add type annotation for the replaced module enabled: bool deterministic: bool benchmark: bool allow_tf32: bool benchmark_limit: int

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