This is a set of minimal Python wrappers for the NVIDIA cuDNN library of convolutional neural network primitives. NVIDIA cuDNN is available free of charge, but requires an NVIDIA developer account to download. Users should follow the cuDNN API documentation to use these wrappers, as they faithfully replicate the cuDNN C API.
These wrappers expose the full cuDNN API as Python functions, but are
minimalistic in that they don't implement any higher order
functionality, such as operating directly on data structures like
PyCUDA GPUArray
or cudamat CUDAMatrix
. Since the interface
faithfully replicates the C API, the user is responsible for
allocating and deallocating handles to all cuDNN data structures and
passing references to arrays as pointers. However, cuDNN status codes
are translated to Python exceptions. The most common application for
these wrappers will be to be used along PyCUDA, but they will work
equally well with other frameworks such as CUDAMat.
This version of cudnn-python-wrappers targets cudnn-8.0-v6.0. Please use version 1.x of the wrappers for cudnn-6.5-R1. Please use version 2.1b of the wrappers for cudnn-7.0-v4.0.
Users need to make sure that they pass all arguments as the correct data
type, that is ctypes.c_void_p
for all handles and array pointers and
ctypes.c_int
for all integer arguments and enums. Here is an example
on how to perform forward convolution on a PyCUDA GPUArray
:
import pycuda.autoinit
import pycuda.driver as drv
from pycuda import gpuarray
import libcudnn, ctypes
import numpy as np
# Create a cuDNN context
cudnn_context = libcudnn.cudnnCreate()
# Set some options and tensor dimensions
tensor_format = libcudnn.cudnnTensorFormat['CUDNN_TENSOR_NCHW']
data_type = libcudnn.cudnnDataType['CUDNN_DATA_FLOAT']
convolution_mode = libcudnn.cudnnConvolutionMode['CUDNN_CROSS_CORRELATION']
convolution_fwd_pref = libcudnn.cudnnConvolutionFwdPreference['CUDNN_CONVOLUTION_FWD_PREFER_FASTEST']
start, end = (drv.Event(), drv.Event())
def start_bench():
start.record()
def end_bench(op):
end.record()
end.synchronize()
msecs = end.time_since(start)
print("%7.3f msecs" % (msecs))
n_input = 64
filters_in = 128
filters_out = 128
height_in = 112
width_in = 112
height_filter = 7
width_filter = 7
pad_h = 3
pad_w = 3
vertical_stride = 1
horizontal_stride = 1
upscalex = 1
upscaley = 1
alpha = 1.0
beta = 1.0
# Input tensor
X = gpuarray.to_gpu(np.random.rand(n_input, filters_in, height_in, width_in)
.astype(np.float32))
# Filter tensor
filters = gpuarray.to_gpu(np.random.rand(filters_out,
filters_in, height_filter, width_filter).astype(np.float32))
# Descriptor for input
X_desc = libcudnn.cudnnCreateTensorDescriptor()
libcudnn.cudnnSetTensor4dDescriptor(X_desc, tensor_format, data_type,
n_input, filters_in, height_in, width_in)
# Filter descriptor
filters_desc = libcudnn.cudnnCreateFilterDescriptor()
libcudnn.cudnnSetFilter4dDescriptor(filters_desc, data_type, tensor_format, filters_out,
filters_in, height_filter, width_filter)
# Convolution descriptor
conv_desc = libcudnn.cudnnCreateConvolutionDescriptor()
libcudnn.cudnnSetConvolution2dDescriptor(conv_desc, pad_h, pad_w,
vertical_stride, horizontal_stride, upscalex, upscaley,
convolution_mode, data_type)
# Get output dimensions (first two values are n_input and filters_out)
_, _, height_output, width_output = libcudnn.cudnnGetConvolution2dForwardOutputDim(
conv_desc, X_desc, filters_desc)
# Output tensor
Y = gpuarray.empty((n_input, filters_out, height_output, width_output), np.float32)
Y_desc = libcudnn.cudnnCreateTensorDescriptor()
libcudnn.cudnnSetTensor4dDescriptor(Y_desc, tensor_format, data_type, n_input,
filters_out, height_output, width_output)
# Get pointers to GPU memory
X_data = ctypes.c_void_p(int(X.gpudata))
filters_data = ctypes.c_void_p(int(filters.gpudata))
Y_data = ctypes.c_void_p(int(Y.gpudata))
# Perform convolution
algo = libcudnn.cudnnGetConvolutionForwardAlgorithm(cudnn_context, X_desc,
filters_desc, conv_desc, Y_desc, convolution_fwd_pref, 0)
print("Cudnn algorithm = %d" % algo.value)
ws_size = libcudnn.cudnnGetConvolutionForwardWorkspaceSize(cudnn_context, X_desc, filters_desc, conv_desc, Y_desc, algo)
ws_ptr = drv.mem_alloc(ws_size.value) if ws_size.value > 0 else 0
ws_data = ctypes.c_void_p(int(ws_ptr))
start_bench()
libcudnn.cudnnConvolutionForward(cudnn_context, alpha, X_desc, X_data,
filters_desc, filters_data, conv_desc, algo, ws_data, ws_size.value, beta,
Y_desc, Y_data)
end_bench("fprop")
ws_ptr = None
# Clean up
libcudnn.cudnnDestroyTensorDescriptor(X_desc)
libcudnn.cudnnDestroyTensorDescriptor(Y_desc)
libcudnn.cudnnDestroyFilterDescriptor(filters_desc)
libcudnn.cudnnDestroyConvolutionDescriptor(conv_desc)
libcudnn.cudnnDestroy(cudnn_context)
Install from PyPi with
pip install cudnn-python-wrappers