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Convolution with cuDNN
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#include <cudnn.h> | |
#include <cassert> | |
#include <cstdlib> | |
#include <iostream> | |
#include <opencv2/opencv.hpp> | |
#define checkCUDNN(expression) \ | |
{ \ | |
cudnnStatus_t status = (expression); \ | |
if (status != CUDNN_STATUS_SUCCESS) { \ | |
std::cerr << "Error on line " << __LINE__ << ": " \ | |
<< cudnnGetErrorString(status) << std::endl; \ | |
std::exit(EXIT_FAILURE); \ | |
} \ | |
} | |
cv::Mat load_image(const char* image_path) { | |
cv::Mat image = cv::imread(image_path, CV_LOAD_IMAGE_COLOR); | |
image.convertTo(image, CV_32FC3); | |
cv::normalize(image, image, 0, 1, cv::NORM_MINMAX); | |
std::cerr << "Input Image: " << image.rows << " x " << image.cols << " x " | |
<< image.channels() << std::endl; | |
return image; | |
} | |
void save_image(const char* output_filename, | |
float* buffer, | |
int height, | |
int width) { | |
cv::Mat output_image(height, width, CV_32FC3, buffer); | |
// Make negative values zero. | |
cv::threshold(output_image, | |
output_image, | |
/*threshold=*/0, | |
/*maxval=*/0, | |
cv::THRESH_TOZERO); | |
cv::normalize(output_image, output_image, 0.0, 255.0, cv::NORM_MINMAX); | |
output_image.convertTo(output_image, CV_8UC3); | |
cv::imwrite(output_filename, output_image); | |
std::cerr << "Wrote output to " << output_filename << std::endl; | |
} | |
int main(int argc, const char* argv[]) { | |
if (argc < 2) { | |
std::cerr << "usage: conv <image> [gpu=0] [sigmoid=0]" << std::endl; | |
std::exit(EXIT_FAILURE); | |
} | |
int gpu_id = (argc > 2) ? std::atoi(argv[2]) : 0; | |
std::cerr << "GPU: " << gpu_id << std::endl; | |
bool with_sigmoid = (argc > 3) ? std::atoi(argv[3]) : 0; | |
std::cerr << "With sigmoid: " << std::boolalpha << with_sigmoid << std::endl; | |
cv::Mat image = load_image(argv[1]); | |
cudaSetDevice(gpu_id); | |
cudnnHandle_t cudnn; | |
cudnnCreate(&cudnn); | |
cudnnTensorDescriptor_t input_descriptor; | |
checkCUDNN(cudnnCreateTensorDescriptor(&input_descriptor)); | |
checkCUDNN(cudnnSetTensor4dDescriptor(input_descriptor, | |
/*format=*/CUDNN_TENSOR_NHWC, | |
/*dataType=*/CUDNN_DATA_FLOAT, | |
/*batch_size=*/1, | |
/*channels=*/3, | |
/*image_height=*/image.rows, | |
/*image_width=*/image.cols)); | |
cudnnFilterDescriptor_t kernel_descriptor; | |
checkCUDNN(cudnnCreateFilterDescriptor(&kernel_descriptor)); | |
checkCUDNN(cudnnSetFilter4dDescriptor(kernel_descriptor, | |
/*dataType=*/CUDNN_DATA_FLOAT, | |
/*format=*/CUDNN_TENSOR_NCHW, | |
/*out_channels=*/3, | |
/*in_channels=*/3, | |
/*kernel_height=*/3, | |
/*kernel_width=*/3)); | |
cudnnConvolutionDescriptor_t convolution_descriptor; | |
checkCUDNN(cudnnCreateConvolutionDescriptor(&convolution_descriptor)); | |
checkCUDNN(cudnnSetConvolution2dDescriptor(convolution_descriptor, | |
/*pad_height=*/1, | |
/*pad_width=*/1, | |
/*vertical_stride=*/1, | |
/*horizontal_stride=*/1, | |
/*dilation_height=*/1, | |
/*dilation_width=*/1, | |
/*mode=*/CUDNN_CROSS_CORRELATION, | |
/*computeType=*/CUDNN_DATA_FLOAT)); | |
int batch_size{0}, channels{0}, height{0}, width{0}; | |
checkCUDNN(cudnnGetConvolution2dForwardOutputDim(convolution_descriptor, | |
input_descriptor, | |
kernel_descriptor, | |
&batch_size, | |
&channels, | |
&height, | |
&width)); | |
std::cerr << "Output Image: " << height << " x " << width << " x " << channels | |
<< std::endl; | |
cudnnTensorDescriptor_t output_descriptor; | |
checkCUDNN(cudnnCreateTensorDescriptor(&output_descriptor)); | |
checkCUDNN(cudnnSetTensor4dDescriptor(output_descriptor, | |
/*format=*/CUDNN_TENSOR_NHWC, | |
/*dataType=*/CUDNN_DATA_FLOAT, | |
/*batch_size=*/1, | |
/*channels=*/3, | |
/*image_height=*/image.rows, | |
/*image_width=*/image.cols)); | |
cudnnConvolutionFwdAlgo_t convolution_algorithm; | |
checkCUDNN( | |
cudnnGetConvolutionForwardAlgorithm(cudnn, | |
input_descriptor, | |
kernel_descriptor, | |
convolution_descriptor, | |
output_descriptor, | |
CUDNN_CONVOLUTION_FWD_PREFER_FASTEST, | |
/*memoryLimitInBytes=*/0, | |
&convolution_algorithm)); | |
size_t workspace_bytes{0}; | |
checkCUDNN(cudnnGetConvolutionForwardWorkspaceSize(cudnn, | |
input_descriptor, | |
kernel_descriptor, | |
convolution_descriptor, | |
output_descriptor, | |
convolution_algorithm, | |
&workspace_bytes)); | |
std::cerr << "Workspace size: " << (workspace_bytes / 1048576.0) << "MB" | |
<< std::endl; | |
assert(workspace_bytes > 0); | |
void* d_workspace{nullptr}; | |
cudaMalloc(&d_workspace, workspace_bytes); | |
int image_bytes = batch_size * channels * height * width * sizeof(float); | |
float* d_input{nullptr}; | |
cudaMalloc(&d_input, image_bytes); | |
cudaMemcpy(d_input, image.ptr<float>(0), image_bytes, cudaMemcpyHostToDevice); | |
float* d_output{nullptr}; | |
cudaMalloc(&d_output, image_bytes); | |
cudaMemset(d_output, 0, image_bytes); | |
// clang-format off | |
const float kernel_template[3][3] = { | |
{1, 1, 1}, | |
{1, -8, 1}, | |
{1, 1, 1} | |
}; | |
// clang-format on | |
float h_kernel[3][3][3][3]; | |
for (int kernel = 0; kernel < 3; ++kernel) { | |
for (int channel = 0; channel < 3; ++channel) { | |
for (int row = 0; row < 3; ++row) { | |
for (int column = 0; column < 3; ++column) { | |
h_kernel[kernel][channel][row][column] = kernel_template[row][column]; | |
} | |
} | |
} | |
} | |
float* d_kernel{nullptr}; | |
cudaMalloc(&d_kernel, sizeof(h_kernel)); | |
cudaMemcpy(d_kernel, h_kernel, sizeof(h_kernel), cudaMemcpyHostToDevice); | |
const float alpha = 1.0f, beta = 0.0f; | |
checkCUDNN(cudnnConvolutionForward(cudnn, | |
&alpha, | |
input_descriptor, | |
d_input, | |
kernel_descriptor, | |
d_kernel, | |
convolution_descriptor, | |
convolution_algorithm, | |
d_workspace, | |
workspace_bytes, | |
&beta, | |
output_descriptor, | |
d_output)); | |
if (with_sigmoid) { | |
cudnnActivationDescriptor_t activation_descriptor; | |
checkCUDNN(cudnnCreateActivationDescriptor(&activation_descriptor)); | |
checkCUDNN(cudnnSetActivationDescriptor(activation_descriptor, | |
CUDNN_ACTIVATION_SIGMOID, | |
CUDNN_PROPAGATE_NAN, | |
/*relu_coef=*/0)); | |
checkCUDNN(cudnnActivationForward(cudnn, | |
activation_descriptor, | |
&alpha, | |
output_descriptor, | |
d_output, | |
&beta, | |
output_descriptor, | |
d_output)); | |
cudnnDestroyActivationDescriptor(activation_descriptor); | |
} | |
float* h_output = new float[image_bytes]; | |
cudaMemcpy(h_output, d_output, image_bytes, cudaMemcpyDeviceToHost); | |
save_image("cudnn-out.png", h_output, height, width); | |
delete[] h_output; | |
cudaFree(d_kernel); | |
cudaFree(d_input); | |
cudaFree(d_output); | |
cudaFree(d_workspace); | |
cudnnDestroyTensorDescriptor(input_descriptor); | |
cudnnDestroyTensorDescriptor(output_descriptor); | |
cudnnDestroyFilterDescriptor(kernel_descriptor); | |
cudnnDestroyConvolutionDescriptor(convolution_descriptor); | |
cudnnDestroy(cudnn); | |
} |
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