/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #ifndef HL_CUDA_CUDNN_H_ #define HL_CUDA_CUDNN_H_ #include "hl_base.h" /* * hppl pooling mode */ typedef enum { HL_POOLING_MAX = 0, // average does not include padded values HL_POOLING_AVERAGE = 1, // average includes padded values HL_POOLING_AVERAGE_INCLUDE_PADDING = 2, HL_POOLING_END } hl_pooling_mode_t; /** * @brief return cudnn lib version */ extern int hl_get_cudnn_lib_version(); /** * @brief hppl image descriptor. */ typedef struct _hl_tensor_descriptor* hl_tensor_descriptor; /** * @brief hppl pooling descriptor. */ typedef struct _hl_pooling_descriptor* hl_pooling_descriptor; /** * @brief hppl filter descriptor. */ typedef struct _hl_filter_descriptor* hl_filter_descriptor; /** * @brief hppl filter descriptor. */ typedef struct _hl_convolution_descriptor* hl_convolution_descriptor; /** * @brief create image descriptor. * * @param[out] image_desc image descriptor. * */ extern void hl_create_tensor_descriptor(hl_tensor_descriptor* image_desc); /** * @brief reshape image descriptor. * * @param[in,out] image_desc image descriptor. * @param[in] batch_size input batch size. * @param[in] feature_maps image feature maps. * @param[in] height image height. * @param[in] width image width. */ extern void hl_tensor_reshape(hl_tensor_descriptor image_desc, int batch_size, int feature_maps, int height, int width); /** * @brief reshape image descriptor. * * @param[in,out] image_desc image descriptor. * @param[in] batch_size input batch size. * @param[in] feature_maps image feature maps. * @param[in] height image height. * @param[in] width image width. * @param[in] nStride stride between two consecutive images. * @param[in] cStride stride between two consecutive feature maps. * @param[in] hStride stride between two consecutive rows. * @param[in] wStride stride between two consecutive columns. * */ extern void hl_tensor_reshape(hl_tensor_descriptor image_desc, int batch_size, int feature_maps, int height, int width, int nStride, int cStride, int hStride, int wStride); /** * @brief destroy image descriptor. * * @param[in] image_desc hppl image descriptor. */ extern void hl_destroy_tensor_descriptor(hl_tensor_descriptor image_desc); /** * @brief create pooling descriptor. * * @param[out] pooling_desc pooling descriptor. * @param[in] mode pooling mode. * @param[in] height height of the pooling window. * @param[in] width width of the pooling window. * @param[in] height_padding padding height. * @param[in] width_padding padding width. * @param[in] stride_height pooling vertical stride. * @param[in] stride_width pooling horizontal stride. */ extern void hl_create_pooling_descriptor(hl_pooling_descriptor* pooling_desc, hl_pooling_mode_t mode, int height, int width, int height_padding, int width_padding, int stride_height, int stride_width); /** * @brief destroy pooling descriptor. * * @param[in] pooling_desc hppl pooling descriptor. * */ extern void hl_destroy_pooling_descriptor(hl_pooling_descriptor pooling_desc); /** * @brief pooling forward(calculate output image). * * @param[in] input input image descriptor. * @param[in] input_image input image data. * @param[in] output output image descriptor. * @param[out] output_image output image data. * @param[in] pooling pooling descriptor. * */ extern void hl_pooling_forward(hl_tensor_descriptor input, real* input_image, hl_tensor_descriptor output, real* output_image, hl_pooling_descriptor pooling); /** * @brief pooling backward(calculate input image gradient). * * @param[in] input input image descriptor. * @param[in] input_image input image data. * @param[in] input_image_grad input image gradient data. * @param[in] output output image descriptor. * @param[in] output_image output image data. * @param[out] output_image_grad output image gradient data. * @param[in] pooling pooling descriptor. * */ extern void hl_pooling_backward(hl_tensor_descriptor input, real* input_image, real* input_image_grad, hl_tensor_descriptor output, real* output_image, real* output_image_grad, hl_pooling_descriptor pooling); /** * @brief create filter descriptor. * * @param[out] filter filter descriptor. * @param[in] input_feature_maps input image feature maps. * @param[in] output_feature_maps output image feature maps. * @param[in] height filter height. * @param[in] width filter width. * */ extern void hl_create_filter_descriptor(hl_filter_descriptor* filter, int input_feature_maps, int output_feature_maps, int height, int width); /** * @brief convolution workspace configuration * * @param[in] input image descriptor * @param[in] output image descriptor * @param[in] filter filter descriptor * @param[in] conv convolution descriptor * @param[out] convFwdAlgo forward algorithm * @param[out] fwdLimitBytes forward workspace size * @param[out] convBwdDataAlgo backward data algorithm * @param[out] bwdDataLimitBytes backward data workspace size * @param[out] convBwdFilterAlgo backward filter algorithm * @param[out] bwdFilterLimitBytes backward filter workspace size * */ extern void hl_conv_workspace(hl_tensor_descriptor input, hl_tensor_descriptor output, hl_filter_descriptor filter, hl_convolution_descriptor conv, int* convFwdAlgo, size_t* fwdLimitBytes, int* convBwdDataAlgo, size_t* bwdDataLimitBytes, int* convBwdFilterAlgo, size_t* bwdFilterLimitBytes, bool useDilation); /** * @brief destroy filter descriptor. * * @param[in] filter hppl filter descriptor. * */ extern void hl_destroy_filter_descriptor(hl_filter_descriptor filter); /** * @brief create convolution descriptor. * * @param[out] conv conv descriptor. * @param[in] image input image descriptor. * @param[in] filter filter descriptor. * @param[in] padding_height padding height. * @param[in] padding_width padding width. * @param[in] stride_height stride height. * @param[in] stride_width stride width. * */ extern void hl_create_convolution_descriptor(hl_convolution_descriptor* conv, hl_tensor_descriptor image, hl_filter_descriptor filter, int padding_height, int padding_width, int stride_height, int stride_width, int dilation_h = 1, int dilation_w = 1); /** * @brief reset convolution descriptor. * * @param[in,out] conv conv descriptor. * @param[in] image input image descriptor. * @param[in] filter filter descriptor. * @param[in] padding_height padding height. * @param[in] padding_width padding width. * @param[in] stride_height stride height. * @param[in] stride_width stride width. * */ extern void hl_reset_convolution_descriptor(hl_convolution_descriptor conv, hl_tensor_descriptor image, hl_filter_descriptor filter, int padding_height, int padding_width, int stride_height, int stride_width, int dilation_h = 1, int dilation_w = 1); /** * @brief destroy convolution descriptor. * * @param[in] conv hppl convolution descriptor. */ extern void hl_destroy_convolution_descriptor(hl_convolution_descriptor conv); /** * @brief convolution forward(calculate output image). * * @param[in] input input image descriptor. * @param[in] input_data input image data. * @param[in] output output image descriptor. * @param[out] output_data output image data. * @param[in] filter filter descriptor. * @param[in] filter_data filter data. * @param[in] conv convolution descriptor. * @param[in] gpuWorkSpace limited gpu workspace. * @param[in] sizeInBytes gpu workspace size (bytes). * @param[in] convFwdAlgo forward algorithm. */ extern void hl_convolution_forward(hl_tensor_descriptor input, real* input_data, hl_tensor_descriptor output, real* output_data, hl_filter_descriptor filter, real* filter_data, hl_convolution_descriptor conv, void* gpuWorkSpace, size_t sizeInBytes, int convFwdAlgo); /** * @brief convolution forward add bias(calculate output add bias). * * @param[in] bias bias descriptor. * @param[in] bias_data bias data. * @param[in] output output image descriptor. * @param[out] output_data output image data. */ extern void hl_convolution_forward_add_bias(hl_tensor_descriptor bias, real* bias_data, hl_tensor_descriptor output, real* output_data); /** * @brief convolution backward filter(calculate filter grad data). * * @param[in] input input image descriptor. * @param[in] input_data input image data. * @param[in] output output image descriptor. * @param[in] output_grad_data output image grad data. * @param[in] filter filter descriptor. * @param[out] filter_grad_data filter grad data. * @param[in] conv convolution descriptor. * @param[in] gpuWorkSpace limited gpu workspace. * @param[in] sizeInBytes gpu workspace size (bytes). * @param[in] convBwdFilterAlgo backward filter algorithm. */ extern void hl_convolution_backward_filter(hl_tensor_descriptor input, real* input_data, hl_tensor_descriptor output, real* output_grad_data, hl_filter_descriptor filter, real* filter_grad_data, hl_convolution_descriptor conv, void* gpuWorkSpace, size_t sizeInBytes, int convBwdFilterAlgo); /** * @brief convolution backward data(calculate input image grad data). * * @param[in] input input image descriptor. * @param[out] input_data_grad input image grad data. * @param[in] output output image descriptor. * @param[in] output_grad_data output image grad data. * @param[in] filter filter descriptor. * @param[in] filter_data filter data. * @param[in] conv convolution descriptor. * @param[in] gpuWorkSpace limited gpu workspace. * @param[in] sizeInBytes gpu workspace size (bytes). * @param[in] convBwdDataAlgo backward data algorithm. */ extern void hl_convolution_backward_data(hl_tensor_descriptor input, real* input_data_grad, hl_tensor_descriptor output, real* output_grad_data, hl_filter_descriptor filter, real* filter_data, hl_convolution_descriptor conv, void* gpuWorkSpace, size_t sizeInBytes, int convBwdDataAlgo); /** * @brief convolution backward bias(calculate bias grad data). * * @param[in] bias bias descriptor. * @param[out] bias_grad_data bias grad data. * @param[in] output output image descriptor. * @param[in] output_grad_data output image grad data. */ extern void hl_convolution_backward_bias(hl_tensor_descriptor bias, real* bias_grad_data, hl_tensor_descriptor output, real* output_grad_data); /** * @brief softmax forward. * * @param[in] input input value. * @param[out] output output value. * @param[in] height matrix height. * @param[in] width matrix width. */ extern void hl_softmax_forward(real* input, real* output, int height, int width); /** * @brief softmax backward. * * @param[in] output_value output value data. * @param[out] output_grad output grad data. * @param[in] height matrix height. * @param[in] width matrix width. */ extern void hl_softmax_backward(real* output_value, real* output_grad, int height, int width); /** * @brief cudnn batch norm forward. * * @param[in] inputDesc input tensor descriptor desc. * @param[in] input input data. * @param[in] outputDesc output tensor descriptor desc. * @param[out] output output data. * @param[in] bnParamDesc tensor descriptor desc. * bnScale, bnBias, running mean/var, save_mean/var. * @param[in] scale batch normalization scale parameter (in original * paper scale is referred to as gamma). * @param[in] bias batch normalization bias parameter (in original * paper scale is referred to as beta). * @param[in] factor Factor used in the moving average computation. * runningMean = newMean * factor * + runningMean * (1 - factor) * @param[in] runningMean running mean. * @param[in] runningInvVar running variance. * @param[in] epsilon Epsilon value used in the batch normalization * formula. * @param[out] savedMean optional cache to save intermediate results. * @param[out] savedVar optional cache to save intermediate results. * */ extern void hl_batch_norm_forward_training(hl_tensor_descriptor inputDesc, real* input, hl_tensor_descriptor outputDesc, real* output, hl_tensor_descriptor bnParamDesc, real* scale, real* bias, double factor, real* runningMean, real* runningInvVar, double epsilon, real* savedMean, real* savedVar); /** * @brief cudnn batch norm forward. * * @param[in] inputDesc input tensor descriptor desc. * @param[in] input input data. * @param[in] outputDesc output tensor descriptor desc. * @param[out] output output data. * @param[in] bnParamDesc tensor descriptor desc. * bnScale, bnBias, running mean/var, save_mean/var. * @param[in] scale batch normalization scale parameter (in original * paper scale is referred to as gamma). * @param[in] bias batch normalization bias parameter (in original * paper scale is referred to as beta). * @param[in] estimatedMean * @param[in] estimatedVar It is suggested that resultRunningMean, * resultRunningVariance from the * cudnnBatchNormalizationForwardTraining call * accumulated during the training phase are passed * as inputs here. * @param[in] epsilon Epsilon value used in the batch * normalization formula. * */ extern void hl_batch_norm_forward_inference(hl_tensor_descriptor inputDesc, real* input, hl_tensor_descriptor outputDesc, real* output, hl_tensor_descriptor bnParamDesc, real* scale, real* bias, real* estimatedMean, real* estimatedVar, double epsilon); /** * @brief cudnn batch norm forward. * * @param[in] inputDesc input tensor descriptor desc. * @param[in] input input data. * @param[in] outGradDesc output tensor descriptor desc. * @param[out] outGrad output data. * @param[in] inGradDesc input tensor descriptor desc. * @param[in] inGrad input data. * @param[in] dBnParamDesc tensor descriptor desc. * bnScale, bnBias, running mean/var, * save_mean/var. * @param[in] scale batch normalization scale parameter (in original * paper scale is referred to as gamma). * @param[in] scaleGrad batch normalization scale parameter (in original * paper scale is referred to as gamma) gradient. * @param[in] biasGrad batch normalization bias parameter (in original * paper scale is referred to as beta) gradient. * @param[in] epsilon Epsilon value used in the batch * normalization formula. * @param[out] savedMean optional cache to save intermediate results. * @param[out] savedInvVar optional cache to save intermediate results. * */ extern void hl_batch_norm_backward(hl_tensor_descriptor inputDesc, real* input, hl_tensor_descriptor outGradDesc, real* outGrad, hl_tensor_descriptor inGradDesc, real* inGrad, hl_tensor_descriptor dBnParamDesc, real* scale, real* scaleGrad, real* biasGrad, double epsilon, real* savedMean, real* savedInvVar); #endif // HL_CUDA_CUDNN_H_