/* 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. */ #include #include #include #include "ModelConfig.pb.h" #include "paddle/legacy/gserver/layers/DataLayer.h" #include "paddle/utils/GlobalConstants.h" #include "LayerGradUtil.h" #include "paddle/cuda/include/hl_batch_norm.h" #include "paddle/math/tests/TensorCheck.h" #include "paddle/testing/TestUtil.h" using namespace paddle; // NOLINT using namespace std; // NOLINT DECLARE_bool(use_gpu); DECLARE_int32(gpu_id); DECLARE_double(checkgrad_eps); DECLARE_bool(thread_local_rand_use_global_seed); DECLARE_bool(prev_batch_state); // Test that the batchNormLayer can be followed by a ConvLayer TEST(Layer, batchNorm) { FLAGS_use_gpu = false; TestConfig configBN; const int CHANNELS = 6272; const int IMG_SIZE = 1; configBN.layerConfig.set_type("batch_norm"); configBN.layerConfig.set_name("bn"); configBN.layerConfig.set_size(CHANNELS * IMG_SIZE * IMG_SIZE); configBN.layerConfig.set_active_type("relu"); configBN.biasSize = CHANNELS; configBN.inputDefs.push_back({INPUT_DATA, "layer_0", /* dim= */ IMG_SIZE * IMG_SIZE * CHANNELS, /* paraSize= */ CHANNELS}); configBN.inputDefs.push_back( {INPUT_DATA, "layer_1_running_mean", 1, CHANNELS}); configBN.inputDefs.back().isStatic = true; configBN.inputDefs.push_back( {INPUT_DATA, "layer_2_running_var", 1, CHANNELS}); configBN.inputDefs.back().isStatic = true; LayerInputConfig* input = configBN.layerConfig.add_inputs(); configBN.layerConfig.add_inputs(); configBN.layerConfig.add_inputs(); ImageConfig* img_conf = input->mutable_image_conf(); img_conf->set_channels(CHANNELS); img_conf->set_img_size(IMG_SIZE); // Setting up conv-layer config TestConfig config; config.biasSize = 64; config.layerConfig.set_type("exconv"); config.layerConfig.set_num_filters(64); config.layerConfig.set_partial_sum(1); config.layerConfig.set_shared_biases(true); config.inputDefs.push_back({INPUT_DATA, "bn", 6272, 204800}); input = config.layerConfig.add_inputs(); ConvConfig* conv = input->mutable_conv_conf(); conv->set_filter_size(5); conv->set_filter_size_y(5); conv->set_channels(128); conv->set_padding(1); conv->set_padding_y(1); conv->set_stride(2); conv->set_stride_y(2); conv->set_groups(1); conv->set_filter_channels(conv->channels() / conv->groups()); conv->set_img_size(7); conv->set_output_x(3); config.layerConfig.set_size(conv->output_x() * conv->output_x() * config.layerConfig.num_filters()); config.layerConfig.set_name("conv"); // data layer initialize std::vector dataLayers; LayerMap layerMap; vector datas; initDataLayer(configBN, &dataLayers, &datas, &layerMap, "batch_norm", 100, false, false); // test layer initialize std::vector parameters; LayerPtr bnLayer; initTestLayer(configBN, &layerMap, ¶meters, &bnLayer); std::vector parameters2; LayerPtr convLayer; initTestLayer(config, &layerMap, ¶meters2, &convLayer); bnLayer->forward(PASS_GC); convLayer->forward(PASS_GC); CHECK_EQ(static_cast(convLayer->getOutputValue()->getHeight()), 100); CHECK_EQ(static_cast(convLayer->getOutputValue()->getWidth()), 576); } #ifdef PADDLE_WITH_CUDA void batchNormInference(int n, int c, int h, int w) { MatrixPtr input = std::make_shared(n, c * h * w); MatrixPtr cudnnOut = std::make_shared(n, c * h * w); MatrixPtr cudaOut = std::make_shared(n, c * h * w); MatrixPtr cudnnCheck = std::make_shared(n, c * h * w); MatrixPtr cudaCheck = std::make_shared(n, c * h * w); input->randomizeUniform(); cudnnOut->zeroMem(); cudaOut->zeroMem(); MatrixPtr scale = std::make_shared(1, c); scale->randomizeUniform(); MatrixPtr bias = std::make_shared(1, c); bias->randomizeUniform(); MatrixPtr movingMean = std::make_shared(1, c); movingMean->randomizeUniform(); MatrixPtr movingVar = std::make_shared(1, c); movingVar->randomizeUniform(); movingVar->clip(0.01, 50); hl_tensor_descriptor ioDesc; hl_tensor_descriptor bnDesc; hl_create_tensor_descriptor(&ioDesc); hl_create_tensor_descriptor(&bnDesc); hl_tensor_reshape(ioDesc, n, c, h, w); hl_tensor_reshape(bnDesc, 1, c, 1, 1); double EPS = 1E-5; hl_batch_norm_forward_inference(ioDesc, input->getData(), ioDesc, cudnnOut->getData(), bnDesc, scale->getData(), bias->getData(), movingMean->getData(), movingVar->getData(), EPS); hl_batch_norm_cuda_inference(input->getData(), cudaOut->getData(), scale->getData(), bias->getData(), movingMean->getData(), movingVar->getData(), EPS, n, c, h, w); cudnnCheck->copyFrom(*cudnnOut); cudaCheck->copyFrom(*cudaOut); autotest::TensorCheckErr(*cudnnCheck, *cudaCheck); hl_destroy_tensor_descriptor(ioDesc); hl_destroy_tensor_descriptor(bnDesc); } TEST(BatchNorm, Inference) { batchNormInference(33, 267, 1, 1); batchNormInference(19, 105, 4, 4); } #endif int main(int argc, char** argv) { testing::InitGoogleTest(&argc, argv); initMain(argc, argv); FLAGS_thread_local_rand_use_global_seed = true; srand(1); return RUN_ALL_TESTS(); }