/* Copyright (c) 2018 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 "paddle/fluid/lite/opencl/cl_engine.h" #include #include #include #include namespace paddle { namespace lite { CLEngine* CLEngine::Global() { static CLEngine cl_engine_; cl_engine_.Init(); return &cl_engine_; } CLEngine::~CLEngine() { if (command_queue_ != nullptr) { command_queue_->finish(); } // For controlling the destruction order: command_queue_.reset(); context_.reset(); device_.reset(); platform_.reset(); } bool CLEngine::Init() { if (initialized_) { return true; } bool is_platform_init = InitializePlatform(); bool is_device_init = InitializeDevice(); is_init_success_ = is_platform_init && is_device_init; initialized_ = true; return initialized_; } cl::Platform& CLEngine::platform() { CHECK(platform_ != nullptr) << "platform_ is not initialized!"; return *platform_; } cl::Context& CLEngine::context() { if (context_ == nullptr) { context_ = CreateContext(); } return *context_; } cl::Device& CLEngine::device() { CHECK(device_ != nullptr) << "device_ is not initialized!"; return *device_; } cl::CommandQueue& CLEngine::command_queue() { if (command_queue_ == nullptr) { command_queue_ = CreateCommandQueue(context()); } return *command_queue_; } std::unique_ptr CLEngine::CreateProgram(const cl::Context& context, std::string file_name) { std::ifstream file{file_name, std::ios::binary | std::ios::ate}; CHECK(file.is_open()) << "Can't open file from " << file_name; auto size = file.tellg(); CHECK(size > 0) << "size is too small."; std::string content(size, '\0'); file.seekg(0); file.read(&content[0], size); cl::Program::Sources sources; sources.push_back(content); auto prog = std::unique_ptr(new cl::Program(context, sources, &status_)); LOG(INFO) << "OpenCL kernel file name: " << file_name; LOG(INFO) << "Program source size: " << content.size(); CL_CHECK_ERRORS(status_); return std::move(prog); } std::unique_ptr CLEngine::CreateEvent( const cl::Context& context) { auto event = std::unique_ptr(new cl::UserEvent(context, &status_)); CL_CHECK_ERRORS(status_); return std::move(event); } bool CLEngine::BuildProgram(cl::Program* program, const std::string& options) { std::string build_option = options + " -cl-fast-relaxed-math -I " + CLEngine::Global()->cl_path() + "/cl_kernel"; status_ = program->build({*device_}, build_option.c_str()); CL_CHECK_ERRORS(status_); if (status_ != CL_SUCCESS) { if (program->getBuildInfo(device()) == CL_BUILD_ERROR) { std::string log = program->getBuildInfo(device()); LOG(INFO) << "Program build error: " << log; } return false; } return true; } bool CLEngine::InitializePlatform() { std::vector all_platforms; status_ = cl::Platform::get(&all_platforms); CL_CHECK_ERRORS(status_); if (all_platforms.empty()) { LOG(ERROR) << "No OpenCL platform found!"; return false; } platform_ = std::make_shared(); *platform_ = all_platforms[0]; return true; } bool CLEngine::InitializeDevice() { std::vector all_devices; status_ = platform_->getDevices(CL_DEVICE_TYPE_GPU, &all_devices); CL_CHECK_ERRORS(status_); if (all_devices.empty()) { LOG(ERROR) << "No OpenCL GPU device found!"; return false; } device_ = std::make_shared(); *device_ = all_devices[0]; auto device_name = device_->getInfo(); LOG(INFO) << "Using device: " << device_name; auto image_support = device_->getInfo(); if (image_support) { LOG(INFO) << "The chosen device supports image processing."; } else { LOG(ERROR) << "The chosen device doesn't support image processing!"; return false; } auto ext_data = device_->getInfo(); LOG(INFO) << "The extensions supported by this device: " << ext_data; if (ext_data.find("cl_khr_fp16") != std::string::npos) { LOG(INFO) << "The chosen device supports the half data type."; } else { LOG(ERROR) << "The chosen device doesn't support the half data type!"; return false; } auto max_units = device_->getInfo(); LOG(INFO) << "The chosen device has " << max_units << " compute units."; auto local_mem = device_->getInfo(); LOG(INFO) << "The local memory size of the chosen device is " << static_cast(local_mem) / 1024 << " KB."; return true; } } // namespace lite } // namespace paddle