/* 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 #include "paddle/fluid/framework/device_worker.h" namespace paddle { namespace framework { class LoDTensor; class Scope; class Variable; std::shared_ptr PullDenseWorker::s_instance_ = NULL; std::mutex PullDenseWorker::mutex_for_version_; std::map PullDenseWorker::last_versions_; std::map PullDenseWorker::current_version_; std::map> PullDenseWorker::training_versions_; std::map> PullDenseWorker::dense_value_names_; void PullDenseWorker::Initialize(const TrainerDesc& param) { running_ = false; param_ = param.pull_dense_param(); dwp_param_ = param.downpour_param(); threshold_ = param_.threshold(); thread_num_ = param_.device_num(); sleep_time_ms_ = param_.sleep_time_ms(); for (int i = 0; i < dwp_param_.program_config(0).pull_dense_table_id_size(); ++i) { uint64_t tid = static_cast( dwp_param_.program_config(0).pull_dense_table_id(i)); TableParameter table; for (auto i : param_.dense_table()) { if (i.table_id() == tid) { table = i; break; } } // setup dense variables for each table int var_num = table.dense_value_name_size(); dense_value_names_[tid].resize(var_num); for (int j = 0; j < var_num; ++j) { dense_value_names_[tid][j] = table.dense_value_name(j); } // setup training version for each table training_versions_[tid].resize(thread_num_, 0); last_versions_[tid] = 0; current_version_[tid] = 0; } fleet_ptr_ = FleetWrapper::GetInstance(); #ifdef PADDLE_WITH_CUDA copy_streams_.clear(); #endif #if (defined PADDLE_WITH_CUDA) || (defined PADDLE_WITH_XPU) places_.clear(); thread_scopes_.clear(); #endif } void PullDenseWorker::CreatePinVar() { #if (defined PADDLE_WITH_CUDA) || (defined PADDLE_WITH_PSLIB) // for (auto& v : dense_value_names_) { // for (auto& name : v.second) { for (int i = 0; i < dwp_param_.program_config(0).pull_dense_table_id_size(); ++i) { uint64_t tid = static_cast( dwp_param_.program_config(0).pull_dense_table_id(i)); for (size_t j = 0; j < dense_value_names_[tid].size(); j++) { auto& name = dense_value_names_[tid][j]; Variable* var = root_scope_->FindVar(name); LoDTensor* tensor = var->GetMutable(); auto* ptr = root_scope_->Var(name + "pin"); InitializeVariable(ptr, proto::VarType::LOD_TENSOR); LoDTensor* pin_tensor = ptr->GetMutable(); #ifdef PADDLE_WITH_CUDA pin_tensor->mutable_data(tensor->dims(), platform::CUDAPinnedPlace()); #endif #ifdef PADDLE_WITH_XPU pin_tensor->mutable_data(tensor->dims(), platform::CPUPlace()); #endif } } #endif } void PullDenseWorker::Wait(std::vector<::std::future>* status_vec) { for (auto& t : *status_vec) { t.wait(); auto status = t.get(); if (status != 0) { LOG(WARNING) << "Current Pull Dense Thread Failed Times" << ++pull_dense_fail_times_; } } size_t MAX_FAIL_NUM = 20; if (pull_dense_fail_times_ > MAX_FAIL_NUM) { PADDLE_THROW(platform::errors::Fatal( "Pull dense failed more than %d times.", MAX_FAIL_NUM)); exit(-1); } status_vec->resize(0); #if (defined PADDLE_WITH_CUDA) || (defined PADDLE_WITH_XPU) for (size_t i = 0; i < places_.size(); ++i) { // for (auto& v : dense_value_names_) { // for (auto& name : v.second) { for (int x = 0; x < dwp_param_.program_config(0).pull_dense_table_id_size(); ++x) { uint64_t tid = static_cast( dwp_param_.program_config(0).pull_dense_table_id(x)); for (size_t j = 0; j < dense_value_names_[tid].size(); j++) { auto& name = dense_value_names_[tid][j]; Variable* pin_var = root_scope_->FindVar(name + "pin"); LoDTensor* pin_tensor = pin_var->GetMutable(); float* pin_w = pin_tensor->data(); Variable* var = thread_scopes_[i]->FindVar(name); LoDTensor* tensor = var->GetMutable(); float* w = tensor->data(); #ifdef PADDLE_WITH_CUDA memory::Copy(BOOST_GET_CONST(platform::CUDAPlace, places_[i]), w, platform::CUDAPinnedPlace(), pin_w, sizeof(float) * tensor->numel(), copy_streams_[i]); #endif #ifdef PADDLE_WITH_XPU memory::Copy(BOOST_GET_CONST(platform::XPUPlace, places_[i]), w, platform::CPUPlace(), pin_w, sizeof(float) * tensor->numel()); #endif } } } #endif } void PullDenseWorker::Stop() { if (running_) { running_ = false; t_.join(); } } void PullDenseWorker::PullDense(bool force_update) { pull_dense_status_.resize(0); for (int i = 0; i < dwp_param_.program_config(0).pull_dense_table_id_size(); ++i) { uint64_t tid = static_cast( dwp_param_.program_config(0).pull_dense_table_id(i)); if (force_update || CheckUpdateParam(tid)) { #if (defined PADDLE_WITH_CUDA) || (defined PADDLE_WITH_XPU) VLOG(3) << "pull dense " << force_update << " " << tid; fleet_ptr_->PullDenseVarsAsync(*root_scope_, tid, dense_value_names_[tid], &pull_dense_status_, false); #else fleet_ptr_->PullDenseVarsAsync(*root_scope_, tid, dense_value_names_[tid], &pull_dense_status_, true); #endif ResetThreadVersion(tid); } } if (pull_dense_status_.size() != 0) { Wait(&pull_dense_status_); } } int PullDenseWorker::Start() { running_ = true; // before training, we can pull dense from pserver first. PullDense(true); t_ = std::thread(&PullDenseWorker::Run, this); return 0; } void PullDenseWorker::Run() { while (running_) { PullDense(false); #ifndef _WIN32 usleep(sleep_time_ms_ * 1000); #endif } } void PullDenseWorker::IncreaseThreadVersion(int thread_id, uint64_t table_id) { std::lock_guard lock(mutex_for_version_); training_versions_[table_id][thread_id]++; } bool PullDenseWorker::CheckUpdateParam(uint64_t table_id) { std::lock_guard lock(mutex_for_version_); auto& version = training_versions_[table_id]; current_version_[table_id] = *(std::min_element(version.begin(), version.end())); if (current_version_[table_id] - last_versions_[table_id] < static_cast(threshold_)) { return false; } return true; } void PullDenseWorker::ResetThreadVersion(uint64_t table_id) { std::lock_guard lock(mutex_for_version_); last_versions_[table_id] = current_version_[table_id]; } int PullDenseWorker::GetThreadIdByScope(const Scope* scope) { if (scope_to_thread_id_.find(scope) != scope_to_thread_id_.end()) { return scope_to_thread_id_[scope]; } return -1; } void PullDenseWorker::SetThreadIdByScope(const Scope* scope, int tid) { scope_to_thread_id_[scope] = tid; } } // namespace framework } // namespace paddle