communicator.cc 46.8 KB
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/* Copyright (c) 2019 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/operators/distributed/communicator.h"
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#include <gflags/gflags.h>
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#include <paddle/fluid/framework/program_desc.h>
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#include <chrono>  // NOLINT
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#include <map>
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#include <thread>  // NOLINT
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#include <unordered_set>
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#include "paddle/fluid/framework/eigen.h"
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#include "paddle/fluid/framework/selected_rows.h"
#include "paddle/fluid/framework/tensor_util.h"
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#include "paddle/fluid/framework/threadpool.h"
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#include "paddle/fluid/framework/variable_helper.h"
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#include "paddle/fluid/operators/distributed/distributed.h"
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#include "paddle/fluid/operators/distributed/parameter_recv.h"
#include "paddle/fluid/operators/distributed/parameter_send.h"
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#include "paddle/fluid/string/printf.h"
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#include "paddle/fluid/string/split.h"
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namespace paddle {
namespace operators {
namespace distributed {

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using Tree =
    std::map<std::string, std::map<std::string, std::vector<std::string>>>;
using RpcCtxMap = operators::distributed::RpcCtxMap;

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inline double GetCurrentUS() {
  struct timeval time;
  gettimeofday(&time, NULL);
  return 1e+6 * time.tv_sec + time.tv_usec;
}

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template <typename T>
inline void VSUB(int n, const T *x, const T *y, T *z) {
  for (int i = 0; i < n; ++i) {
    z[i] = x[i] - y[i];
  }
}

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Communicator::Communicator() {}
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Communicator::Communicator(const std::map<std::string, std::string> &envs_) {
  for (auto &iter : envs_) {
    envs[iter.first] = iter.second;
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  }
}

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std::once_flag Communicator::init_flag_;
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std::shared_ptr<Communicator> Communicator::communicator_(nullptr);
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void AsyncCommunicator::InitImpl(const RpcCtxMap &send_varname_to_ctx,
                                 const RpcCtxMap &recv_varname_to_ctx,
                                 Scope *recv_scope) {
  send_varname_to_ctx_ = std::move(send_varname_to_ctx);
  recv_varname_to_ctx_ = std::move(recv_varname_to_ctx);
  recv_scope_ = std::move(recv_scope);

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  if (send_varname_to_ctx.size() == 0) {
    VLOG(0) << "nothing need to be send, will not start send_thread";
  } else {
    send_scope_.reset(new Scope());
    for (auto &iter : send_varname_to_ctx_) {
      send_varname_to_queue_[iter.first] =
          std::make_shared<BlockingQueue<std::shared_ptr<Variable>>>(
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              send_queue_size_);
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    }
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    send_threadpool_.reset(new ::ThreadPool(thread_pool_size_));
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  }

  if (recv_varname_to_ctx.size() == 0) {
    VLOG(0) << "nothing need to be received, will not start recv_thread";
  } else {
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    recv_threadpool_.reset(new ::ThreadPool(thread_pool_size_));
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  }
}

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void AsyncCommunicator::InitImpl(const paddle::framework::ProgramDesc &program,
                                 Scope *param_scope) {
  RpcCtxMap send_varname_to_ctx;
  RpcCtxMap recv_varname_to_ctx;
  for (auto *op : program.Block(0).AllOps()) {
    VLOG(3) << "node name " << op->Type();
    if (op->Type() == "send") {
      auto send_var_name = op->Input("X")[0];
      auto send_varnames = boost::get<std::vector<std::string>>(
          op->GetNullableAttr("send_varnames"));
      auto epmap =
          boost::get<std::vector<std::string>>(op->GetNullableAttr("epmap"));
      auto height_section =
          boost::get<std::vector<int64_t>>(op->GetNullableAttr("sections"));
      auto trainer_id = boost::get<int>(op->GetNullableAttr("trainer_id"));
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      auto merge_add = boost::get<bool>(op->GetNullableAttr("merge_add"));
      if (!merge_add) {
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        merge_add = is_sgd_optimizer_;
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      }
      auto use_send_handler =
          boost::get<bool>(op->GetNullableAttr("use_send_handler"));
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      send_varname_to_ctx[send_var_name] = operators::distributed::RpcContext(
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          send_var_name, send_varnames, epmap, height_section, trainer_id,
          merge_add, use_send_handler);
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      VLOG(3) << "find and init an send op: "
              << send_varname_to_ctx[send_var_name];
    } else if (op->Type() == "recv") {
      auto do_not_run = boost::get<int>(op->GetNullableAttr("do_not_run"));
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      PADDLE_ENFORCE_GT(do_not_run, 0,
                        platform::errors::InvalidArgument(
                            "recv op's attr `do_not_run` must be True!"));
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      auto recv_var_name = op->Output("Out")[0];
      auto recv_varnames = boost::get<std::vector<std::string>>(
          op->GetNullableAttr("recv_varnames"));
      auto epmap =
          boost::get<std::vector<std::string>>(op->GetNullableAttr("epmap"));
      auto trainer_id = boost::get<int>(op->GetNullableAttr("trainer_id"));
      recv_varname_to_ctx[recv_var_name] = operators::distributed::RpcContext(
          recv_var_name, recv_varnames, epmap, {}, trainer_id);
    }
  }

  // init communicator here
  if (send_varname_to_ctx.size() == 0 && recv_varname_to_ctx.size() == 0) {
    LOG(WARNING) << "no var need to send and recv!!";
  }

  operators::distributed::AsyncCommunicator::InitImpl(
      send_varname_to_ctx, recv_varname_to_ctx, param_scope);
}

AsyncCommunicator::~AsyncCommunicator() {
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  running_ = false;
  if (send_thread_) send_thread_->join();
  if (recv_thread_) recv_thread_->join();
}

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void AsyncCommunicator::SendThread() {
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  VLOG(3) << "SendThread start!";
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  while (running_) {
    std::vector<std::future<void>> task_futures;
    task_futures.reserve(send_varname_to_ctx_.size());
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    VLOG(4) << "run send graph";
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    auto before_run_send_graph = GetCurrentUS();
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    for (auto &iter : send_varname_to_queue_) {
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      auto &var_name = iter.first;
      auto &var_queue = iter.second;
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      if (var_queue->Size() > 0) {
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        auto send_task = [this, &var_name, &var_queue] {
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          VLOG(4) << var_name << " merge and send";
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          std::vector<std::shared_ptr<Variable>> vars;
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          int merged_var_num = 0;
          int wait_times = 0;
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          while (merged_var_num < max_merge_var_num_) {
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            if (var_queue->Size() == 0) {
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              VLOG(4) << "wait_times -> " << wait_times;
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              if (wait_times >= send_wait_times_) {
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                break;
              }
              std::this_thread::sleep_for(std::chrono::milliseconds(10));
              wait_times++;
              continue;
            } else {
              wait_times = 0;

              vars.push_back(var_queue->Pop());
              // only count the send number of the first var
              if (var_name == send_varname_to_queue_.begin()->first) {
                grad_num_.fetch_add(1, std::memory_order_relaxed);
              }
              merged_var_num++;
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            }
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          }
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          auto before_merge = GetCurrentUS();
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          auto &ctx = send_varname_to_ctx_.at(var_name);
          if (ctx.use_send_handler) {
            MergeVars<float>(var_name, vars, send_scope_.get(), ctx.merge_add);
          } else {
            MergeVars<int64_t>(var_name, vars, send_scope_.get(),
                               ctx.merge_add);
          }
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          auto after_merge = GetCurrentUS();
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          VLOG(4) << "merge " << merged_var_num << " " << var_name
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                  << " use time " << after_merge - before_merge;
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          auto send_functor = distributed::ParameterSend<float>();
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          send_functor(ctx, *send_scope_, true, 1);
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          auto after_send = GetCurrentUS();
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          VLOG(4) << "send " << var_name << " use time "
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                  << after_send - after_merge;
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        };
        task_futures.emplace_back(
            send_threadpool_->enqueue(std::move(send_task)));
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      } else {
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        VLOG(4) << var_name << " queue empty";
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      }
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    }
    for (auto &task_f : task_futures) {
      task_f.wait();
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    }
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    auto after_run_send_graph = GetCurrentUS();
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    VLOG(4) << "run send graph use time "
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            << after_run_send_graph - before_run_send_graph;
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    Recv();
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  }
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  VLOG(0) << "communicator stopped, send thread exit";
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}

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void AsyncCommunicator::RecvThread() {
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  VLOG(3) << "RecvThread start!";
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  while (running_) {
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    int grad_num = grad_num_.load();
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    if (grad_num > min_send_grad_num_before_recv_) {
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      VLOG(1) << "current grad num " << grad_num;
      RecvAll();
      grad_num_.store(0);
    } else {
      std::this_thread::sleep_for(std::chrono::milliseconds(10));
    }
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  }
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  VLOG(0) << "communicator stopped, recv thread exit";
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}

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void AsyncCommunicator::Recv() {
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  if (independent_recv_thread_) {
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    return;
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  }

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  auto grad_num = grad_num_.load();
  if (grad_num > 0) {
    RecvAll();
    grad_num_.store(0);
  } else {
    std::this_thread::sleep_for(std::chrono::milliseconds(10));
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  }
}

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void AsyncCommunicator::RecvAll() {
  VLOG(3) << "parallel run recv graph";
  if (!running_) return;
  auto before_send = GetCurrentUS();
  std::vector<std::future<void>> task_futures;
  task_futures.reserve(recv_varname_to_ctx_.size());
  for (auto &iter : recv_varname_to_ctx_) {
    auto recv_task = [this, &iter] {
      auto &var_name = iter.first;
      VLOG(4) << "recv var " << var_name;
      auto recv_functor = distributed::ParameterRecv<float>();
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      recv_functor(iter.second, *recv_scope_);
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    };
    task_futures.emplace_back(recv_threadpool_->enqueue(std::move(recv_task)));
  }
  for (auto &task : task_futures) {
    task.wait();
  }
  auto after_recv = GetCurrentUS();
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  VLOG(3) << "run recv graph use time " << after_recv - before_send;
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}

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void AsyncCommunicator::Start() {
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  VLOG(0) << "Communicator start";
  if (!communicator_) {
    VLOG(0) << "Communicator is not inited, do nothing";
  } else {
    VLOG(1) << "start send thread and recv thread";
    running_ = true;
    // start send and recv thread
    send_thread_.reset(
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        new std::thread(std::bind(&AsyncCommunicator::SendThread, this)));
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    if (independent_recv_thread_) {
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      recv_thread_.reset(
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          new std::thread(std::bind(&AsyncCommunicator::RecvThread, this)));
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    }
  }
}

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void AsyncCommunicator::Stop() {
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  VLOG(0) << "Communicator stop";
  running_ = false;
  if (!communicator_) {
    VLOG(0) << "Communicator is not inited, do nothing";
  } else {
    if (send_thread_) {
      VLOG(1) << "stop send thread";
      send_thread_->join();
      send_thread_.reset(nullptr);
    }
    if (recv_thread_) {
      VLOG(1) << "stop recv thread";
      recv_thread_->join();
      recv_thread_.reset(nullptr);
    }
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  }
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  VLOG(0) << "Communicator stop done";
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}

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void AsyncCommunicator::Send(const std::vector<std::string> &var_names,
                             const std::vector<std::string> &var_tables,
                             const framework::Scope &scope) {
  PADDLE_ENFORCE_EQ(
      var_names.size(), 1,
      platform::errors::InvalidArgument("var_names.size() == 1 is permitted"));
  auto var_name = var_names[0];
  // push var into send queue by var_name
  auto *grad_var = scope.FindVar(var_name);
  PADDLE_ENFORCE_EQ(
      grad_var->IsInitialized(), true,
      platform::errors::InvalidArgument("grad var should be inited"));

  auto tmp_grad_var = std::make_shared<Variable>();
  framework::CopyVariable(*grad_var, tmp_grad_var.get());
  auto &queue = send_varname_to_queue_.at(var_name);
  VLOG(3) << "send " << var_name << " queue size " << queue->Size();
  queue->Push(tmp_grad_var);
}
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GeoSgdCommunicator::~GeoSgdCommunicator() {
  running_ = false;
  if (send_thread_) send_thread_->join();
}

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void GeoSgdCommunicator::InitImpl(const paddle::framework::ProgramDesc &program,
                                  Scope *recv_scope) {
  training_scope_ = std::move(recv_scope);

  auto geo_send_varnames = envs["geo_send_varnames"];
  auto varnames = paddle::string::Split(geo_send_varnames, '#');

  for (auto &var_name : varnames) {
    auto var_attr_str = envs.at(var_name);
    auto var_attrs = paddle::string::Split(var_attr_str, '#');
    auto split_varnames = paddle::string::Split(var_attrs[0], '&');
    auto sections = paddle::string::Split(var_attrs[1], '&');
    auto endpoints = paddle::string::Split(var_attrs[2], '&');
    bool is_sparse = static_cast<bool>(std::stoi(var_attrs[3]));

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    std::string send_var_name = VarToDeltaVar(var_name);
    std::vector<std::string> send_var_names;
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    for (auto origin_var_name : split_varnames) {
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      send_var_names.push_back(VarToDeltaVar(origin_var_name));
    }

    std::vector<int64_t> vars_sections_int = {};
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    for (std::string str : sections) {
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      int64_t str2i = std::stol(str.c_str());
      vars_sections_int.push_back(str2i);
    }

    var_list_[var_name] = is_sparse;
    send_varname_to_ctx_[send_var_name] = operators::distributed::RpcContext(
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        send_var_name, send_var_names, endpoints, vars_sections_int, 0);
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    recv_varname_to_ctx_[var_name] = operators::distributed::RpcContext(
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        var_name, split_varnames, endpoints, vars_sections_int, 0);
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    absolute_section_[var_name] = operators::ToAbsoluteSection(
        send_varname_to_ctx_[send_var_name].height_sections);

    vars_first_dimension_[var_name] = 0;
    for (int64_t section : vars_sections_int) {
      vars_first_dimension_[var_name] += section;
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    }
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    send_var_nums_ += split_varnames.size();
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  }

  if (send_varname_to_ctx_.size() == 0 && recv_varname_to_ctx_.size() == 0) {
    LOG(WARNING) << "no var need to send and recv!!";
  }

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  send_threadpool_.reset(new ::ThreadPool(thread_pool_size_));
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  need_push_queue_ =
      std::make_shared<BlockingQueue<std::shared_ptr<SparseIdsMap>>>(
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          geo_need_push_nums_);
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  delta_scope_.reset(new Scope());
  old_scope_.reset(new Scope());
  pserver_scope_.reset(new Scope());
}

void GeoSgdCommunicator::Start() {
  VLOG(0) << "Geo Sgd Communicator start";
  if (!communicator_) {
    VLOG(0) << "Geo Sgd Communicator is not inited, do nothing";
  } else {
    VLOG(0) << "start send thread ";
    running_ = true;
    // start send and recv thread
    send_thread_.reset(
        new std::thread(std::bind(&GeoSgdCommunicator::SendThread, this)));
  }
}

void GeoSgdCommunicator::Stop() {
  VLOG(0) << "Geo Sgd Communicator stop";
  running_ = false;
  if (!communicator_) {
    VLOG(0) << "Geo Sgd Communicator is not inited, do nothing";
  } else {
    if (send_thread_) {
      VLOG(1) << "stop send thread";
      send_thread_->join();
      send_thread_.reset(nullptr);
    }
  }
  VLOG(0) << "Geo Sgd Communicator stop done";
}

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void GeoSgdCommunicator::Send(const std::vector<std::string> &sparse_var_names,
                              const std::vector<std::string> &sparse_var_tables,
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                              const framework::Scope &scope) {
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  if (sparse_var_names.size() == 1 && sparse_var_names[0] == "param_init") {
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    for (auto &iter : var_list_) {
      // For sparse param, old_scope store LoDTensor,
      // pserver_scope store SelectedRows.
      auto local_var_name = iter.first;
      if (var_list_[local_var_name] == true) {
        GeoSgdSparseParamInit(training_scope_, pserver_scope_.get(),
                              local_var_name);
      } else {
        GeoSgdDenseParamInit(training_scope_, pserver_scope_.get(),
                             local_var_name);
      }
      GeoSgdDenseParamInit(training_scope_, old_scope_.get(), local_var_name);
    }
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    return;
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  }

  std::shared_ptr<SparseIdsMap> ids_table = std::make_shared<SparseIdsMap>();
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  auto before_run_send = GetCurrentUS();
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  for (size_t i = 0; i < sparse_var_tables.size(); i++) {
    if (ids_table->find(sparse_var_tables[i]) == ids_table->end()) {
      // create empty set for new sparse var
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      auto splited_var_nums =
          recv_varname_to_ctx_[sparse_var_tables[i]].splited_var_names.size();
      ids_table->insert(
          std::pair<std::string, std::vector<std::unordered_set<int64_t>>>(
              sparse_var_tables[i],
              std::vector<std::unordered_set<int64_t>>{splited_var_nums}));
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    }
    auto *var = scope.FindVar(sparse_var_names[i]);
    auto var_tensor = var->Get<framework::LoDTensor>();
    int element_number = var_tensor.numel();
    int *var_mutable_data = var_tensor.mutable_data<int>(var_tensor.place());
    // insert ids which has not been record
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    for (int j = 0; j < element_number; j++) {
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      auto ep_idx = GetSectionIndex(var_mutable_data[j],
                                    absolute_section_[sparse_var_tables[i]]);
      ids_table->at(sparse_var_tables[i])[ep_idx].insert(var_mutable_data[j]);
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      VLOG(4) << "Sparse var " << sparse_var_tables[i] << " insert "
              << var_mutable_data[j];
    }
  }
  need_push_queue_->Push(ids_table);
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  auto after_run_send = GetCurrentUS();
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  VLOG(4) << "run send_op use time " << after_run_send - before_run_send;
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}

void GeoSgdCommunicator::SendThread() {
  VLOG(0) << "SendThread start!";
  auto before_run_training = GetCurrentUS();

  while (running_) {
    std::vector<std::future<void>> task_futures;
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    task_futures.reserve(send_var_nums_);
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    int wait_times = 0;
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    while (ids_send_vec_.size() < static_cast<size_t>(geo_need_push_nums_)) {
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      VLOG(4) << "ids_send_vec_ Size: " << ids_send_vec_.size();
      if (need_push_queue_->Size() > 0) {
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        wait_times = 0;
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        ids_send_vec_.push_back(*(need_push_queue_->Pop()));
        VLOG(4) << "ids_send_vec_ pushed";
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      } else if (need_push_queue_->Size() == 0) {
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        VLOG(4) << "wait_times -> " << wait_times;
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        if (wait_times >= send_wait_times_) {
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          break;
        }
        std::this_thread::sleep_for(std::chrono::milliseconds(10));
        wait_times++;
        continue;
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      }
    }

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    if (ids_send_vec_.size() >= static_cast<size_t>(geo_need_push_nums_)) {
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      auto after_run_training = GetCurrentUS();
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      VLOG(4) << "run Training use time "
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              << after_run_training - before_run_training;
      before_run_training = GetCurrentUS();
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      VLOG(4) << "Start send after get need_push_num";
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      for (auto &iter : send_varname_to_ctx_) {
        auto &var_name = iter.first;
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        if (var_list_[DeltaVarToVar(var_name)] == true) {
          // sparse var: merge->send->recv
          for (auto &splited_var_name : iter.second.splited_var_names) {
            auto send_task = [this, &var_name, &splited_var_name] {
              auto before_run_geo = GetCurrentUS();
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              VLOG(4) << "ids_send_vec_ size: " << ids_send_vec_.size();
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              auto ids_set =
                  SparseIdsMerge(ids_send_vec_, var_name, splited_var_name);
              SendUpdateSparseVars(var_name, splited_var_name, ids_set);
              RecvUpdateSparseVars(var_name, splited_var_name);
              auto after_run_geo = GetCurrentUS();
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              VLOG(3) << "run GEO-SGD var " << splited_var_name << " use time "
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                      << after_run_geo - before_run_geo;
            };
            task_futures.emplace_back(
                send_threadpool_->enqueue(std::move(send_task)));
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          }
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        } else {
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          for (auto &splited_var_name : iter.second.splited_var_names) {
            auto send_task = [this, &var_name, &splited_var_name] {
              auto before_run_geo = GetCurrentUS();
              SendUpdateDenseVars(var_name, splited_var_name);
              RecvUpdateDenseVars(var_name, splited_var_name);
              auto after_run_geo = GetCurrentUS();
              VLOG(3) << "run GEO-SGD var " << splited_var_name << " use time "
                      << after_run_geo - before_run_geo;
            };
            task_futures.emplace_back(
                send_threadpool_->enqueue(std::move(send_task)));
          }
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        }
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      }
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      for (auto &task_f : task_futures) {
        task_f.wait();
      }
      ids_send_vec_.clear();
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    }
  }
}

std::unordered_set<int64_t> GeoSgdCommunicator::SparseIdsMerge(
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    const std::vector<SparseIdsMap> &ids_send_vec, const std::string &var_name,
    const std::string &splited_var_name) {
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  // every batch has some sparse id, merge them into one unoredered_set
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  VLOG(4) << "Sparse Ids merge var: " << var_name
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          << " splited var: " << splited_var_name;
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  auto before_run_ids_merge_ = GetCurrentUS();
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  auto origin_var_name = DeltaVarToVar(var_name);
  auto splited_var_index = GetSplitedVarIndex(var_name, splited_var_name);
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  std::unordered_set<int64_t> ids_set;
  for (auto ids_map : ids_send_vec) {
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    for (auto id : ids_map[origin_var_name][splited_var_index]) {
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      ids_set.insert(id);
    }
  }
  auto after_run_ids_merge_ = GetCurrentUS();
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  VLOG(4) << "run SparseIdsMerge " << splited_var_name << " has nums "
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          << ids_set.size() << " use time "
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          << after_run_ids_merge_ - before_run_ids_merge_;
  return ids_set;
}

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void GeoSgdCommunicator::SendUpdateDenseVars(
    const std::string &var_name, const std::string &splited_var_name) {
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  // calc var_delata = (var_training - var_old)/trainer_nums
  // calc var_old += var_delta
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  // var_name: param.delta
  auto origin_var_name = DeltaVarToVar(var_name);
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  auto splited_var_index = GetSplitedVarIndex(var_name, splited_var_name);
  VLOG(4) << "Dense var: " << var_name
          << " 's splited var: " << splited_var_name
          << " splited var index: " << splited_var_index;
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  auto before_run_send_dense = GetCurrentUS();
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  auto cpu_ctx = paddle::platform::CPUDeviceContext();
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  auto *var_x = training_scope_->FindVar(origin_var_name);
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  auto var_x_tensor = var_x->Get<framework::LoDTensor>();

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  auto *var_y = old_scope_->FindVar(origin_var_name);
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  auto var_y_tensor = var_y->Get<framework::LoDTensor>();

  auto dims = var_x_tensor.dims();
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  auto total_element = var_x_tensor.numel();
  int64_t section = 0;
  int64_t begin_loc = 0;
  int64_t dimension = 0;

  size_t out_num = send_varname_to_ctx_[var_name].height_sections.size();
  if (out_num > 1) {
    section = send_varname_to_ctx_[var_name].height_sections[splited_var_index];
    dims[0] = section;
    begin_loc = absolute_section_[origin_var_name][splited_var_index];
    dimension = total_element / vars_first_dimension_[origin_var_name];
    total_element = section * dimension;
    VLOG(4) << "Dense splited var: " << splited_var_name
            << " section: " << section << " dimension: " << dimension
            << " begin loc: " << begin_loc << " total_element "
            << total_element;
  }
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  auto *var_x_data = var_x_tensor.mutable_data<float>(var_x_tensor.place()) +
                     begin_loc * dimension;
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_x_data[0] "
          << var_x_data[0] << " var_x_data[end] "
          << var_x_data[total_element - 1];
  auto *var_y_data = var_y_tensor.mutable_data<float>(var_y_tensor.place()) +
                     begin_loc * dimension;
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_y_data[0] "
          << var_y_data[0] << " var_y_data[end] "
          << var_y_data[total_element - 1];
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  // create delta var in delta scope
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  auto *var_z_tensor =
      delta_scope_->Var(splited_var_name)->GetMutable<framework::LoDTensor>();
  var_z_tensor->Resize(dims);
  var_z_tensor->mutable_data<float>(dims, cpu_ctx.GetPlace());
  auto *var_z_data = var_z_tensor->mutable_data<float>(cpu_ctx.GetPlace());
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  VLOG(4) << "Dense splited var: " << splited_var_name << "var_z_data[0] "
          << var_z_data[0] << " var_z_data[end] "
          << var_z_data[total_element - 1];
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  // calc sub = var_training - var_old
  auto blas = math::GetBlas<paddle::platform::CPUDeviceContext, float>(cpu_ctx);
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  blas.VSUB(total_element, var_x_data, var_y_data, var_z_data);
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_z_data[0] "
          << var_z_data[0] << " var_z_data[end] "
          << var_z_data[total_element - 1];
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  // calc var_delta = sub / trainer_nums
  float trainer_param = 1.0 / static_cast<float>(trainer_nums_);
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  blas.SCAL(total_element, trainer_param, var_z_data);
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  // calc var_old += var_delta
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  blas.VADD(total_element, var_y_data, var_z_data, var_y_data);
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_y_data[0] "
          << var_y_data[0] << " var_y_data[end] "
          << var_y_data[total_element - 1];
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  auto after_run_send_dense = GetCurrentUS();
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  VLOG(4) << "run send update dense var " << var_name << " use time "
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          << after_run_send_dense - before_run_send_dense;
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  auto before_send_dense = GetCurrentUS();
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  RpcSend(var_name, splited_var_name, splited_var_index);
  auto after_send_dense = GetCurrentUS();
  VLOG(4) << "send " << splited_var_name << " use time "
          << after_send_dense - before_send_dense;
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}

void GeoSgdCommunicator::SendUpdateSparseVars(
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    const std::string &var_name, const std::string &splited_var_name,
    const std::unordered_set<int64_t> &ids_table) {
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  // calc var_delata = (var_training - var_old)/trainer_nums
  // calc var_old += var_delta
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  // var_name: param.delta, splited_var_name: param.block0.delta
  // origin_var_name: param
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  auto before_run_send_sparse = GetCurrentUS();

  auto ids_num = ids_table.size();
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  VLOG(4) << "Sparse Ids nums is : " << ids_num;
  auto origin_var_name = DeltaVarToVar(var_name);

  auto *var_x = training_scope_->FindVar(origin_var_name);
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  auto var_x_tensor = var_x->Get<framework::LoDTensor>();

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  auto *var_y = old_scope_.get()->FindVar(origin_var_name);
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  auto var_y_tensor = var_y->Get<framework::LoDTensor>();

  auto dims = var_x_tensor.dims();
  auto row_numel = dims[1];

  float *x_value = var_x_tensor.mutable_data<float>(var_x_tensor.place());
  float *y_value = var_y_tensor.mutable_data<float>(var_y_tensor.place());

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  auto *var_z = delta_scope_->Var(splited_var_name);
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  auto *var_z_select_rows = var_z->GetMutable<framework::SelectedRows>();
  auto *var_z_value = var_z_select_rows->mutable_value();
  var_z_value->Resize({static_cast<int64_t>(ids_num), row_numel});
  auto *z_value = var_z_value->mutable_data<float>(var_x_tensor.place());

  std::vector<int64_t> new_rows;
  new_rows.insert(new_rows.begin(), ids_table.begin(), ids_table.end());
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  auto cpu_ctx = paddle::platform::CPUDeviceContext();
  auto blas = math::GetBlas<paddle::platform::CPUDeviceContext, float>(cpu_ctx);
  float avg = 1 / static_cast<float>(trainer_nums_);
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  for (size_t y = 0; y < new_rows.size(); y++) {
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    auto ids = new_rows[y];

    float *x_val = x_value + ids * row_numel;
    float *y_val = y_value + ids * row_numel;
    float *z_val = z_value + y * row_numel;

    std::vector<float> row_delta(row_numel, 0);
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    blas.VSUB(row_numel, x_val, y_val, row_delta.data());
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    blas.SCAL(row_numel, avg, row_delta.data());
    blas.VADD(row_numel, row_delta.data(), y_val, y_val);
    blas.VCOPY(row_numel, row_delta.data(), z_val);
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  }
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  auto after_run_send_sparse = GetCurrentUS();
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  VLOG(4) << "run send update sparse var " << splited_var_name << " use time "
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          << after_run_send_sparse - before_run_send_sparse;
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  auto splited_var_index = GetSplitedVarIndex(var_name, splited_var_name);
  std::vector<int64_t> send_rows;
  send_rows.reserve(new_rows.size());
  for (auto idx : new_rows) {
    send_rows.push_back(idx -
                        absolute_section_[origin_var_name][splited_var_index]);
  }
  var_z_select_rows->set_rows(send_rows);
  var_z_select_rows->set_height(
      send_varname_to_ctx_[var_name].height_sections[splited_var_index]);

  auto before_send_sparse = GetCurrentUS();
  RpcSend(var_name, splited_var_name, splited_var_index);
  auto after_send_sparse = GetCurrentUS();
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  VLOG(4) << "send " << splited_var_name << " has nums " << new_rows.size()
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          << " use time " << after_send_sparse - before_send_sparse;
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}

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void GeoSgdCommunicator::RecvUpdateDenseVars(
    const std::string &var_name, const std::string &splited_var_name) {
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  // calc var_training += var_pserver - var_old
  // calc var_old = var_pserver
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  // var_name: param.delta

  // step1: recv dense var from pserver
  auto origin_var_name = DeltaVarToVar(var_name);
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  auto origin_splited_var_name = DeltaVarToVar(splited_var_name);
  auto splited_var_index = GetSplitedVarIndex(var_name, splited_var_name);
  auto cpu_ctx = paddle::platform::CPUDeviceContext();
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  auto before_run_recv = GetCurrentUS();
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  VLOG(4) << "Dense recv origin_var_name: " << origin_var_name
          << " origin_splited_var_name: " << origin_splited_var_name
          << " splited_var_index: " << splited_var_index;
  RpcRecv(origin_var_name, origin_splited_var_name, splited_var_index);
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  auto after_run_recv = GetCurrentUS();
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  VLOG(4) << "recv var " << origin_splited_var_name << " use time "
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          << after_run_recv - before_run_recv;

  // step2: update dense var
  auto before_run_update = GetCurrentUS();
  auto *var_x = training_scope_->FindVar(origin_var_name);
  auto var_x_tensor = var_x->Get<framework::LoDTensor>();

  auto *var_y = old_scope_->FindVar(origin_var_name);
  auto var_y_tensor = var_y->Get<framework::LoDTensor>();

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  auto *var_z = pserver_scope_.get()->FindVar(origin_splited_var_name);
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  auto var_z_tensor = var_z->Get<framework::LoDTensor>();
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  auto dims = var_z_tensor.dims();
  auto total_element = var_z_tensor.numel();

  int64_t section = 0;
  int64_t begin_loc = 0;
  int64_t dimension = 0;
  size_t out_num = recv_varname_to_ctx_[origin_var_name].height_sections.size();
  if (out_num > 1) {
    section = dims[0];
    begin_loc = absolute_section_[origin_var_name][splited_var_index];
    dimension = total_element / section;
    VLOG(4) << "Dense splited var: " << splited_var_name
            << " section: " << section << " dimension: " << dimension
            << " begin loc: " << begin_loc << " total_element "
            << total_element;
  }

  auto *var_x_data = var_x_tensor.mutable_data<float>(var_x_tensor.place()) +
                     begin_loc * dimension;
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_x_data[0] "
          << var_x_data[0] << " var_x_data[end] "
          << var_x_data[total_element - 1];

  auto *var_y_data = var_y_tensor.mutable_data<float>(var_y_tensor.place()) +
                     begin_loc * dimension;
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_y_data[0] "
          << var_y_data[0] << " var_y_data[end] "
          << var_y_data[total_element - 1];

  auto *var_z_data = var_z_tensor.mutable_data<float>(cpu_ctx.GetPlace());
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_z_data[0] "
          << var_z_data[0] << " var_z_data[end] "
          << var_z_data[total_element - 1];

  auto *var_y_sub_tensor = old_scope_->Var(origin_splited_var_name)
                               ->GetMutable<framework::LoDTensor>();
  var_y_sub_tensor->Resize(dims);
  var_y_sub_tensor->mutable_data<float>(dims, cpu_ctx.GetPlace());
  auto *var_y_sub_data =
      var_y_sub_tensor->mutable_data<float>(cpu_ctx.GetPlace());

  VLOG(4) << "Dense splited var: " << splited_var_name << " var_y_sub_data[0] "
          << var_y_sub_data[0] << " var_y_sub_data[end] "
          << var_y_sub_data[total_element - 1];
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  auto blas = math::GetBlas<paddle::platform::CPUDeviceContext, float>(cpu_ctx);
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  // calc sub = pserver - old
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  blas.VSUB(total_element, var_z_data, var_y_data, var_y_sub_data);
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_y_sub_data[0] "
          << var_y_sub_data[0] << " var_y_sub_data[end] "
          << var_y_sub_data[total_element - 1];

  // calc train += sub
  blas.VADD(total_element, var_x_data, var_y_sub_data, var_x_data);
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_x_data[0] "
          << var_x_data[0] << " var_x_data[end] "
          << var_x_data[total_element - 1];

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  // calc old = pserver
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  blas.VCOPY(total_element, var_z_data, var_y_data);
  VLOG(4) << "Dense splited var: " << splited_var_name << " var_y_data[0] "
          << var_y_data[0] << " var_y_data[end] "
          << var_y_data[total_element - 1];

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  auto after_run_update = GetCurrentUS();
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  VLOG(4) << "dense var update " << origin_splited_var_name << " use time "
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          << after_run_update - before_run_update;
}

void GeoSgdCommunicator::RecvUpdateSparseVars(
    const std::string &var_name, const std::string &splited_var_name) {
  // step 1: recv splited var from pserver
  auto splited_var_index = GetSplitedVarIndex(var_name, splited_var_name);
  auto origin_var_name = DeltaVarToVar(var_name);
  auto origin_splited_var_name = DeltaVarToVar(splited_var_name);

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  auto before_run_recv = GetCurrentUS();
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  RpcRecv(origin_var_name, origin_splited_var_name, splited_var_index);
  auto after_run_recv = GetCurrentUS();
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  VLOG(4) << "recv var " << origin_splited_var_name << " use time "
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          << after_run_recv - before_run_recv;
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  // step 2: update sparse var
  auto before_run_update = GetCurrentUS();
  auto *var_x = training_scope_->FindVar(origin_var_name);
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  auto var_x_tensor = var_x->Get<framework::LoDTensor>();
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  auto dims = var_x_tensor.dims();
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  float *x_value = var_x_tensor.mutable_data<float>(var_x_tensor.place());

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  auto *var_y = old_scope_->FindVar(origin_var_name);
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  auto var_y_tensor = var_y->Get<framework::LoDTensor>();
  float *y_value = var_y_tensor.mutable_data<float>(var_y_tensor.place());

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  auto *var_z = pserver_scope_.get()->FindVar(origin_splited_var_name);
  auto var_z_slr = var_z->GetMutable<framework::SelectedRows>();
  auto row_size = var_z_slr->rows().size();

  std::vector<int64_t> new_rows;
  new_rows.reserve(row_size);

  for (auto ids : var_z_slr->rows()) {
    new_rows.push_back(ids +
                       absolute_section_[origin_var_name][splited_var_index]);
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  }

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  auto *new_value = var_z_slr->mutable_value();
  auto row_numel = dims[1];
  auto *z_value = new_value->mutable_data<float>(var_x_tensor.place());

  auto cpu_ctx = paddle::platform::CPUDeviceContext();
  auto blas = math::GetBlas<paddle::platform::CPUDeviceContext, float>(cpu_ctx);
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  for (size_t y = 0; y < new_rows.size(); y++) {
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    std::vector<float> row_delta(row_numel, 0);

    auto ids = new_rows[y];

    float *x_val = x_value + ids * row_numel;
    float *y_val = y_value + ids * row_numel;
    float *z_val = z_value + y * row_numel;

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    blas.VSUB(row_numel, z_val, y_val, row_delta.data());
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    blas.VADD(row_numel, row_delta.data(), x_val, x_val);
    blas.VCOPY(row_numel, z_val, y_val);
  }

  auto after_run_update = GetCurrentUS();
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  VLOG(4) << "sparse var recv update " << origin_splited_var_name << " has num "
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          << new_rows.size() << " use time "
          << after_run_update - before_run_update;
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}

void GeoSgdCommunicator::GeoSgdSparseParamInit(framework::Scope *scope_x,
                                               framework::Scope *scope_y,
                                               const std::string var_name) {
  // create selectedrows var from lodtensor var info
  auto *var_x = scope_x->Var(var_name);
  auto *var_y = scope_y->Var(var_name);

  auto var_x_tensor = var_x->Get<framework::LoDTensor>();
  auto *var_y_select_rows = var_y->GetMutable<framework::SelectedRows>();

  auto dims = var_x_tensor.dims();
  auto rows = dims[0];
  auto row_numel = dims[1];

  var_y_select_rows->set_height(rows);
  std::vector<int64_t> new_rows{};
  var_y_select_rows->set_rows(new_rows);
  auto *var_y_value = var_y_select_rows->mutable_value();
  var_y_value->Resize({rows, row_numel});
  var_y_value->mutable_data<float>(var_x_tensor.place());
}

void GeoSgdCommunicator::GeoSgdDenseParamInit(framework::Scope *scope_x,
                                              framework::Scope *scope_y,
                                              const std::string var_name) {
  auto *var_x = scope_x->Var(var_name);
  auto *var_y = scope_y->Var(var_name);
  framework::CopyVariable(*var_x, var_y);
}

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void GeoSgdCommunicator::RpcSend(const std::string &origin_var_name,
                                 const std::string &splited_var_name,
                                 const size_t &splited_var_index) {
  auto trainer_id = send_varname_to_ctx_[origin_var_name].trainer_id;
  auto endpoint =
      send_varname_to_ctx_[origin_var_name].epmap[splited_var_index];

  platform::DeviceContextPool &pool = platform::DeviceContextPool::Instance();
  auto &cpu_ctx_send = *pool.Get(platform::CPUPlace());
  distributed::RPCClient *rpc_client =
      distributed::RPCClient::GetInstance<RPCCLIENT_T>(trainer_id);
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  auto handle = rpc_client->AsyncSendVar(endpoint, cpu_ctx_send,
                                         *delta_scope_.get(), splited_var_name);
  handle->Wait();
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}

void GeoSgdCommunicator::RpcRecv(const std::string &var_name,
                                 const std::string &splited_var_name,
                                 const size_t &splited_var_index) {
  auto train_id = recv_varname_to_ctx_[var_name].trainer_id;
  auto endpoint = recv_varname_to_ctx_[var_name].epmap[splited_var_index];
  platform::DeviceContextPool &pool = platform::DeviceContextPool::Instance();
  auto &cpu_ctx_recv = *pool.Get(platform::CPUPlace());
  distributed::RPCClient *rpc_client =
      distributed::RPCClient::GetInstance<RPCCLIENT_T>(train_id);
  pserver_scope_->Var(splited_var_name);
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  auto handle = rpc_client->AsyncGetVar(endpoint, cpu_ctx_recv,
                                        *pserver_scope_.get(), splited_var_name,
                                        splited_var_name, splited_var_name);
  handle->Wait();
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}

void GeoSgdCommunicator::Recv() {}

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void HalfAsyncCommunicator::InitImpl(const RpcCtxMap &send_varname_to_ctx,
                                     const RpcCtxMap &recv_varname_to_ctx,
                                     Scope *recv_scope) {
  send_varname_to_ctx_ = std::move(send_varname_to_ctx);
  recv_varname_to_ctx_ = std::move(recv_varname_to_ctx);
  recv_scope_ = std::move(recv_scope);

  if (send_varname_to_ctx.size() == 0) {
    VLOG(0) << "nothing need to be send, will not start send_thread";
  } else {
    send_scope_.reset(new Scope());
    for (auto &iter : send_varname_to_ctx_) {
      send_varname_to_queue_[iter.first] =
          std::make_shared<BlockingQueue<std::shared_ptr<Variable>>>(
              send_queue_size_);
    }
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    consume_threadpool_.reset(new ::ThreadPool(thread_pool_size_));
  }

  if (recv_varname_to_ctx.size() == 0) {
    VLOG(0) << "nothing need to be received, will not start recv_thread";
  } else {
    recv_threadpool_.reset(new ::ThreadPool(thread_pool_size_));
  }
}

void HalfAsyncCommunicator::InitImpl(
    const paddle::framework::ProgramDesc &program, Scope *param_scope) {
  RpcCtxMap send_varname_to_ctx;
  RpcCtxMap recv_varname_to_ctx;
  for (auto *op : program.Block(0).AllOps()) {
    VLOG(3) << "node name " << op->Type();
    if (op->Type() == "send") {
      auto send_var_name = op->Input("X")[0];
      auto send_varnames = boost::get<std::vector<std::string>>(
          op->GetNullableAttr("send_varnames"));
      auto epmap =
          boost::get<std::vector<std::string>>(op->GetNullableAttr("epmap"));
      auto height_section =
          boost::get<std::vector<int64_t>>(op->GetNullableAttr("sections"));
      auto trainer_id = boost::get<int>(op->GetNullableAttr("trainer_id"));
      send_varname_to_ctx[send_var_name] = operators::distributed::RpcContext(
          send_var_name, send_varnames, epmap, height_section, trainer_id);
      VLOG(3) << "find and init an send op: "
              << send_varname_to_ctx[send_var_name];
    } else if (op->Type() == "recv") {
      auto do_not_run = boost::get<int>(op->GetNullableAttr("do_not_run"));
      PADDLE_ENFORCE_GT(do_not_run, 0,
                        platform::errors::InvalidArgument(
                            "recv op's attr `do_not_run` must be True!"));
      auto recv_var_name = op->Output("Out")[0];
      auto recv_varnames = boost::get<std::vector<std::string>>(
          op->GetNullableAttr("recv_varnames"));
      auto epmap =
          boost::get<std::vector<std::string>>(op->GetNullableAttr("epmap"));
      auto trainer_id = boost::get<int>(op->GetNullableAttr("trainer_id"));
      recv_varname_to_ctx[recv_var_name] = operators::distributed::RpcContext(
          recv_var_name, recv_varnames, epmap, {}, trainer_id);
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      VLOG(3) << "find and init an recv op: "
              << recv_varname_to_ctx[recv_var_name];
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    }
  }

  // init communicator here
  if (send_varname_to_ctx.size() == 0 && recv_varname_to_ctx.size() == 0) {
    LOG(WARNING) << "no var need to send and recv!!";
  }

  operators::distributed::HalfAsyncCommunicator::InitImpl(
      send_varname_to_ctx, recv_varname_to_ctx, param_scope);
}

HalfAsyncCommunicator::~HalfAsyncCommunicator() {
  running_ = false;
  if (consume_thread_) consume_thread_->join();
}

void HalfAsyncCommunicator::ConsumeThread() {
  VLOG(3) << "ConsumeThread start!";
  while (running_) {
    while (running_) {
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      if (barrier_counter_.load() >= barrier_trigger_.load() &&
          barrier_trigger_.load() != 0) {
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        break;
      } else {
        std::this_thread::sleep_for(std::chrono::milliseconds(10));
      }
    }

    std::vector<std::future<void>> task_futures;
    task_futures.reserve(send_varname_to_ctx_.size());
    VLOG(3) << "run send graph";
    auto before_run_send_graph = GetCurrentUS();
    for (auto &iter : send_varname_to_queue_) {
      auto &var_name = iter.first;
      auto &var_queue = iter.second;
      if (var_queue->Size() > 0) {
        auto send_task = [this, &var_name, &var_queue] {
          VLOG(3) << var_name << " merge and send";
          std::vector<std::shared_ptr<Variable>> vars;
          size_t merged_var_num = 0;
          size_t wait_times = 0;
          while (merged_var_num < static_cast<size_t>(max_merge_var_num_)) {
            if (var_queue->Size() == 0) {
              VLOG(3) << "wait_times -> " << wait_times;
              if (wait_times >= static_cast<size_t>(send_wait_times_)) {
                break;
              }
              std::this_thread::sleep_for(std::chrono::milliseconds(10));
              wait_times++;
              continue;
            } else {
              wait_times = 0;
              vars.push_back(var_queue->Pop());
              merged_var_num++;
            }
          }
          auto before_merge = GetCurrentUS();

          MergeVars<float>(var_name, vars, send_scope_.get(), false);

          auto after_merge = GetCurrentUS();
          VLOG(3) << "merge " << merged_var_num << " " << var_name
                  << " use time " << after_merge - before_merge;

          auto send_functor = distributed::ParameterSend<float>();
          auto &ctx = send_varname_to_ctx_.at(var_name);
          send_functor(ctx, *send_scope_, true, 1);

          auto after_send = GetCurrentUS();
          VLOG(3) << "send " << var_name << " use time "
                  << after_send - after_merge;
        };
        task_futures.emplace_back(
            consume_threadpool_->enqueue(std::move(send_task)));
      } else {
        VLOG(4) << var_name << " queue empty";
      }
    }
    for (auto &task_f : task_futures) {
      task_f.wait();
    }
    auto after_run_send_graph = GetCurrentUS();

    VLOG(3) << "run send graph use time "
            << after_run_send_graph - before_run_send_graph;

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    BarrierSend();
    Recv();
    BarrierRecv();
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    BarrierWeakUp();
  }
  VLOG(0) << "communicator stopped, send thread exit";
}

void HalfAsyncCommunicator::Send(const std::vector<std::string> &var_names,
                                 const std::vector<std::string> &var_tables,
                                 const framework::Scope &scope) {
  PADDLE_ENFORCE_EQ(
      var_names.size(), 1,
      platform::errors::InvalidArgument("var_names.size() == 1 is permitted"));
  auto var_name = var_names[0];
  VLOG(3) << "communicator send " << var_name;
  // push var into send queue by var_name
  auto *grad_var = scope.FindVar(var_name);
  PADDLE_ENFORCE_EQ(
      grad_var->IsInitialized(), true,
      platform::errors::InvalidArgument("grad var should is not initialized."));
  auto tmp_grad_var = std::make_shared<Variable>();
  framework::CopyVariable(*grad_var, tmp_grad_var.get());
  auto &queue = send_varname_to_queue_.at(var_name);
  VLOG(3) << "send " << var_name << " queue size " << queue->Size();
  queue->Push(tmp_grad_var);
}

void HalfAsyncCommunicator::Recv() {
  VLOG(3) << "parallel run recv graph";
  if (!running_) return;
  auto before_send = GetCurrentUS();
  std::vector<std::future<void>> task_futures;
  task_futures.reserve(recv_varname_to_ctx_.size());
  for (auto &iter : recv_varname_to_ctx_) {
    auto recv_task = [this, &iter] {
      auto &var_name = iter.first;
      VLOG(4) << "recv var " << var_name;
      auto recv_functor = distributed::ParameterRecv<float>();
      recv_functor(iter.second, *recv_scope_);
    };
    task_futures.emplace_back(recv_threadpool_->enqueue(std::move(recv_task)));
  }
  for (auto &task : task_futures) {
    task.wait();
  }
  auto after_recv = GetCurrentUS();
  VLOG(3) << "run recv graph use time " << after_recv - before_send;
}

void HalfAsyncCommunicator::Barrier() {
  barrier_counter_++;
  {
    std::unique_lock<std::mutex> lk(barrier_mutex_);
    barrier_cond_.wait(lk, [this] { return (barrier_counter_ == 0); });
  }
}

void HalfAsyncCommunicator::BarrierTriggerDecrement() {
  barrier_trigger_--;
  VLOG(3) << "BarrierTriggerDecrement decrement barrier trigger to "
          << barrier_trigger_.load();
}

void HalfAsyncCommunicator::BarrierTriggerReset(int initial_val) {
  barrier_trigger_.store(initial_val);

  VLOG(3) << "BarrierTriggerReset reset barrier trigger to "
          << barrier_trigger_.load();
}

void HalfAsyncCommunicator::BarrierWeakUp() {
  barrier_counter_.store(0);
  barrier_cond_.notify_all();
}

void HalfAsyncCommunicator::Start() {
  VLOG(0) << "Communicator start";
  if (!communicator_) {
    VLOG(0) << "Communicator is not inited, do nothing";
  } else {
    VLOG(1) << "start send thread and recv thread";

    BarrierTriggerReset(max_merge_var_num_);
    running_ = true;
    consume_thread_.reset(new std::thread(
        std::bind(&HalfAsyncCommunicator::ConsumeThread, this)));
  }
}

void HalfAsyncCommunicator::Stop() {
  VLOG(0) << "Communicator stop";
  running_ = false;
  if (!communicator_) {
    VLOG(0) << "Communicator is not inited, do nothing";
  } else {
    if (consume_thread_) {
      VLOG(4) << "stop send thread";
      consume_thread_->join();
      consume_thread_.reset(nullptr);
    }
  }
  VLOG(0) << "Communicator stop done";
}
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void SyncCommunicator::BarrierSend() {
  if (!running_) return;

  distributed::RPCClient *rpc_client =
      distributed::RPCClient::GetInstance<RPCCLIENT_T>(trainer_id_);

  std::vector<distributed::VarHandlePtr> rets;

  for (auto &ep : pserver_endpoints_) {
    rets.push_back(rpc_client->AsyncSendBatchBarrier(ep));
  }

  for (size_t i = 0; i < rets.size(); i++) {
    PADDLE_ENFORCE_NE(rets[i]->Wait(), 0U, platform::errors::External(
                                               "internal error in RPCClient"));
  }

  VLOG(4) << "BarrierSend with SyncCommunicator";
}

void SyncCommunicator::BarrierRecv() {
  if (!running_) return;

  distributed::RPCClient *rpc_client =
      distributed::RPCClient::GetInstance<RPCCLIENT_T>(trainer_id_);

  std::vector<distributed::VarHandlePtr> rets;
  for (auto &ep : pserver_endpoints_) {
    rets.push_back(rpc_client->AsyncSendFetchBarrier(ep));
  }

  for (size_t i = 0; i < rets.size(); i++) {
    PADDLE_ENFORCE_NE(rets[i]->Wait(), 0U, platform::errors::External(
                                               "internal error in RPCClient"));
  }

  VLOG(4) << "BarrierRecv with SyncCommunicator";
}

SyncCommunicator::~SyncCommunicator() {
  running_ = false;
  if (consume_thread_) consume_thread_->join();
}
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}  // namespace distributed
}  // namespace operators
}  // namespace paddle