// 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/framework/details/multi_devices_graph_pass.h" #include #include #include #include #include #include #include #include #include "paddle/fluid/framework/details/all_reduce_op_handle.h" #include "paddle/fluid/framework/details/broadcast_op_handle.h" #include "paddle/fluid/framework/details/computation_op_handle.h" #include "paddle/fluid/framework/details/fused_broadcast_op_handle.h" #include "paddle/fluid/framework/details/reduce_op_handle.h" #include "paddle/fluid/framework/details/rpc_op_handle.h" #include "paddle/fluid/framework/details/scale_loss_grad_op_handle.h" #include "paddle/fluid/framework/ir/graph_helper.h" #include "paddle/fluid/framework/ir/node.h" #include "paddle/fluid/framework/op_info.h" #include "paddle/fluid/framework/scope.h" namespace paddle { namespace framework { namespace details { namespace { // TODO(panyx0718): Clean this up as well. // all operators. NOTE that even we use a vector here, the operators is // unordered. typedef std::vector GraphOps; const char kGraphOps[] = "ops"; bool OpHaveRole(const ir::Node &node, const framework::OpRole &role) { return boost::get( node.Op()->GetAttr(OpProtoAndCheckerMaker::OpRoleAttrName())) == static_cast(role); } void PolishGraphToSupportDataHazards(ir::Graph *graph) { for (auto &var_map : graph->Get(kGraphVars)) { for (auto &name_pair : var_map) { if (name_pair.second.size() <= 1) { continue; } auto it_new = name_pair.second.rbegin(); auto it_old = name_pair.second.rbegin(); ++it_old; for (; it_old != name_pair.second.rend(); it_new = it_old, ++it_old) { OpHandleBase *write_op = (*it_new)->GeneratedOp(); const auto &read_ops = (*it_old)->PendingOps(); for (auto *read_op : read_ops) { // Manually add a dependency var from read_op to write_op; if (read_op == write_op) { // Read Write is the same op. continue; } bool has_dep = false; for (auto *r_out : read_op->Outputs()) { for (auto *w_in : write_op->Inputs()) { if (r_out->Node() == w_in->Node()) { has_dep = true; break; } } } if (has_dep) continue; auto *dep_var = new DummyVarHandle(graph->CreateControlDepVar()); read_op->AddOutput(dep_var); write_op->AddInput(dep_var); graph->Get(kGraphDepVars).emplace(dep_var); } } } } } VarHandle *CreateOrGetLatestVarHandle(ir::Graph *graph, ir::Node *node, const platform::Place &place, size_t place_offset) { auto &var_holders = graph->Get(kGraphVars)[place_offset]; auto &var_holder = var_holders[node->Name()]; VarHandle *var = nullptr; if (var_holder.empty()) { if (node->Var()) { var = new VarHandle(graph->CreateVarNode(node->Var()), 0, place_offset, node->Name(), place); } else { var = new VarHandle( graph->CreateEmptyNode(node->Name(), ir::Node::Type::kVariable), 0, place_offset, node->Name(), place); } var_holder.emplace_back(var); } else { var = *var_holder.rbegin(); } return var; } void CreateOpOutput(ir::Graph *graph, OpHandleBase *op_handle, ir::Node *new_node, const platform::Place &place, size_t place_offset) { auto &vars = graph->Get(kGraphVars)[place_offset][new_node->Name()]; size_t version = vars.size(); auto var = new VarHandle(new_node, version, place_offset, new_node->Name(), place); vars.emplace_back(var); op_handle->AddOutput(var); } void AddOutputToLeafOps(ir::Graph *graph) { for (auto &op : graph->Get(kGraphOps)) { if (!op->Outputs().empty()) { continue; } auto *dummy_leaf = new DummyVarHandle(graph->CreateControlDepVar()); graph->Get(kGraphDepVars).emplace(dummy_leaf); op->AddOutput(dummy_leaf); } } } // namespace void MultiDevSSAGraphBuilderBase::CheckGraph(const ir::Graph &graph) const {} void MultiDevSSAGraphBuilderBase::Init() const { all_vars_.clear(); loss_var_name_ = Get(kLossVarName); VLOG(10) << "Init MultiDevSSAGraphBuilder, loss name: " << loss_var_name_; places_ = Get>(kPlaces); local_scopes_ = Get>(kLocalScopes); strategy_ = Get(kStrategy); #if defined(PADDLE_WITH_CUDA) && !defined(_WIN32) nccl_ctxs_ = &Get(kNCCLCtxs); #endif PADDLE_ENFORCE_EQ(places_.size(), local_scopes_.size()); } std::unique_ptr MultiDevSSAGraphBuilderBase::ApplyImpl( std::unique_ptr graph) const { Init(); CheckGraph(*graph); std::vector sorted_ops = SortOperations(*graph); auto nodes = graph->ReleaseNodes(); ir::Graph &result = *graph; for (auto &node : nodes) { if (node->IsVar() && node->Var()) { all_vars_.emplace(node->Name(), node->Var()); } } // We cannot invoke resize. It is a bug of GCC 4.8 result.Set(kGraphVars, new GraphVars(places_.size())); result.Set(kGraphDepVars, new GraphDepVars); result.Set(kGraphOps, new GraphOps); bool is_forwarding = true; for (ir::Node *node : sorted_ops) { if (DealWithSpecialOp(&result, node)) { continue; } else { // This op runs on all devices if (IsScaleLossOp(node)) { // user can customize loss@grad if not use_default_grad_scale_ InsertScaleLossGradOp(&result, node); // This assumes the backward generating code will ensure IsScaleLossOp // is true only for the op that scale the final scalar loss. // It also assumes backward op will always follow the forward op in // the block. is_forwarding = false; } else { CreateComputationalOps(&result, node, places_.size()); } // Insert collective ops if nranks > 1 if (!is_forwarding && Get(kNRanks) > 1) { try { bool is_bk_op = static_cast(boost::get(node->Op()->GetAttr( OpProtoAndCheckerMaker::OpRoleAttrName())) & static_cast(OpRole::kBackward)); if (!is_bk_op) continue; // Currently, we assume that once gradient is generated, it can be // broadcast, and each gradient is only broadcast once. auto backward_vars = boost::get>(node->Op()->GetNullableAttr( OpProtoAndCheckerMaker::OpRoleVarAttrName())); PADDLE_ENFORCE_EQ(backward_vars.size() % 2, 0); for (size_t i = 0; i < backward_vars.size(); i += 2) { auto &p_name = backward_vars[i]; auto &g_name = backward_vars[i + 1]; VLOG(10) << "Bcast " << g_name << " for parameter " << p_name; if (NeedCollectiveForGrad(g_name, sorted_ops)) { InsertCollectiveOp(&result, p_name, g_name); } } } catch (boost::bad_get e) { } } } } InsertPostprocessOps(&result); /* Dependency graph has been constructed. However, there are still data hazards need to be handled. */ PolishGraphToSupportDataHazards(&result); /* * Only variables should be the leaves of graph. */ AddOutputToLeafOps(&result); result.Erase(kGraphOps); return graph; } void MultiDevSSAGraphBuilderBase::InsertScaleLossGradOp( ir::Graph *result, const ir::Node *node) const { // user can customize loss@grad if not use_default_grad_scale_ size_t loss_scale = 0; switch (this->strategy_.gradient_scale_) { case BuildStrategy::GradientScaleStrategy::kOne: loss_scale = 1; break; case BuildStrategy::GradientScaleStrategy::kCoeffNumDevice: loss_scale = Get(kNRanks); break; case BuildStrategy::GradientScaleStrategy::kCustomized: loss_scale = 0; break; default: LOG(FATAL) << "Unknown gradient scale strategy."; break; } if (loss_scale) { // TODO(paddle-dev): Why is there no input for this op_handle? auto loss_grad_name = node->Op()->OutputArgumentNames()[0]; auto out_dtype = this->all_vars_.at(loss_grad_name)->GetDataType(); this->CreateScaleLossGradOp(result, loss_grad_name, node->outputs[0], loss_scale, out_dtype); } } bool MultiDevSSAGraphBuilderBase::DealWithSpecialOp(ir::Graph *result, ir::Node *node) const { return false; } std::vector MultiDevSSAGraphBuilderBase::SortOperations( const ir::Graph &graph) const { return ir::TopologySortOperations(graph); } bool MultiDevSSAGraphBuilderBase::UseGPU() const { bool use_gpu = false; #if defined(PADDLE_WITH_CUDA) && !defined(_WIN32) use_gpu = nccl_ctxs_ != nullptr; #endif return use_gpu; } bool MultiDevSSAGraphBuilderBase::NeedCollectiveForGrad( const std::string &grad_name, std::vector ops) const { // if we have allreduce_op for current gradient variable in the graph, // then we don't need to add allreduce_op_handle for this gradient // NOTE: This is for the case that all gradients should add collective ops for (auto *node : ops) { if (node->Op()->Type() != "allreduce") continue; for (auto in_name : node->Op()->InputArgumentNames()) { if (in_name == grad_name) { return false; } } } return true; } void MultiDevSSAGraphBuilderBase::CreateOpHandleIOs(ir::Graph *result, ir::Node *node, size_t place_id) const { auto p = places_[place_id]; auto *op_handle = result->Get(kGraphOps).back(); op_handle->SetDeviceContext(p, platform::DeviceContextPool::Instance().Get(p)); for (ir::Node *input : node->inputs) { VarHandle *var = CreateOrGetLatestVarHandle(result, input, p, place_id); op_handle->AddInput(var); } for (ir::Node *output : node->outputs) { ir::Node *new_node = nullptr; if (output->Var()) { new_node = result->CreateVarNode(output->Var()); } else { new_node = result->CreateEmptyNode(output->Name(), ir::Node::Type::kVariable); } CreateOpOutput(result, op_handle, new_node, p, place_id); } } void MultiDevSSAGraphBuilderBase::SetCommunicationContext( OpHandleBase *op_handle, const platform::Place &p) const { #if defined(PADDLE_WITH_CUDA) && !defined(_WIN32) if (nccl_ctxs_ == nullptr) { op_handle->SetDeviceContext(p, platform::DeviceContextPool::Instance().Get(p)); } #else op_handle->SetDeviceContext(p, platform::DeviceContextPool::Instance().Get(p)); #endif } void MultiDevSSAGraphBuilderBase::CreateBroadcastOp(ir::Graph *result, const std::string &p_name, size_t src_dev_id) const { #if defined(PADDLE_WITH_CUDA) && !defined(_WIN32) auto *op_handle = new BroadcastOpHandle( result->CreateEmptyNode("broadcast", ir::Node::Type::kOperation), local_scopes_, places_, nccl_ctxs_); #else auto *op_handle = new BroadcastOpHandle( result->CreateEmptyNode("broadcast", ir::Node::Type::kOperation), local_scopes_, places_); #endif result->Get(kGraphOps).emplace_back(op_handle); auto *in = result->Get(kGraphVars).at(src_dev_id).at(p_name).back(); op_handle->AddInput(in); for (size_t i = 0; i < places_.size(); ++i) { auto &p = places_[i]; SetCommunicationContext(op_handle, p); auto &vars = result->Get(kGraphVars).at(i).at(p_name); auto *out_var = new VarHandle( result->CreateEmptyNode(p_name, ir::Node::Type::kVariable), vars.size(), i, p_name, p); vars.emplace_back(out_var); op_handle->AddOutput(out_var); } } void MultiDevSSAGraphBuilderBase::CreateFusedBroadcastOp( ir::Graph *result, const std::vector> &bcast_varnames) const { #if defined(PADDLE_WITH_CUDA) && !defined(_WIN32) auto *op_handle = new FusedBroadcastOpHandle( result->CreateEmptyNode("fused_broadcast", ir::Node::Type::kOperation), local_scopes_, places_, nccl_ctxs_); #else auto *op_handle = new FusedBroadcastOpHandle( result->CreateEmptyNode("fused_broadcast", ir::Node::Type::kOperation), local_scopes_, places_); #endif result->Get(kGraphOps).emplace_back(op_handle); for (size_t i = 0; i < places_.size(); ++i) { auto &p = places_[i]; SetCommunicationContext(op_handle, p); } for (size_t dev_id = 0; dev_id < bcast_varnames.size(); ++dev_id) { for (auto &p_name : bcast_varnames[dev_id]) { auto *in = result->Get(kGraphVars).at(dev_id).at(p_name).back(); op_handle->AddInput(in); for (size_t out_dev_id = 0; out_dev_id < places_.size(); ++out_dev_id) { auto &p = places_[out_dev_id]; auto &vars = result->Get(kGraphVars).at(out_dev_id).at(p_name); auto *out_var = new VarHandle( result->CreateEmptyNode(p_name, ir::Node::Type::kVariable), vars.size(), out_dev_id, p_name, p); vars.emplace_back(out_var); op_handle->AddOutput(out_var); } } } } void MultiDevSSAGraphBuilderBase::CreateComputationalOp(ir::Graph *result, ir::Node *node, int dev_id) const { result->Get(kGraphOps).emplace_back( new ComputationOpHandle(result->CreateOpNode(node->Op()), local_scopes_[dev_id], places_[dev_id], dev_id)); CreateOpHandleIOs(result, node, dev_id); } void MultiDevSSAGraphBuilderBase::CreateAllReduceOp( ir::Graph *result, const std::string &og) const { OpHandleBase *op_handle = nullptr; auto append_allreduce_op = [&]( const std::vector &scopes, const std::vector &places) -> OpHandleBase * { #if defined(PADDLE_WITH_CUDA) && !defined(_WIN32) result->Get(kGraphOps).emplace_back(new AllReduceOpHandle( result->CreateEmptyNode("allreduce", ir::Node::Type::kOperation), scopes, places, nccl_ctxs_)); #else result->Get(kGraphOps).emplace_back(new AllReduceOpHandle( result->CreateEmptyNode("allreduce", ir::Node::Type::kOperation), scopes, places)); #endif return result->Get(kGraphOps).back(); }; if (!strategy_.enable_parallel_graph_) op_handle = append_allreduce_op(local_scopes_, places_); for (size_t i = 0; i < places_.size(); ++i) { if (strategy_.enable_parallel_graph_) { op_handle = append_allreduce_op({local_scopes_[i]}, {places_[i]}); } SetCommunicationContext(op_handle, places_[i]); auto &vars = result->Get(kGraphVars)[i][og]; PADDLE_ENFORCE(!vars.empty()); auto &prev_grad = vars.back(); op_handle->AddInput(prev_grad); auto var = new VarHandle(result->CreateEmptyNode(og, ir::Node::Type::kVariable), vars.size(), i, og, places_[i]); vars.emplace_back(var); op_handle->AddOutput(var); } } void MultiDevSSAGraphBuilderBase::CreateScaleLossGradOp( ir::Graph *result, const std::string &loss_grad_name, ir::Node *out_var_node, size_t loss_scale, proto::VarType::Type dtype) const { for (size_t i = 0; i < places_.size(); ++i) { auto *dev_ctx = platform::DeviceContextPool::Instance().Get(places_[i]); auto *op_handle = new ScaleLossGradOpHandle( result->CreateEmptyNode("scale_loss_grad", ir::Node::Type::kOperation), loss_scale, local_scopes_[i], places_[i], dev_ctx, dtype); result->Get(kGraphOps).emplace_back(op_handle); // FIXME: Currently ScaleLossGradOp only use device_count as scale // factor. So it does not depend on any other operators. // VarHandle *loss = GetVarHandle(loss_var_name, place); // loss->pending_ops_.emplace_back(op_handle); // op_handle->inputs_.emplace_back(loss); CreateOpOutput(result, op_handle, result->CreateVarNode(out_var_node->Var()), places_[i], i); } } void MultiDevSSAGraphBuilderBase::CreateComputationalOps( ir::Graph *result, ir::Node *node, size_t num_places) const { for (size_t scope_idx = 0; scope_idx < num_places; ++scope_idx) { auto p = places_[scope_idx]; auto s = local_scopes_[scope_idx]; result->Get(kGraphOps).emplace_back(new ComputationOpHandle( result->CreateOpNode(node->Op()), s, p, scope_idx)); CreateOpHandleIOs(result, node, scope_idx); } } VarHandle *MultiDevSSAGraphBuilderBase::CreateReduceOp(ir::Graph *result, const std::string &og, int dst_dev_id) const { #if defined(PADDLE_WITH_CUDA) && !defined(_WIN32) result->Get(kGraphOps).emplace_back(new ReduceOpHandle( result->CreateEmptyNode("reduce", ir::Node::Type::kOperation), local_scopes_, places_, nccl_ctxs_)); #else result->Get(kGraphOps).emplace_back(new ReduceOpHandle( result->CreateEmptyNode("reduce", ir::Node::Type::kOperation), local_scopes_, places_)); #endif auto *op_handle = result->Get(kGraphOps).back(); for (size_t i = 0; i < places_.size(); ++i) { auto &p = places_[i]; SetCommunicationContext(op_handle, p); auto &vars = result->Get(kGraphVars)[i][og]; PADDLE_ENFORCE(!vars.empty()); auto &prev_grad = vars.back(); op_handle->AddInput(prev_grad); } auto &vars = result->Get(kGraphVars)[dst_dev_id][og]; auto var = new VarHandle(result->CreateEmptyNode(og, ir::Node::Type::kVariable), vars.size(), dst_dev_id, og, places_[dst_dev_id]); vars.emplace_back(var); op_handle->AddOutput(var); return var; } bool MultiDevSSAGraphBuilderBase::IsScaleLossOp(ir::Node *node) const { return !loss_var_name_.empty() && node->Op() && boost::get( node->Op()->GetAttr(OpProtoAndCheckerMaker::OpRoleAttrName())) == (static_cast(OpRole::kBackward) | static_cast(OpRole::kLoss)); } bool MultiDevSSAGraphBuilderBase::IsSparseGradient( const std::string &og) const { PADDLE_ENFORCE(all_vars_.count(og) != 0); return all_vars_.at(og)->GetType() == proto::VarType::SELECTED_ROWS; } void AllReduceSSAGraphBuilder::InsertCollectiveOp( ir::Graph *result, const std::string &p_name, const std::string &g_name) const { if (IsSparseGradient(g_name)) { CreateReduceOp(result, g_name, 0); CreateBroadcastOp(result, g_name, 0); } else { CreateAllReduceOp(result, g_name); } } int BalanceVarSSAGraphBuilder::GetVarDeviceID( const std::string &varname) const { auto got = sharded_var_device_.find(varname); if (got == sharded_var_device_.end()) { auto pos = varname.find(framework::kNewGradSuffix); if (pos != std::string::npos) { got = sharded_var_device_.find(varname.substr(0, pos)); } } return got == sharded_var_device_.end() ? -1 : got->second; } int BalanceVarSSAGraphBuilder::GetOpDeviceID(ir::Node *node) const { if (strategy_.reduce_ != BuildStrategy::ReduceStrategy::kReduce) { return -1; } if (!OpHaveRole(*node, framework::OpRole::kOptimize)) { return -1; } auto param_grad = boost::get>( node->Op()->GetAttr(OpProtoAndCheckerMaker::OpRoleVarAttrName())); PADDLE_ENFORCE_EQ(param_grad.size(), 2U); int dev_id = GetVarDeviceID(param_grad[1]); PADDLE_ENFORCE_NE(dev_id, -1, "dev_id should not be -1.[%s, %s, %s]", node->Op()->Type(), param_grad[0], param_grad[1]); return dev_id; } size_t BalanceVarSSAGraphBuilder::GetAppropriateDeviceID( const std::vector &var_names) const { int64_t numel_sum = 0; for (auto var_name : var_names) { if (all_vars_.find(var_name) == all_vars_.end()) continue; auto var_desc = all_vars_.at(var_name); PADDLE_ENFORCE_NOT_NULL(var_desc); auto dim = framework::make_ddim(var_desc->GetShape()); int64_t numel = framework::product(dim); PADDLE_ENFORCE_GT(numel, 0); numel_sum += numel; } auto smallest = std::min_element(std::begin(balance_vars_), std::end(balance_vars_)); size_t dev_id = static_cast(std::distance(std::begin(balance_vars_), smallest)); balance_vars_[dev_id] += numel_sum; return dev_id; } void BalanceVarSSAGraphBuilder::ResetState() const { balance_vars_.clear(); sharded_var_device_.clear(); balance_vars_.resize(places_.size(), 0); } void ReduceSSAGraphBuilder::Init() const { MultiDevSSAGraphBuilderBase::Init(); ResetState(); } void ReduceSSAGraphBuilder::ResetState() const { BalanceVarSSAGraphBuilder::ResetState(); bcast_var_name_set_.clear(); bcast_var_name_set_.resize(places_.size()); } void ReduceSSAGraphBuilder::InsertCollectiveOp( ir::Graph *result, const std::string &p_name, const std::string &g_name) const { size_t cur_device_id = GetAppropriateDeviceID({g_name}); CreateReduceOp(result, g_name, cur_device_id); sharded_var_device_.emplace(g_name, cur_device_id); bcast_var_name_set_[cur_device_id].emplace(p_name); } bool ReduceSSAGraphBuilder::DealWithSpecialOp(ir::Graph *result, ir::Node *node) const { int op_dev_id = BalanceVarSSAGraphBuilder::GetOpDeviceID(node); if (op_dev_id != -1) { // This op only runs on one specific device. CreateComputationalOp(result, node, op_dev_id); for (ir::Node *n : node->outputs) { sharded_var_device_.emplace(n->Name(), op_dev_id); } return true; } return false; } void ReduceSSAGraphBuilder::InsertPostprocessOps(ir::Graph *result) const { if (UseGPU()) { if (strategy_.fuse_broadcast_op_) { CreateFusedBroadcastOp(result, bcast_var_name_set_); } else { for (size_t dev_id = 0; dev_id < bcast_var_name_set_.size(); ++dev_id) { auto &to_bcast_set = bcast_var_name_set_[dev_id]; for (auto &bcast_name : to_bcast_set) { CreateBroadcastOp(result, bcast_name, dev_id); } } } } } int ReduceSSAGraphBuilder::GetOpDeviceID( ir::Node *node, std::unordered_map> *delay_ops) const { if (!OpHaveRole(*node, framework::OpRole::kOptimize)) { return -1; } auto param_grad = boost::get>( node->Op()->GetAttr(OpProtoAndCheckerMaker::OpRoleVarAttrName())); PADDLE_ENFORCE_EQ(param_grad.size(), 2U); int dev_id = GetVarDeviceID(param_grad[1]); if (dev_id == -1) { (*delay_ops)[param_grad[1]].push_back(node); return -2; } return dev_id; } std::vector ReduceSSAGraphBuilder::SortOperations( const ir::Graph &graph) const { std::vector sorted_ops = ir::TopologySortOperations(graph); return SortForReduceMode(sorted_ops); } std::vector ReduceSSAGraphBuilder::SortForReduceMode( const std::vector &topo_ops) const { std::vector sorted_ops; std::unordered_map> delayed_op; sorted_ops.reserve(topo_ops.size()); ResetState(); auto insert_delayed_op = [&](const std::string &var_name, int dev_id) { sharded_var_device_.emplace(var_name, dev_id); if (delayed_op.count(var_name)) { auto &ops = delayed_op.at(var_name); sorted_ops.insert(sorted_ops.end(), ops.begin(), ops.end()); delayed_op.at(var_name).clear(); } }; for (ir::Node *node : topo_ops) { int op_dev_id = GetOpDeviceID(node, &delayed_op); if (op_dev_id > -1) { // This op only runs on one specific device. sorted_ops.emplace_back(node); for (ir::Node *n : node->outputs) { insert_delayed_op(n->Name(), op_dev_id); } } else if (op_dev_id == -1) { // This op runs on all devices, and its output may have parameter's // gradients. sorted_ops.emplace_back(node); bool is_bk_op = static_cast(boost::get(node->Op()->GetAttr( OpProtoAndCheckerMaker::OpRoleAttrName())) & static_cast(OpRole::kBackward)); if (!is_bk_op) continue; // Currently, we assume that once gradient is generated, it can be // broadcast, and each gradient is only broadcast once. std::vector backward_vars; try { backward_vars = boost::get>(node->Op()->GetNullableAttr( OpProtoAndCheckerMaker::OpRoleVarAttrName())); } catch (boost::bad_get e) { } PADDLE_ENFORCE_EQ(backward_vars.size() % 2, 0); for (size_t i = 0; i < backward_vars.size(); i += 2) { auto &g_name = backward_vars[i + 1]; size_t cur_device_id = GetAppropriateDeviceID({g_name}); insert_delayed_op(g_name, static_cast(cur_device_id)); } } else if (op_dev_id == -2) { // The Op on which the Op depends has not yet been generated. } } PADDLE_ENFORCE_EQ(sorted_ops.size(), topo_ops.size()); ResetState(); return sorted_ops; } void DistSSAGraphBuilder::Init() const { MultiDevSSAGraphBuilderBase::Init(); ResetState(); } void DistSSAGraphBuilder::ResetState() const { BalanceVarSSAGraphBuilder::ResetState(); bcast_var_name_set_.clear(); bcast_var_name_set_.resize(places_.size()); } bool DistSSAGraphBuilder::DealWithSpecialOp(ir::Graph *result, ir::Node *node) const { bool insert_op = false; if (OpHaveRole(*node, OpRole::kRPC)) { int op_dev_id = CreateRPCOp(result, node); PADDLE_ENFORCE(op_dev_id != -1, "Can not schedule the RPC operator to the right place."); if (node->Op()->Type() == "recv") { auto recv_vars_attr = boost::get>(node->Op()->GetNullableAttr( OpProtoAndCheckerMaker::OpRoleVarAttrName())); PADDLE_ENFORCE(recv_vars_attr.size() == 2UL); // [parameter, gradient] if (recv_vars_attr[0].find(".block") == std::string::npos) { bcast_var_name_set_[op_dev_id].emplace(recv_vars_attr[0]); } } insert_op = true; need_broadcast_var_ = true; } else if (OpHaveRole(*node, OpRole::kDist)) { int op_dev_id = CreateDistTrainOp(result, node); if (node->Op()->Type() == "concat") { auto origin_param_name = node->Op()->OutputArgumentNames()[0]; bcast_var_name_set_[op_dev_id].emplace(origin_param_name); } insert_op = true; } else { int op_dev_id = GetOpDeviceID(node); if (op_dev_id != -1) { // This op only runs on one specific device. CreateComputationalOp(result, node, op_dev_id); for (ir::Node *n : node->outputs) { sharded_var_device_.emplace(n->Name(), op_dev_id); } insert_op = true; } } return insert_op; } void SetOpInputsAllPlaces(ir::Graph *result, ir::Node *node, int num_places) { auto *op_handle = result->Get(kGraphOps).back(); for (ir::Node *input : node->inputs) { VarHandle *var = nullptr; for (int place_offset = 0; place_offset < num_places; ++place_offset) { auto &var_holders = result->Get(kGraphVars)[place_offset]; auto &var_holder = var_holders[input->Name()]; if (!var_holder.empty()) { var = *var_holder.rbegin(); op_handle->AddInput(var); } } } } // Create RPC related op handles that connects its in ops and out ops. int DistSSAGraphBuilder::CreateRPCOp(ir::Graph *result, ir::Node *node) const { int op_dev_id = -1; if (node->Op()->Type() == "send") { // TODO(paddle-dev): getting the first var is not safe. op_dev_id = GetVarDeviceID(node->inputs[0]->Name()); PADDLE_ENFORCE(!ir::IsControlDepVar(*node->inputs[0]), "This hack no longer holds, please fix."); // the variable name which contains .block means it was splited by // split_byref op if (strategy_.reduce_ == BuildStrategy::ReduceStrategy::kAllReduce && node->inputs[0]->Name().find(".block") == std::string::npos) { std::vector input_var_names; for (ir::Node *n : node->inputs) { input_var_names.push_back(n->Name()); } auto send_param_grad = boost::get>( node->Op()->GetAttr(OpProtoAndCheckerMaker::OpRoleVarAttrName())); PADDLE_ENFORCE_EQ(send_param_grad.size(), 2U); op_dev_id = GetAppropriateDeviceID({send_param_grad[1]}); VLOG(10) << "send grad " << input_var_names[0] << " origin " << send_param_grad[1] << " place: " << op_dev_id; for (auto &varname : input_var_names) { sharded_var_device_.emplace(varname, op_dev_id); } sharded_var_device_.emplace(send_param_grad[1], op_dev_id); } } else if (node->Op()->Type() == "recv") { std::vector output_var_names; for (ir::Node *n : node->outputs) { output_var_names.push_back(n->Name()); } auto recv_param_grad = boost::get>( node->Op()->GetAttr(OpProtoAndCheckerMaker::OpRoleVarAttrName())); if (recv_param_grad.size() == 2U) { op_dev_id = GetVarDeviceID(recv_param_grad[1]); VLOG(10) << "recv param " << recv_param_grad[0] << " get grad place: " << recv_param_grad[1] << " place: " << op_dev_id; } else { op_dev_id = GetAppropriateDeviceID(output_var_names); } for (auto &varname : output_var_names) { sharded_var_device_.emplace(varname, op_dev_id); } } else { // send_barrier, fetch_barrier will run on place 0; op_dev_id = 0; } PADDLE_ENFORCE(op_dev_id != -1, "can not find the right place for rpc op: %s", node->Op()->Type()); result->Get(kGraphOps).emplace_back(new RPCOpHandle( result->CreateOpNode(node->Op()), *node->Op(), local_scopes_[op_dev_id], node->Op()->Type(), places_[op_dev_id])); if (node->Op()->Type() == "send") { CreateOpHandleIOs(result, node, op_dev_id); } else { // send_barrier, recv, fetch_barrier's inputs are deps var, get them from // all places auto p = places_[op_dev_id]; auto *op_handle = result->Get(kGraphOps).back(); op_handle->SetDeviceContext(p, platform::DeviceContextPool::Instance().Get(p)); SetOpInputsAllPlaces(result, node, places_.size()); for (ir::Node *output : node->outputs) { int outvar_dev_id = op_dev_id; if (node->Op()->Type() == "fetch_barrier") { outvar_dev_id = GetVarDeviceID(output->Name()); PADDLE_ENFORCE_NE(outvar_dev_id, -1, "output name %s", output->Name()); } p = places_[outvar_dev_id]; ir::Node *new_node = nullptr; if (output->Var()) { new_node = result->CreateVarNode(output->Var()); } else { new_node = result->CreateEmptyNode(output->Name(), ir::Node::Type::kVariable); } CreateOpOutput(result, op_handle, new_node, p, outvar_dev_id); } } return op_dev_id; } int DistSSAGraphBuilder::CreateDistTrainOp(ir::Graph *result, ir::Node *node) const { int op_dev_id = -1; std::vector input_var_names; std::vector output_var_names; for (ir::Node *input : node->inputs) { input_var_names.push_back(input->Name()); } for (ir::Node *output : node->outputs) { output_var_names.push_back(output->Name()); } if (node->Op()->Type() == "split_byref" || node->Op()->Type() == "split_selected_rows" || node->Op()->Type() == "split_ids") { // TODO(paddle-dev): getting the first var is not safe. op_dev_id = GetVarDeviceID(input_var_names[0]); if (strategy_.reduce_ == BuildStrategy::ReduceStrategy::kAllReduce) { op_dev_id = GetAppropriateDeviceID(input_var_names); for (auto &varname : input_var_names) { sharded_var_device_.emplace(varname, op_dev_id); } } for (auto &varname : output_var_names) { sharded_var_device_.emplace(varname, op_dev_id); } } else if (node->Op()->Type() == "concat") { op_dev_id = GetVarDeviceID(input_var_names[0]); for (auto &varname : output_var_names) { sharded_var_device_.emplace(varname, op_dev_id); } } else { LOG(ERROR) << "got unexpected dist op: " << node->Op()->Type(); PADDLE_THROW( "the distribute training related op should be in [split_byref, " "concat]."); } PADDLE_ENFORCE(op_dev_id != -1, "can not find right place for distributed op: %s", node->Op()->Type()); CreateComputationalOp(result, node, op_dev_id); return op_dev_id; } void DistSSAGraphBuilder::InsertCollectiveOp(ir::Graph *result, const std::string &p_name, const std::string &g_name) const { size_t cur_device_id = 0; switch (strategy_.reduce_) { case BuildStrategy::ReduceStrategy::kReduce: cur_device_id = GetAppropriateDeviceID({g_name}); CreateReduceOp(result, g_name, cur_device_id); sharded_var_device_.emplace(g_name, cur_device_id); break; case BuildStrategy::ReduceStrategy::kAllReduce: if (IsSparseGradient(g_name)) { CreateReduceOp(result, g_name, 0); CreateBroadcastOp(result, g_name, 0); } else { CreateAllReduceOp(result, g_name); } break; default: LOG(FATAL) << "Unknown reduce strategy."; break; } } void DistSSAGraphBuilder::InsertPostprocessOps(ir::Graph *result) const { // broad cast received parameters when training in parameter server mode. if (need_broadcast_var_) { // There are 4 conditions: // 1. GPU && Reduce: Reduce gradient then broadcast gradient to other GPUS. // Need to broadcast received parameters to other GPU. // 2. GPU && AllReduce: AllReduce all graident to each GPU. Need to // broadcast received parameters to other GPU. // 3. CPU && AllReduce: AllReduce all gradient to each thread. Need to // broadcast received parameters to other scope. // 4. CPU && Reduce: because all parameters share the same memory, did not // broadcast received parameters. if (!UseGPU() && strategy_.reduce_ == BuildStrategy::ReduceStrategy::kReduce) { return; } if (strategy_.fuse_broadcast_op_) { CreateFusedBroadcastOp(result, bcast_var_name_set_); } else { for (size_t dev_id = 0; dev_id < bcast_var_name_set_.size(); ++dev_id) { auto &to_bcast_set = bcast_var_name_set_[dev_id]; for (auto &bcast_name : to_bcast_set) { CreateBroadcastOp(result, bcast_name, dev_id); } } } } } std::unordered_set &MultiDevSSAGraphBuilder() { static std::unordered_set regs; return regs; } static int MultiDevSSAGraphBuilderRegister(const std::string &builder_mode) { MultiDevSSAGraphBuilder().insert(builder_mode); return 0; } } // namespace details } // namespace framework } // namespace paddle #define REGISTER_MULTI_DEVICES_PASS(pass_name, pass_class) \ STATIC_ASSERT_GLOBAL_NAMESPACE( \ _reg_ssa_graph_builder_##pass_name, \ "REGISTER_MULTI_DEVICES_PASS must be called in global namespace."); \ int _reg_ssa_graph_builder_entry_##pass_name = \ paddle::framework::details::MultiDevSSAGraphBuilderRegister(#pass_name); \ REGISTER_PASS(pass_name, pass_class) \ .RequirePassAttr(paddle::framework::details::kLossVarName) \ .RequirePassAttr(paddle::framework::details::kPlaces) \ .RequirePassAttr(paddle::framework::details::kLocalScopes) \ .RequirePassAttr(paddle::framework::details::kStrategy) \ .RequirePassAttr(paddle::framework::details::kNRanks) REGISTER_MULTI_DEVICES_PASS(reduce_mode_multi_devices_pass, paddle::framework::details::ReduceSSAGraphBuilder); REGISTER_MULTI_DEVICES_PASS( all_reduce_mode_multi_devices_pass, paddle::framework::details::AllReduceSSAGraphBuilder); REGISTER_MULTI_DEVICES_PASS(dist_multi_devices_pass, paddle::framework::details::DistSSAGraphBuilder);