// 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/memory_optimize_pass.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "gflags/gflags.h" #include "paddle/fluid/framework/data_type.h" #include "paddle/fluid/framework/ir/graph.h" #include "paddle/fluid/framework/ir/graph_helper.h" DEFINE_bool(enable_subgraph_optimize, false, "SubGraph also reuse global graph variables, it will reduce the " "memory occupation" "but a higher risk of memory reuse error. default disabled."); DEFINE_string(memory_optimize_debug, "", "debug the operator output variable when do the variable reuse." "memory reuse pass." "only for debug, default disabled."); namespace paddle { namespace framework { namespace details { std::unique_ptr MemoryOptimizePass::ApplyImpl( std::unique_ptr graph) const { auto nodes = graph->Nodes(); CollectSkipVarsSet(nodes); cfg_.reset(new details::ControlFlowGraph(*graph)); cfg_->LiveVariableAnalysis(); InitSSAGraphNodes(); int reuse_id = 0; for (size_t idx = 0; idx < cfg_->Ops().size(); ++idx) { auto& op = cfg_->Ops()[idx]; auto* op_desc = op->Op(); // some op in graph has no op desc if (op_desc == nullptr) continue; if (OpHasSubBlock(op_desc)) { if (FLAGS_enable_subgraph_optimize) { SubGraphOptimize(op_desc); } else { VLOG(3) << op->Name() << " has subblock, but disable subgraph optimize. skipped."; continue; } } for (auto& var : op->outputs) { if (var->IsVar() && !var->IsCtrlVar() && skip_set_.count(var->Name())) { VLOG(3) << "Skip set contains variable of " << var->Name() << "disable reuse on it. skipped"; continue; } if (NodeCanReused(var) && cfg_->Use(op).count(var->Name()) == 0) { ir::Node* cache = pool_.FindBestFitNode(var); while (cache != nullptr && var->Name() == cache->Name()) { VLOG(3) << "The same cache variable is cascade reused. " << var->Name() << " is re-filled to the pool after" << "the reused op is finished. Current op can not " << "replace it again. Skip this candidate."; cache = pool_.FindNextBestFitNode(var, cache); } if (var->Name() == FLAGS_memory_optimize_debug) { VLOG(3) << "start match var " << DebugString(var) << " of op " << op->Name(); VLOG(3) << pool_.ToString(); VLOG(3) << "matched in pool : " << ((cache == nullptr) ? "False" : "True"); } if (cache != nullptr) { int node_idx_in_pool = pool_.GetNodeIndexInPool(cache); VLOG(3) << string::Sprintf( "!!! %s, %s => %s, cache idx %d, pool size %d", std::to_string(reuse_id++), DebugString(var), DebugString(cache), node_idx_in_pool, static_cast(pool_.size())); // NOTE(dzhwinter): update the ProgramDesc/IR Graph // and the CFG Graph on the fly. // // IR Graph define the dependence relationship between nodes. // // ProgramDesc defines the input/output vars. Its used in // CreateOp, CreateVar when running happens. // // CFG Graph store the liveness information, when reuse happens // we also need to update the variable liveness. const std::string var_name = var->Name(); const std::string cache_name = cache->Name(); cfg_->RenameVarInCFGGraph(var_name, cache_name, idx); RenameVarInGraphDesc(var_name, cache_name, idx); RenameVarInGraphNode(var_name, cache_name, idx, graph.get()); pool_.Erase(cache_name); } } } // fill the pool for (auto var : cfg_->LiveIn(op)) { if (cfg_->LiveOut(op).count(var) == 0) { ir::Node* var_node = cfg_->GetNodeByName(var, op); if (var_node == nullptr || var_node->IsCtrlVar()) continue; if (NodeCanReused(var_node) && !pool_.Has(var_node)) { pool_.Insert(var_node); } } } } graph->ResolveHazard(var_nodes_); return graph; } void MemoryOptimizePass::SubGraphOptimize(OpDesc* op_desc) const { // conditional block, while op and their grad op auto* sub_block_desc = AttrReader(op_desc->GetAttrMap()).Get("sub_block"); // create a mirror block to construct an IR Graph. ProgramDesc prog; auto* copy_block = prog.MutableBlock(0); for (auto* op : sub_block_desc->AllOps()) { auto* copy_op = copy_block->AppendOp(); copy_op->CopyFrom(*op); copy_op->Flush(); } for (auto* var : sub_block_desc->AllVars()) { auto* copy_var = copy_block->Var(var->Name()); copy_var->SetDataType(var->GetDataType()); // only lod tensor can be reused. So ignore the multiple dims case. copy_var->SetType(var->GetType()); copy_var->SetShape(var->GetShape()); copy_var->SetPersistable(var->Persistable()); } ir::Graph sub_graph(prog); std::unordered_set sub_graph_all_ops; FilterVariables(sub_graph.Nodes(), [&](ir::Node* var) { // sub_graph_all_ops.emplace(var); if (var->IsVar() && !var->IsCtrlVar()) { sub_graph_all_ops.emplace(var); } }); int sub_reuse_id = 0; // subgraph nodes is unordered, reuse need to follow the desc order. // find the right op node through the descs for (auto* sub_op_desc : sub_block_desc->AllOps()) { ir::Node* sub_op = nullptr; for (auto* node : sub_graph_all_ops) { if (node->Op() == sub_op_desc) { sub_op = node; break; } } PADDLE_ENFORCE(sub_op != nullptr); for (auto* var : sub_op->outputs) { if (NodeCanReused(var)) { ir::Node* cache = pool_.FindBestFitNode(var); if (cache != nullptr) { if (var->Var()->GetDataType() != cache->Var()->GetDataType()) { continue; } int node_idx_in_pool = pool_.GetNodeIndexInPool(cache); VLOG(3) << string::Sprintf( "!!! %s, %s => %s, cache idx %d, pool size %d", std::to_string(sub_reuse_id++), DebugString(var), DebugString(cache), node_idx_in_pool, static_cast(pool_.size())); // NOTE(dzh): subblock is not in IR graph. Modify the block_desc // immediately to make the subblock variable reuse strategy take // effect. Because it is a single op in graph. No need to // update the ir nodes. sub_op_desc->Rename(var->Name(), cache->Name()); if (sub_op_desc->Block()->HasVar(var->Name())) { sub_op_desc->Block()->RemoveVar(var->Name()); } } } } } } void MemoryOptimizePass::CollectSkipVarsSet( const std::unordered_set& nodes) const { auto update_skip_set = [&](OpDesc* op_desc) { auto inputs = op_desc->InputArgumentNames(); auto outputs = op_desc->OutputArgumentNames(); skip_set_.insert(inputs.begin(), inputs.end()); skip_set_.insert(outputs.begin(), outputs.end()); }; for (auto& op : nodes) { if (!op->IsOp() || op->Op() == nullptr) continue; auto* op_desc = op->Op(); // NOTE(dzhwinter): // current block can not reuse next level block vars. if (OpHasSubBlock(op_desc)) update_skip_set(op_desc); // NOTE(dzhwinter): // distributed ops input/output name need to // keep same bettwen trainer/pserver if (op_desc->Type() == "send") update_skip_set(op_desc); if (op_desc->Type() == "recv") update_skip_set(op_desc); if (op_desc->Type() == "prefetch") update_skip_set(op_desc); } } void MemoryOptimizePass::RenameVarInGraphDesc(const std::string& var, const std::string& cache_var, size_t idx) const { for (size_t i = idx; i < cfg_->Ops().size(); ++i) { auto* op = cfg_->Ops()[i]; PADDLE_ENFORCE(op->IsOp() && op->Op()); auto* op_desc = op->Op(); op_desc->RenameInput(var, cache_var); op_desc->RenameOutput(var, cache_var); if (op_desc->Block()->HasVar(var)) op_desc->Block()->RemoveVar(var); op_desc->Flush(); } } void MemoryOptimizePass::InitSSAGraphNodes() const { std::unordered_map> all_vars; if (var_nodes_.empty()) { for (auto* op : cfg_->Ops()) { for (auto* node : op->inputs) { if (all_vars[node->Name()].count(node) == 0) { all_vars[node->Name()].emplace(node); var_nodes_[node->Name()].emplace_back(node); } } for (auto* node : op->outputs) { if (all_vars[node->Name()].count(node) == 0) { all_vars[node->Name()].emplace(node); var_nodes_[node->Name()].emplace_back(node); } } } } } void MemoryOptimizePass::RenameVarInGraphNode(const std::string& var, const std::string& cache_var, size_t idx, ir::Graph* graph) const { // if replace happens, we need to create a newer version cache_var // but use the same dims/data_type with var. PADDLE_ENFORCE(var_nodes_[var].size() >= 1 && var_nodes_[var].at(0)->Var() != nullptr); std::unique_ptr var_desc(new VarDesc(*var_nodes_[var].at(0)->Var())); var_desc->SetName(cache_var); for (size_t i = idx; i < cfg_->Ops().size(); ++i) { auto* op = cfg_->Ops()[i]; // redirect the input to the latest version of cache_var for (auto* node : op->inputs) { if (node->Name() == var) { ir::Node* cache_node = var_nodes_[cache_var].back(); // swap node to cache_node cache_node->outputs.insert(cache_node->outputs.end(), node->outputs.begin(), node->outputs.end()); PADDLE_ENFORCE(node->inputs.size() == 1 && node->inputs[0]->IsOp()); auto* prev_op = node->inputs[0]; std::replace(prev_op->outputs.begin(), prev_op->outputs.end(), node, cache_node); for (auto* next_op : node->outputs) { std::replace(next_op->inputs.begin(), next_op->inputs.end(), node, cache_node); } // erase unused node auto& nodes = var_nodes_.at(var); nodes.erase(std::remove(nodes.begin(), nodes.end(), node), nodes.end()); graph->RemoveNode(node); } } // if we need to rename the output, // always create a newer version of cache_var for (auto* node : op->outputs) { if (node->Name() == var) { ir::Node* cache_node = graph->CreateVarNode(var_desc.get()); var_nodes_[cache_var].emplace_back(cache_node); // swap node to cache node cache_node->outputs.insert(cache_node->outputs.end(), node->outputs.begin(), node->outputs.end()); cache_node->inputs.emplace_back(op); std::replace(op->outputs.begin(), op->outputs.end(), node, cache_node); for (auto* next_op : node->outputs) { std::replace(next_op->inputs.begin(), next_op->inputs.end(), node, cache_node); } // erase unused node auto& nodes = var_nodes_.at(var); nodes.erase(std::remove(nodes.begin(), nodes.end(), node), nodes.end()); graph->RemoveNode(node); } } } } } // namespace details } // namespace framework } // namespace paddle REGISTER_PASS(memory_optimize_pass, paddle::framework::details::MemoryOptimizePass) .RequireGraphAttr(paddle::framework::details::kAllOpDescs);