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!1460 Reduce weight memory usage & Remove redundant memcpy 

From: @xchu42
Reviewed-by: @wqtshg,@ji_chen
Signed-off-by: @lbisdaddy
tags/v1.2.0
mindspore-ci-bot Gitee 4 years ago
parent
4c0d85693a 24b2437361
commit
a4783ff468
10 changed files with 185 additions and 66 deletions
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  1. +0
    -38
      ge/graph/build/graph_builder.cc
  2. +1
    -1
      ge/hybrid/executor/hybrid_execution_context.h
  3. +15
    -7
      ge/hybrid/executor/hybrid_model_executor.cc
  4. +10
    -0
      ge/hybrid/executor/hybrid_model_pipeline_executor.cc
  5. +20
    -0
      ge/hybrid/model/hybrid_model.cc
  6. +8
    -1
      ge/hybrid/model/hybrid_model.h
  7. +95
    -1
      ge/hybrid/model/hybrid_model_builder.cc
  8. +8
    -0
      ge/hybrid/model/hybrid_model_builder.h
  9. +26
    -15
      ge/hybrid/node_executor/compiledsubgraph/known_node_executor.cc
  10. +2
    -3
      ge/hybrid/node_executor/compiledsubgraph/known_node_executor.h

+ 0
- 38
ge/graph/build/graph_builder.cc View File

@@ -399,41 +399,6 @@ static Status InsertMemcpyNode(const ComputeGraphPtr &graph, const OutDataAnchor
return SUCCESS;
}

static Status GenerateTaskForConstant(const std::shared_ptr<ComputeGraph> &graph) {
if (graph->GetGraphUnknownFlag()) {
GELOGI("Graph %s is unknown graph, ignore gen_task for constant.", graph->GetName().c_str());
return SUCCESS;
}
for (auto &node : graph->GetDirectNode()) {
// CONSTANT not generate task, so insert IDENTITY between CONSTANT and NETOUTPUT
auto op_desc = node->GetOpDesc();
if (op_desc == nullptr) {
continue;
}
auto op_type = op_desc->GetType();
if (op_type == NETOUTPUT) {
for (InDataAnchorPtr &in_data_anchor : node->GetAllInDataAnchors()) {
const OutDataAnchorPtr &peer_out_anchor = in_data_anchor->GetPeerOutAnchor();
GE_IF_BOOL_EXEC(peer_out_anchor == nullptr, continue);
NodePtr in_node = peer_out_anchor->GetOwnerNode();
GE_CHECK_NOTNULL(in_node);

std::string in_node_op_type = in_node->GetType();
if (in_node_op_type == CONSTANT) {
GELOGD("Insert MemcpyAsync node between %s and %s.", in_node->GetName().c_str(), node->GetName().c_str());
std::string name = node->GetName() + "_input_" + std::to_string(in_data_anchor->GetIdx()) + "_Memcpy";
if (InsertMemcpyNode(graph, peer_out_anchor, {in_data_anchor}, name) != SUCCESS) {
GELOGE(FAILED, "Insert memcpy between %s and %s failed.",
in_node->GetName().c_str(), node->GetName().c_str());
return FAILED;
}
}
}
}
}
return SUCCESS;
}

Status GraphBuilder::MarkFpBpProfilingTaskAttr(ComputeGraphPtr &com_graph) {
bool original_unknown_shape_flag = com_graph->GetGraphUnknownFlag();
com_graph->SetGraphUnknownFlag(false);
@@ -516,9 +481,6 @@ Status GraphBuilder::BuildForDynamicShapeGraph(ComputeGraphPtr &comp_graph,
!sub_graph->GetParentGraph()->GetGraphUnknownFlag()) {
continue;
}

GE_CHK_STATUS_RET(GenerateTaskForConstant(sub_graph), "Generate task For constant node in subgraph failed.");

if (sub_graph->GetGraphUnknownFlag()) {
// unknown shape build flow
GE_CHK_STATUS_RET(BuildForUnknownShapeGraph(sub_graph, ge_model_ptr, session_id),


+ 1
- 1
ge/hybrid/executor/hybrid_execution_context.h View File

@@ -68,7 +68,7 @@ struct GraphExecutionContext {
DumpProperties dump_properties;
bool trace_enabled = false;
bool dump_enabled = false;
std::atomic_bool is_eos_;
std::atomic_bool is_eos_{false};
long profiling_level = 0;
long iteration = 0;
void *global_step = nullptr;


+ 15
- 7
ge/hybrid/executor/hybrid_model_executor.cc View File

@@ -33,9 +33,6 @@ HybridModelExecutor::~HybridModelExecutor() {
if (context_.rt_gen_context != nullptr) {
(void) rtCtxDestroy(context_.rt_gen_context);
}
if (context_.global_step != nullptr) {
(void) rtFree(context_.global_step);
}
}

Status HybridModelExecutor::Init() {
@@ -49,9 +46,10 @@ Status HybridModelExecutor::Execute(HybridModelExecutor::ExecuteArgs &args) {
GELOGD("Start to execute model.");
auto root_graph_item = model_->GetRootGraphItem();
GE_CHECK_NOTNULL(root_graph_item);

GE_CHK_RT_RET(rtMemcpyAsync(context_.global_step, sizeof(uint64_t), &context_.iteration,
sizeof(uint64_t), RT_MEMCPY_HOST_TO_DEVICE_EX, context_.stream));
if (context_.global_step != nullptr) {
GE_CHK_RT_RET(rtMemcpyAsync(context_.global_step, sizeof(uint64_t), &context_.iteration,
sizeof(uint64_t), RT_MEMCPY_HOST_TO_DEVICE_EX, context_.stream));
}
SubgraphExecutor executor(model_->GetRootGraphItem(), &context_);
auto ret = ExecuteGraphInternal(executor, args);
Cleanup();
@@ -102,8 +100,8 @@ Status HybridModelExecutor::InitExecutionContext() {
GE_CHK_RT_RET(rtCtxGetCurrent(&context_.rt_context));
GE_CHK_RT_RET(rtCtxCreate(&context_.rt_gen_context, RT_CTX_GEN_MODE, 0));
GE_CHK_RT_RET(rtCtxSetCurrent(context_.rt_context));
GE_CHK_RT_RET(rtMalloc(&context_.global_step, sizeof(uint64_t), RT_MEMORY_HBM));

context_.global_step = model_->GetGlobalStep();
context_.stream = stream_;
context_.model = model_;
context_.is_eos_ = false;
@@ -136,6 +134,16 @@ Status HybridModelExecutor::ResetExecutionContext(GraphExecutionContext &context
string ctx_id = std::to_string(context.context_id);
RuntimeInferenceContext::DestroyContext(ctx_id);
GE_CHK_GRAPH_STATUS_RET(RuntimeInferenceContext::CreateContext(ctx_id), "Failed to Destroy RuntimeInferenceContext");
RuntimeInferenceContext *ctx = nullptr;
GE_CHK_GRAPH_STATUS_RET(RuntimeInferenceContext::GetContext(ctx_id, &ctx), "Failed to get context");
for (auto &host_tensor : context.model->GetHostTensors()) {
auto node_id = host_tensor.first;
for (const auto &output_idx_and_tensor : host_tensor.second) {
auto output_idx = output_idx_and_tensor.first;
GELOGD("Preload const host tensor, node_id = %ld, output id = %d", node_id, output_idx);
ctx->SetTensor(node_id, output_idx, output_idx_and_tensor.second.Clone());
}
}
return SUCCESS;
}
} // namespace hybrid


+ 10
- 0
ge/hybrid/executor/hybrid_model_pipeline_executor.cc View File

@@ -38,6 +38,16 @@ Status StageExecutor::ResetExecutionContext(GraphExecutionContext &context) {
string ctx_id = std::to_string(context.context_id);
RuntimeInferenceContext::DestroyContext(ctx_id);
GE_CHK_GRAPH_STATUS_RET(RuntimeInferenceContext::CreateContext(ctx_id), "Failed to Destroy RuntimeInferenceContext");
RuntimeInferenceContext *ctx = nullptr;
GE_CHK_GRAPH_STATUS_RET(RuntimeInferenceContext::GetContext(ctx_id, &ctx), "Failed to get context");
for (auto &host_tensor : context.model->GetHostTensors()) {
auto node_id = host_tensor.first;
for (const auto &output_idx_and_tensor : host_tensor.second) {
auto output_idx = output_idx_and_tensor.first;
GELOGD("Preload const host tensor, node_id = %ld, output id = %d", node_id, output_idx);
ctx->SetTensor(node_id, output_idx, output_idx_and_tensor.second.Clone());
}
}
return SUCCESS;
}



+ 20
- 0
ge/hybrid/model/hybrid_model.cc View File

@@ -357,5 +357,25 @@ TensorValue *HybridModel::GetTensor(const NodePtr &node) const {

return GetVariable(node->GetName());
}

const map<int64_t, std::vector<std::pair<int, Tensor>>> &HybridModel::GetHostTensors() const {
return host_tensors_;
}

void *HybridModel::GetGlobalStep() const {
if (global_step_ == nullptr) {
return nullptr;
}
return global_step_->GetData();
}

TensorBuffer *HybridModel::GetModelWeight(const string &subgraph_name) const {
auto it = weight_buffer_map_.find(subgraph_name);
if (it == weight_buffer_map_.end()) {
GELOGD("Model weight not found, subgraph name = %s", subgraph_name.c_str());
return nullptr;
}
return it->second.get();
}
} // namespace hybrid
} // namespace ge

+ 8
- 1
ge/hybrid/model/hybrid_model.h View File

@@ -45,6 +45,8 @@ class HybridModel {
return root_runtime_param_.session_id;
}

void *GetGlobalStep() const;

GeModelPtr GetGeModel(const NodePtr &node) const;

NodeItem *MutableNodeItem(const NodePtr &node);
@@ -91,6 +93,10 @@ class HybridModel {

TensorValue* GetTensor(const NodePtr &node) const;

TensorBuffer* GetModelWeight(const std::string &subgraph_name) const;

const std::map<int64_t, std::vector<std::pair<int, Tensor>>> &GetHostTensors() const;

const std::vector<domi::TaskDef>* GetTaskDefs(const NodePtr &node) const;

const GraphItem *GetRootGraphItem() const;
@@ -146,6 +152,7 @@ class HybridModel {
std::unique_ptr<GraphItem> root_graph_item_;
std::map<std::string, std::unique_ptr<GraphItem>> subgraph_items_;
std::map<NodePtr, std::unique_ptr<NodeItem>> node_items_;
std::map<int64_t, std::vector<std::pair<int, Tensor>>> host_tensors_;

bool is_new_model_desc_ = false; // support aipp
bool is_single_op_ = false;
@@ -154,10 +161,10 @@ class HybridModel {
uint32_t device_id_ = 0;
uint32_t model_id_ = 0;
uint8_t *var_mem_base_ = nullptr;
std::unique_ptr<TensorBuffer> weight_buffer_;
std::map<string, std::unique_ptr<TensorBuffer>> weight_buffer_map_;
RuntimeParam root_runtime_param_;
string om_name_;
std::unique_ptr<TensorBuffer> global_step_;
};
} // namespace hybrid
} // namespace ge


+ 95
- 1
ge/hybrid/model/hybrid_model_builder.cc View File

@@ -145,6 +145,9 @@ Status HybridModelBuilder::Build() {
GE_CHK_STATUS_RET(InitConstantOps(), "[%s] Failed to init constant op", GetGraphName());
GE_CHK_STATUS_RET(InitVariableTensors(), "[%s] Failed to init variables", GetGraphName());
GE_CHK_STATUS_RET(LoadTasks(), "[%s] Failed to load tasks", GetGraphName());
GE_CHK_STATUS_RET(OptimizeDependenciesForConstantInputs(),
"[%s] Failed to optimize dependencies for constant inputs",
GetGraphName());
GELOGI("[%s] Done building hybrid model successfully.", GetGraphName());
return SUCCESS;
}
@@ -346,6 +349,7 @@ Status HybridModelBuilder::ParseDependentInputNodes(NodeItem &node_item, const s
auto src_node_item = MutableNodeItem(src_node);
src_node_item->to_const_output_id_list.emplace(peer_out_anchor->GetIdx());
dependent_for_shape_inference.emplace(src_node);
host_input_value_dependencies_[&node_item].emplace_back(peer_out_anchor->GetIdx(), src_node_item);
GELOGD("[%s] Dependent added from output of [%s:%d]",
node_item.NodeName().c_str(),
src_node_item->NodeName().c_str(),
@@ -1494,7 +1498,7 @@ Status HybridModelBuilder::IdentifyVariableOutputs(NodeItem &node_item) {
src_node->GetName().c_str(),
src_op_type.c_str());

if (src_op_type != CONSTANTOP && src_op_type != VARIABLE) {
if (src_op_type != CONSTANTOP && src_op_type != CONSTANT && src_op_type != VARIABLE) {
continue;
}

@@ -1503,6 +1507,9 @@ Status HybridModelBuilder::IdentifyVariableOutputs(NodeItem &node_item) {
GELOGD("Got parent output index = %u", parent_index);
GE_CHECK_LE(parent_index, INT32_MAX);
node_item.ref_outputs.emplace(static_cast<int>(parent_index), src_node);
if (src_op_type == CONSTANTOP || src_op_type == CONSTANT) {
known_subgraph_constant_output_refs_[&node_item].emplace(parent_index, src_node);
}
}

// Data nodes marked with REF_VAR_SRC_VAR_NAME
@@ -1568,6 +1575,10 @@ Status HybridModelBuilder::InitModelMem() {
}

runtime_param_.var_base = hybrid_model_.var_mem_base_;
auto allocator = NpuMemoryAllocator::GetAllocator();
GE_CHECK_NOTNULL(allocator);
hybrid_model_.global_step_ = TensorBuffer::Create(allocator, sizeof(int64_t));
GE_CHECK_NOTNULL(hybrid_model_.global_step_);
return SUCCESS;
}

@@ -2127,5 +2138,88 @@ Status HybridModelBuilder::ParseDependentByParallelGroup() {
}
return SUCCESS;
}

Status HybridModelBuilder::OptimizeDependenciesForConstantInputs() {
std::map<NodePtr, std::set<uint32_t>> converted;
for (auto &it : host_input_value_dependencies_) {
auto node_item = it.first;
std::map<NodeItem *, int> ref_counts;
bool changed = false;
for (auto output_idx_and_node : it.second) {
auto output_idx = output_idx_and_node.first;
auto src_node_item = output_idx_and_node.second;
++ref_counts[src_node_item];
NodePtr constant_node;
if (src_node_item->node_type == CONSTANT || src_node_item->node_type == CONSTANTOP) {
constant_node = src_node_item->node;
GELOGD("src node [%s] is a constant", src_node_item->NodeName().c_str());
} else {
auto iter = known_subgraph_constant_output_refs_.find(src_node_item);
if (iter != known_subgraph_constant_output_refs_.end()) {
constant_node = iter->second[output_idx];
if (constant_node != nullptr) {
GELOGD("Output[%u] of subgraph [%s] is a constant", output_idx, src_node_item->NodeName().c_str());
}
}
}

if (constant_node == nullptr) {
GELOGD("Output[%u] of [%s] is not a constant", output_idx, src_node_item->NodeName().c_str());
continue;
}

if (converted[constant_node].count(output_idx) == 0) {
GE_CHK_STATUS_RET(Convert2HostTensor(constant_node, src_node_item->node_id, output_idx),
"[%s] Failed to convert constant to host tensor", constant_node->GetName().c_str());
converted[constant_node].emplace(output_idx);
}

src_node_item->to_const_output_id_list.erase(output_idx);
--ref_counts[src_node_item];
changed = true;
}

if (changed) {
std::vector<NodePtr> depends_to_keep;
for (auto &ref_count_it : ref_counts) {
if (ref_count_it.second == 0) {
GELOGD("[%s] no longer depends on [%s] for shape inference",
node_item->NodeName().c_str(),
ref_count_it.first->NodeName().c_str());
} else {
depends_to_keep.emplace_back(ref_count_it.first->node);
}
}
node_item->dependents_for_shape_inference.swap(depends_to_keep);
}
}

return SUCCESS;
}
Status HybridModelBuilder::Convert2HostTensor(const NodePtr &node, int node_id, uint32_t output_idx) {
auto tensor_value = hybrid_model_.GetTensor(node);
GE_CHECK_NOTNULL(tensor_value);
auto tensor_desc = node->GetOpDesc()->MutableOutputDesc(0);
GE_CHECK_NOTNULL(tensor_desc);
Tensor tensor(TensorAdapter::GeTensorDesc2TensorDesc(*tensor_desc));
int64_t tensor_size = -1;
GE_CHK_GRAPH_STATUS_RET(TensorUtils::GetTensorSizeInBytes(*tensor_desc, tensor_size),
"[%s] Failed to get tensor size", node->GetName().c_str());
if (tensor_size > 0) {
auto copy_size = static_cast<size_t>(tensor_size);
GE_CHECK_GE(tensor_value->GetSize(), copy_size);
std::vector<uint8_t> buffer(copy_size);
GE_CHK_RT_RET(rtMemcpy(buffer.data(),
copy_size,
tensor_value->GetData(),
copy_size,
RT_MEMCPY_DEVICE_TO_HOST));
tensor.SetData(std::move(buffer));
GELOGD("[%s] Copy constant tensor to host successfully, size = %zu", node->GetName().c_str(), copy_size);
}

hybrid_model_.host_tensors_[node_id].emplace_back(output_idx, std::move(tensor));
return SUCCESS;
}
} // namespace hybrid
} // namespace ge

+ 8
- 0
ge/hybrid/model/hybrid_model_builder.h View File

@@ -91,6 +91,8 @@ class HybridModelBuilder {
Status GenerateBpProfilingTask(const OpDescPtr &op_desc, vector<domi::TaskDef> &task_def_list);
Status GenerateEndProfilingTask(const OpDescPtr &op_desc, vector<domi::TaskDef> &task_def_list);
Status GenerateArProfilingTask(const OpDescPtr &op_desc, int64_t log_id, vector<domi::TaskDef> &task_def_list);
Status OptimizeDependenciesForConstantInputs();
Status Convert2HostTensor(const NodePtr &node, int node_id, uint32_t output_idx);

const char* GetGraphName() const {
return hybrid_model_.model_name_.c_str();
@@ -110,6 +112,12 @@ class HybridModelBuilder {

RuntimeParam &runtime_param_;
VarManager *var_manager_ = nullptr;

// map<known_node_item, map<output_idx, constant_node>>
std::map<NodeItem *, std::map<uint32_t, NodePtr>> known_subgraph_constant_output_refs_;

// map<dst_node_item, vector<output_idx, src_node_item>>
std::map<NodeItem *, std::vector<std::pair<uint32_t, NodeItem *>>> host_input_value_dependencies_;
};
} // namespace hybrid
} // namespace ge


+ 26
- 15
ge/hybrid/node_executor/compiledsubgraph/known_node_executor.cc View File

@@ -18,6 +18,7 @@
#include "cce/aicpu_engine_struct.h"
#include "framework/common/debug/ge_log.h"
#include "framework/common/fmk_error_codes.h"
#include "common/dump/dump_manager.h"
#include "common/ge/ge_util.h"
#include "graph/attr_value.h"
#include "graph/debug/ge_attr_define.h"
@@ -110,15 +111,6 @@ Status KnownNodeTask::Init(TaskContext &context) {
GELOGI("KnownNodeTask::Init mem base is %p, size %lu.",
davinci_model_->GetRuntimeParam().mem_base, davinci_model_->GetRuntimeParam().mem_size);
}
if (!load_flag_) {
auto dump_properties = context.GetDumpProperties();
if (dump_properties.IsDumpOpen() || dump_properties.IsOpDebugOpen()) {
davinci_model_->SetDumpProperties(dump_properties);
void *global_step = context.GetExecutionContext()->global_step;
davinci_model_->SetKnownShapeGlobalStep(global_step);
}
load_flag_ = true;
}
GE_CHK_STATUS_RET(ModelManager::GetInstance()->DestroyAicpuKernel(davinci_model_->GetSessionId(),
davinci_model_->Id(), davinci_model_->SubModelId()),
"KnownNodeTask::Init destroy aicpu kernel failed.");
@@ -126,20 +118,35 @@ Status KnownNodeTask::Init(TaskContext &context) {
return SUCCESS;
}

Status KnownNodeTask::InitDavinciModel() {
GELOGD("[Init][Model] start");
Status KnownNodeTask::InitDavinciModel(const HybridModel &model, TensorBuffer *weight_buffer) {
GELOGD("[Init][DavinciModel] start");
davinci_model_->InitRuntimeParams();
GE_CHK_STATUS_RET(davinci_model_->InitVariableMem(), "init variable mem failed");
int32_t device_id = 0;
GE_CHK_RT_RET(rtGetDevice(&device_id));
davinci_model_->SetDeviceId(static_cast<uint32_t>(device_id));
GE_CHK_STATUS_RET(DoInitDavinciModel(), "[Init][Model] Failed to init davinci model.");

auto dump_properties = DumpManager::GetInstance().GetDumpProperties(model.GetSessionId());
if (dump_properties.IsDumpOpen() || dump_properties.IsOpDebugOpen()) {
davinci_model_->SetDumpProperties(dump_properties);
void *global_step = model.GetGlobalStep();
davinci_model_->SetKnownShapeGlobalStep(global_step);
}

void *weight = nullptr;
size_t weight_size = 0;
if (weight_buffer != nullptr) {
weight = weight_buffer->GetData();
weight_size = weight_buffer->GetSize();
}
GELOGD("Start to init davinci model, weight size = %zu", weight_size);
GE_CHK_STATUS_RET(DoInitDavinciModel(weight, weight_size), "[Init][Model] Failed to init davinci model.");
GELOGD("[Init][Model] success");
return SUCCESS;
}

Status KnownNodeTask::DoInitDavinciModel() {
return davinci_model_->Init();
Status KnownNodeTask::DoInitDavinciModel(void *weight, size_t weight_size) {
return davinci_model_->Init(nullptr, 0, weight, weight_size);
}

Status KnownNodeExecutor::PrepareTask(NodeTask &task, TaskContext &context) const {
@@ -165,6 +172,10 @@ Status KnownNodeExecutor::LoadTask(const HybridModel &model, const NodePtr &node
const GeModelPtr ge_model = model.GetGeModel(node);
GE_CHECK_NOTNULL(ge_model);

AscendString graph_name;
GE_CHK_GRAPH_STATUS_RET(ge_model->GetGraph().GetName(graph_name), "Failed to get graph name");
auto weight_buffer = model.GetModelWeight(graph_name.GetString());

std::shared_ptr<DavinciModel> davinci_model = MakeShared<DavinciModel>(0, nullptr);
GE_CHECK_NOTNULL(davinci_model);

@@ -181,7 +192,7 @@ Status KnownNodeExecutor::LoadTask(const HybridModel &model, const NodePtr &node

auto known_node_task = MakeShared<KnownNodeTask>(davinci_model);
GE_CHECK_NOTNULL(known_node_task);
GE_CHK_STATUS_RET_NOLOG(known_node_task->InitDavinciModel());
GE_CHK_STATUS_RET_NOLOG(known_node_task->InitDavinciModel(model, weight_buffer));
GELOGI("[%s] KnownNodeExecutor::LoadTask success.", node->GetName().c_str());
task = std::move(known_node_task);
return SUCCESS;


+ 2
- 3
ge/hybrid/node_executor/compiledsubgraph/known_node_executor.h View File

@@ -36,13 +36,12 @@ class KnownNodeTask : public NodeTask {
Status UpdateArgs(TaskContext &context) override;
Status ExecuteAsync(TaskContext &context, std::function<void()> done_callback) override;
Status Init(TaskContext &context) override;
Status InitDavinciModel();
Status InitDavinciModel(const HybridModel &model, TensorBuffer *weight_buffer);

protected:
virtual Status DoInitDavinciModel();
virtual Status DoInitDavinciModel(void *weight, size_t weight_size);
private:
std::shared_ptr<DavinciModel> davinci_model_ = nullptr;
bool load_flag_ = false;
};

class KnownNodeExecutor : public NodeExecutor {


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