unknown
5 years ago
2 changed files with 61 additions and 56 deletions
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+51 -55ge/hybrid/node_executor/aicpu/aicpu_node_executor.cc
-
+10 -1ge/hybrid/node_executor/aicpu/aicpu_node_executor.h
+ 51
- 55
ge/hybrid/node_executor/aicpu/aicpu_node_executor.cc
View File
| @@ -356,6 +356,38 @@ Status AicpuTfNodeTask::Init(const HybridModel &model) { | |||||
| return SUCCESS; | return SUCCESS; | ||||
| } | } | ||||
| Status AicpuTfNodeTask::SetMemCopyTask(const domi::TaskDef &task_def) { | |||||
| const domi::KernelExDef &kernel_def = task_def.kernel_ex(); | |||||
| if (kernel_def.args_size() > sizeof(STR_FWK_OP_KERNEL)) { | |||||
| GELOGE(PARAM_INVALID, "sizeof STR_FWK_OP_KERNEL is: %lu, but args_size is: %d", | |||||
| sizeof(STR_FWK_OP_KERNEL), kernel_def.args_size()); | |||||
| return PARAM_INVALID; | |||||
| } | |||||
| GE_CHK_STATUS_RET(AllocTensorBuffer(kernel_def.task_info_size(), copy_workspace_buf_), | |||||
| "Node[%s] alloc copy task workspace buf failed, size=%zu.", | |||||
| node_name_.c_str(), kernel_def.task_info_size()); | |||||
| GE_CHK_RT_RET(rtMemcpy(copy_workspace_buf_->GetData(), kernel_def.task_info_size(), | |||||
| kernel_def.task_info().data(), kernel_def.task_info_size(), RT_MEMCPY_HOST_TO_DEVICE)); | |||||
| STR_FWK_OP_KERNEL aicpu_task = {0}; | |||||
| auto sec_ret = memcpy_s(&aicpu_task, sizeof(STR_FWK_OP_KERNEL), | |||||
| kernel_def.args().data(), kernel_def.args().size()); | |||||
| if (sec_ret != EOK) { | |||||
| GELOGE(FAILED, "memcpy failed, ret: %d", sec_ret); | |||||
| return FAILED; | |||||
| } | |||||
| aicpu_task.fwkKernelBase.fwk_kernel.inputOutputAddr = reinterpret_cast<uintptr_t>(copy_ioaddr_dev_->GetData()); | |||||
| aicpu_task.fwkKernelBase.fwk_kernel.workspaceBaseAddr = reinterpret_cast<uintptr_t>(copy_workspace_buf_->GetData()); | |||||
| aicpu_task.fwkKernelBase.fwk_kernel.extInfoAddr = 0; | |||||
| aicpu_task.fwkKernelBase.fwk_kernel.extInfoLen = 0; | |||||
| GE_CHK_RT_RET(rtMemcpy(copy_task_args_buf_->GetData(), sizeof(STR_FWK_OP_KERNEL), | |||||
| &aicpu_task, sizeof(STR_FWK_OP_KERNEL), RT_MEMCPY_HOST_TO_DEVICE)); | |||||
| return SUCCESS; | |||||
| } | |||||
| uint64_t AicpuTfNodeTask::GetStepIdAddr(const HybridModel &model) { | uint64_t AicpuTfNodeTask::GetStepIdAddr(const HybridModel &model) { | ||||
| // get step_id_addr | // get step_id_addr | ||||
| auto var_tensor = model.GetVariable(NODE_NAME_GLOBAL_STEP); | auto var_tensor = model.GetVariable(NODE_NAME_GLOBAL_STEP); | ||||
| @@ -410,30 +442,6 @@ Status AicpuTfNodeTask::CopyDataToHbm(TaskContext &context, | |||||
| uint64_t copy_num = 0; | uint64_t copy_num = 0; | ||||
| GE_CHK_STATUS_RET_NOLOG(PrepareCopyInputs(context, out_shape_hbm, copy_num)); | GE_CHK_STATUS_RET_NOLOG(PrepareCopyInputs(context, out_shape_hbm, copy_num)); | ||||
| STR_FWK_OP_KERNEL aicpu_task = {0}; | |||||
| std::string task_info; | |||||
| RECORD_CALLBACK_EVENT(context.GetExecutionContext(), node_name_.c_str(), | |||||
| "[GenMemCopyTask] Start"); | |||||
| GE_CHK_STATUS_RET_NOLOG(GenMemCopyTask(copy_num, aicpu_task, task_info)); | |||||
| RECORD_CALLBACK_EVENT(context.GetExecutionContext(), node_name_.c_str(), | |||||
| "[GenMemCopyTask] End"); | |||||
| std::unique_ptr<TensorBuffer> kernel_workspace_buf; | |||||
| GE_CHK_STATUS_RET(AllocTensorBuffer(task_info.size(), kernel_workspace_buf), | |||||
| "Node[%s] alloc copy task workspace buf failed, size=%zu.", | |||||
| node_name_.c_str(), task_info.size()); | |||||
| GE_CHK_RT_RET(rtMemcpy(kernel_workspace_buf->GetData(), task_info.size(), | |||||
| task_info.data(), task_info.size(), RT_MEMCPY_HOST_TO_DEVICE)); | |||||
| aicpu_task.fwkKernelBase.fwk_kernel.inputOutputAddr = reinterpret_cast<uintptr_t>(copy_ioaddr_dev_->GetData()); | |||||
| aicpu_task.fwkKernelBase.fwk_kernel.workspaceBaseAddr = reinterpret_cast<uintptr_t>(kernel_workspace_buf->GetData()); | |||||
| aicpu_task.fwkKernelBase.fwk_kernel.extInfoAddr = 0; | |||||
| aicpu_task.fwkKernelBase.fwk_kernel.extInfoLen = 0; | |||||
| GE_CHK_RT_RET(rtMemcpy(copy_task_args_buf_->GetData(), sizeof(STR_FWK_OP_KERNEL), | |||||
| &aicpu_task, sizeof(STR_FWK_OP_KERNEL), RT_MEMCPY_HOST_TO_DEVICE)); | |||||
| RECORD_CALLBACK_EVENT(context.GetExecutionContext(), node_name_.c_str(), "[LaunchCopy] Start"); | RECORD_CALLBACK_EVENT(context.GetExecutionContext(), node_name_.c_str(), "[LaunchCopy] Start"); | ||||
| GE_CHK_RT_RET(rtKernelLaunchEx(copy_task_args_buf_->GetData(), sizeof(STR_FWK_OP_KERNEL), | GE_CHK_RT_RET(rtKernelLaunchEx(copy_task_args_buf_->GetData(), sizeof(STR_FWK_OP_KERNEL), | ||||
| RT_KERNEL_DEFAULT, context.GetStream())); | RT_KERNEL_DEFAULT, context.GetStream())); | ||||
| @@ -458,25 +466,19 @@ Status AicpuTfNodeTask::PrepareCopyInputs(const TaskContext &context, | |||||
| node_name_.c_str(), i, | node_name_.c_str(), i, | ||||
| summary.shape_data_ptr, summary.shape_data_size, | summary.shape_data_ptr, summary.shape_data_size, | ||||
| summary.raw_data_ptr, summary.raw_data_size); | summary.raw_data_ptr, summary.raw_data_size); | ||||
| if (summary.raw_data_size > 0) { | |||||
| auto output = context.GetOutput(i); | |||||
| GE_CHECK_NOTNULL(output); | |||||
| GE_CHECK_NOTNULL(output->GetData()); | |||||
| copy_input_release_flag.emplace_back(kReleaseFlag); | |||||
| copy_input_data_size.emplace_back(summary.raw_data_size); | |||||
| copy_input_src.emplace_back(summary.raw_data_ptr); | |||||
| copy_input_dst.emplace_back(reinterpret_cast<uintptr_t>(output->GetData())); | |||||
| } | |||||
| if (summary.shape_data_size > 0) { | |||||
| const auto &shape_buffer = out_shape_hbm[i]; | |||||
| GE_CHECK_NOTNULL(shape_buffer); | |||||
| GE_CHECK_NOTNULL(shape_buffer->GetData()); | |||||
| copy_input_release_flag.emplace_back(kReleaseFlag); | |||||
| copy_input_data_size.emplace_back(summary.shape_data_size); | |||||
| copy_input_src.emplace_back(summary.shape_data_ptr); | |||||
| copy_input_dst.emplace_back(reinterpret_cast<uintptr_t>(shape_buffer->GetData())); | |||||
| } | |||||
| auto output = context.GetOutput(i); | |||||
| GE_CHECK_NOTNULL(output); | |||||
| copy_input_release_flag.emplace_back(kReleaseFlag); | |||||
| copy_input_data_size.emplace_back(summary.raw_data_size); | |||||
| copy_input_src.emplace_back(summary.raw_data_ptr); | |||||
| copy_input_dst.emplace_back(reinterpret_cast<uintptr_t>(output->GetData())); | |||||
| const auto &shape_buffer = out_shape_hbm[i]; | |||||
| GE_CHECK_NOTNULL(shape_buffer); | |||||
| copy_input_release_flag.emplace_back(kReleaseFlag); | |||||
| copy_input_data_size.emplace_back(summary.shape_data_size); | |||||
| copy_input_src.emplace_back(summary.shape_data_ptr); | |||||
| copy_input_dst.emplace_back(reinterpret_cast<uintptr_t>(shape_buffer->GetData())); | |||||
| } | } | ||||
| copy_num = copy_input_release_flag.size(); | copy_num = copy_input_release_flag.size(); | ||||
| @@ -498,15 +500,6 @@ Status AicpuTfNodeTask::PrepareCopyInputs(const TaskContext &context, | |||||
| return SUCCESS; | return SUCCESS; | ||||
| } | } | ||||
| Status AicpuTfNodeTask::GenMemCopyTask(uint64_t copy_num, STR_FWK_OP_KERNEL &task, std::string &task_info) { | |||||
| static constexpr const char *const kKernelLibName = "aicpu_tf_kernel"; | |||||
| auto kernel_builder = OpsKernelBuilderManager::Instance().GetOpsKernelBuilder(kKernelLibName); | |||||
| GE_CHK_BOOL_RET_STATUS(kernel_builder != nullptr, FAILED, "Get op kernel info store[%s] failed", kKernelLibName); | |||||
| auto ret = kernel_builder->GenMemCopyTask(copy_num, task, task_info); | |||||
| GE_CHK_STATUS_RET(ret, "Call aicpu GenMemCopyTask failed, copy_num=%lu, ret=%u", copy_num, ret); | |||||
| return SUCCESS; | |||||
| } | |||||
| Status AicpuTfNodeTask::UpdateShapeByHbmBuffer(TaskContext &context, | Status AicpuTfNodeTask::UpdateShapeByHbmBuffer(TaskContext &context, | ||||
| const std::vector<std::unique_ptr<TensorBuffer>> &out_shape_hbm) { | const std::vector<std::unique_ptr<TensorBuffer>> &out_shape_hbm) { | ||||
| GE_CHK_BOOL_RET_STATUS(out_shape_hbm.size() == static_cast<std::size_t>(node_item_->num_outputs), | GE_CHK_BOOL_RET_STATUS(out_shape_hbm.size() == static_cast<std::size_t>(node_item_->num_outputs), | ||||
| @@ -813,9 +806,9 @@ Status AiCpuNodeExecutor::LoadTask(const HybridModel &model, | |||||
| GE_CHK_BOOL_RET_STATUS((*task_defs).size() == 1, PARAM_INVALID, | GE_CHK_BOOL_RET_STATUS((*task_defs).size() == 1, PARAM_INVALID, | ||||
| "Node[%s] task_def num[%zu] != 1", node->GetName().c_str(), (*task_defs).size()); | "Node[%s] task_def num[%zu] != 1", node->GetName().c_str(), (*task_defs).size()); | ||||
| } else { | } else { | ||||
| // The number of tasks of the fourth type operator may be 2 | |||||
| GE_CHK_BOOL_RET_STATUS((*task_defs).size() == 1 || (*task_defs).size() == 2, PARAM_INVALID, | |||||
| "Node[%s] DEPEND_COMPUTE task_def num[%zu] != 1 or 2", | |||||
| // The number of tasks of the fourth type operator must be 2 | |||||
| GE_CHK_BOOL_RET_STATUS((*task_defs).size() == 2, PARAM_INVALID, | |||||
| "Node[%s] DEPEND_COMPUTE task_def num[%zu] != 2", | |||||
| node->GetName().c_str(), (*task_defs).size()); | node->GetName().c_str(), (*task_defs).size()); | ||||
| } | } | ||||
| const auto &task_def = (*task_defs)[0]; | const auto &task_def = (*task_defs)[0]; | ||||
| @@ -836,6 +829,9 @@ Status AiCpuNodeExecutor::LoadTask(const HybridModel &model, | |||||
| "Load task for node %s failed.", node->GetName().c_str()); | "Load task for node %s failed.", node->GetName().c_str()); | ||||
| GE_CHK_STATUS_RET(aicpu_task->Init(model), "Node[%s] task init failed.", node->GetName().c_str()); | GE_CHK_STATUS_RET(aicpu_task->Init(model), "Node[%s] task init failed.", node->GetName().c_str()); | ||||
| if (node_item->shape_inference_type == DEPEND_COMPUTE) { | |||||
| GE_CHK_STATUS_RET_NOLOG(aicpu_task->SetMemCopyTask((*task_defs)[1])); | |||||
| } | |||||
| task = std::move(aicpu_task); | task = std::move(aicpu_task); | ||||
| GELOGD("Node[%s] load task end.", node->GetName().c_str()); | GELOGD("Node[%s] load task end.", node->GetName().c_str()); | ||||
+ 10
- 1
ge/hybrid/node_executor/aicpu/aicpu_node_executor.h
View File
| @@ -41,6 +41,8 @@ class AicpuNodeTaskBase : public NodeTask { | |||||
| virtual Status Init(const HybridModel &model) = 0; | virtual Status Init(const HybridModel &model) = 0; | ||||
| virtual Status SetMemCopyTask(const domi::TaskDef &task_def) = 0; | |||||
| Status UpdateArgs(TaskContext &context) override; | Status UpdateArgs(TaskContext &context) override; | ||||
| Status ExecuteAsync(TaskContext &context, std::function<void()> done_callback) override; | Status ExecuteAsync(TaskContext &context, std::function<void()> done_callback) override; | ||||
| @@ -89,6 +91,8 @@ class AicpuTfNodeTask : public AicpuNodeTaskBase { | |||||
| Status Init(const HybridModel &model) override; | Status Init(const HybridModel &model) override; | ||||
| Status SetMemCopyTask(const domi::TaskDef &task_def) override; | |||||
| protected: | protected: | ||||
| Status LaunchTask(TaskContext &context) override; | Status LaunchTask(TaskContext &context) override; | ||||
| @@ -121,7 +125,6 @@ class AicpuTfNodeTask : public AicpuNodeTaskBase { | |||||
| uint64_t ©_num); | uint64_t ©_num); | ||||
| static Status EnsureSessionCreated(uint64_t session_id); | static Status EnsureSessionCreated(uint64_t session_id); | ||||
| static Status GenMemCopyTask(uint64_t count, STR_FWK_OP_KERNEL &task, std::string &task_info); | |||||
| static uint64_t GetStepIdAddr(const HybridModel &model); | static uint64_t GetStepIdAddr(const HybridModel &model); | ||||
| private: | private: | ||||
| // kernel buf, device mem | // kernel buf, device mem | ||||
| @@ -145,6 +148,8 @@ class AicpuTfNodeTask : public AicpuNodeTaskBase { | |||||
| std::unique_ptr<TensorBuffer> copy_input_src_dev_; | std::unique_ptr<TensorBuffer> copy_input_src_dev_; | ||||
| std::unique_ptr<TensorBuffer> copy_input_dst_dev_; | std::unique_ptr<TensorBuffer> copy_input_dst_dev_; | ||||
| bool need_sync_ = false; | bool need_sync_ = false; | ||||
| std::unique_ptr<TensorBuffer> copy_workspace_buf_; | |||||
| }; | }; | ||||
| class AicpuNodeTask : public AicpuNodeTaskBase { | class AicpuNodeTask : public AicpuNodeTaskBase { | ||||
| @@ -156,6 +161,10 @@ class AicpuNodeTask : public AicpuNodeTaskBase { | |||||
| Status Init(const HybridModel &model) override; | Status Init(const HybridModel &model) override; | ||||
| Status SetMemCopyTask(const domi::TaskDef &task_def) override { | |||||
| return UNSUPPORTED; | |||||
| } | |||||
| protected: | protected: | ||||
| Status LaunchTask(TaskContext &context) override; | Status LaunchTask(TaskContext &context) override; | ||||