!504 sync-code-1203

From: @HW_KK Reviewed-by: @liujunzhu,@youui Signed-off-by: @youui
sync-code-1203
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -69,10 +69,12 @@ elseif(DEFINED ENV{D_LINK_PATH})
    find_library(mmpa libmmpa.so ${GE_LIB_PATH})
    find_library(runtime libruntime.so ${GE_LIB_PATH})
    find_library(msprof libmsprof.so ${GE_LIB_PATH})
    find_library(msprofiler libmsprofiler.a ${GE_LIB_PATH})
    find_library(register libregister.so ${GE_LIB_PATH})
    find_library(hccl libhccl.so ${GE_LIB_PATH})
    find_library(resource libresource.so ${GE_LIB_PATH})
    find_library(error_manager liberror_manager.so ${GE_LIB_PATH})
    find_library(adump_server libadump_server.a ${GE_LIB_PATH})
 else()
    # Ascend mode
    if(DEFINED ENV{ASCEND_CUSTOM_PATH})
@@ -80,17 +82,27 @@ else()
    else()
        set(ASCEND_DIR /usr/local/Ascend)
    endif()
    set(ASCEND_DRIVER_DIR ${ASCEND_DIR}/driver/lib64/common)
    set(ASCEND_RUNTIME_DIR ${ASCEND_DIR}/fwkacllib/lib64)
    set(ASCEND_DRIVER_DIR ${ASCEND_DIR}/driver/lib64/common ${ASCEND_DIR}/driver/lib64)
    set(ASCEND_RUNTIME_DIR ${ASCEND_DIR}/fwkacllib/lib64 ${ASCEND_DIR}/acllib/lib64 ${ASCEND_DIR}/atc/lib64)
    find_library(slog libslog.so ${ASCEND_DRIVER_DIR})
    find_library(mmpa libmmpa.so ${ASCEND_DRIVER_DIR})
    find_library(msprof libmsprof.so ${ASCEND_DRIVER_DIR})
    find_library(msprofiler libmsprofiler.a ${ASCEND_RUNTIME_DIR})
    find_library(hccl libhccl.so ${ASCEND_RUNTIME_DIR})
    find_library(runtime libruntime.so ${ASCEND_RUNTIME_DIR})
    find_library(register libregister.so ${ASCEND_RUNTIME_DIR})
    find_library(resource libresource.so ${ASCEND_RUNTIME_DIR})
    find_library(error_manager liberror_manager.so ${ASCEND_RUNTIME_DIR})
    find_library(adump_server libadump_server.a ${ASCEND_RUNTIME_DIR})
    # for Atlas env
    set(ASCEND_TOOLKIT_RUNTIME_DIR ${ASCEND_PATH}/ascend-toolkit/latest/fwkacllib/lib64)
    find_library(msprofiler libmsprofiler.a ${ASCEND_TOOLKIT_RUNTIME_DIR})
    find_library(hccl libhccl.so ${ASCEND_TOOLKIT_RUNTIME_DIR})
    find_library(runtime libruntime.so ${ASCEND_TOOLKIT_RUNTIME_DIR})
    find_library(register libregister.so ${ASCEND_TOOLKIT_RUNTIME_DIR})
    find_library(resource libresource.so ${ASCEND_TOOLKIT_RUNTIME_DIR})
    find_library(error_manager liberror_manager.so ${ASCEND_TOOLKIT_RUNTIME_DIR})
    find_library(adump_server libadump_server.a ${ASCEND_TOOLKIT_RUNTIME_DIR})
 endif()
 # add compile flags
--- a/cmake/external_libs/eigen.cmake
+++ b/cmake/external_libs/eigen.cmake
@@ -1,10 +1,19 @@
 set(Eigen3_CXXFLAGS "-D_FORTIFY_SOURCE=2 -O2")
 set(Eigen3_CFLAGS "-D_FORTIFY_SOURCE=2 -O2")
 set(Eigen3_NS "ge_")
 if (ENABLE_GITEE)
    set(REQ_URL "https://gitee.com/mirrors/eigen-git-mirrorsource/repository/archive/3.3.7.tar.gz")
    set(MD5 "cf6552a5d90c1aca4b5e0b011f65ea93")
 else()
    set(REQ_URL "https://gitlab.com/libeigen/eigen/-/archive/3.3.7/eigen-3.3.7.tar.gz")
    set(MD5 "9e30f67e8531477de4117506fe44669b")
 endif ()
 graphengine_add_pkg(Eigen3
        VER 3.3.7
        URL https://gitlab.com/libeigen/eigen/-/archive/3.3.7/eigen-3.3.7.tar.gz
        MD5 9e30f67e8531477de4117506fe44669b
        URL ${REQ_URL}
        MD5 ${MD5}
        CMAKE_OPTION -DBUILD_TESTING=OFF)
 find_package(Eigen3 3.3.7 REQUIRED ${GE_FIND_NO_DEFAULT_PATH})
--- a/cmake/external_libs/gtest.cmake
+++ b/cmake/external_libs/gtest.cmake
@@ -1,11 +1,19 @@
 set(ge_gtest_CXXFLAGS "-D_FORTIFY_SOURCE=2 -O2 -fstack-protector-all -Wl,-z,relro,-z,now,-z,noexecstack")
 set(ge_gtest_CFLAGS "-D_FORTIFY_SOURCE=2 -O2 -fstack-protector-all -Wl,-z,relro,-z,now,-z,noexecstack")
 if (ENABLE_GITEE)
    set(REQ_URL "https://gitee.com/mirrors/googletest/repository/archive/release-1.8.0.tar.gz")
    set(MD5 "89e13ca1aa48d370719d58010b83f62c")
 else()
    set(REQ_URL "https://github.com/google/googletest/archive/release-1.8.0.tar.gz")
    set(MD5 "16877098823401d1bf2ed7891d7dce36")
 endif ()
 graphengine_add_pkg(ge_gtest
        VER 1.8.0
        LIBS gtest gtest_main
        URL https://github.com/google/googletest/archive/release-1.8.0.tar.gz
        MD5 16877098823401d1bf2ed7891d7dce36
        URL ${REQ_URL}
        MD5 ${MD5}
        CMAKE_OPTION -DBUILD_TESTING=OFF -DCMAKE_POSITION_INDEPENDENT_CODE=ON -DBUILD_SHARED_LIBS=ON
        -DCMAKE_MACOSX_RPATH=TRUE -Dgtest_disable_pthreads=ON)
--- a/cmake/external_libs/json.cmake
+++ b/cmake/external_libs/json.cmake
@@ -1,9 +1,20 @@
 set(nlohmann_json_CXXFLAGS "-D_FORTIFY_SOURCE=2 -O2")
 set(nlohmann_json_CFLAGS "-D_FORTIFY_SOURCE=2 -O2")
 if (ENABLE_GITEE)
    set(REQ_URL "https://gitee.com/mirrors/JSON-for-Modern-CPP/repository/archive/v3.6.1.zip")
    set(MD5 "5bda78ce308e6cfcf614dcf1d5ff27a7")
    set(INCLUDE "./include")
 else()
    set(REQ_URL "https://github.com/nlohmann/json/releases/download/v3.6.1/include.zip")
    set(MD5 "0dc903888211db3a0f170304cd9f3a89")
    set(INCLUDE "./")
 endif ()
 graphengine_add_pkg(ge_nlohmann_json
        VER 3.6.1
        HEAD_ONLY ./
        URL https://github.com/nlohmann/json/releases/download/v3.6.1/include.zip
        MD5 0dc903888211db3a0f170304cd9f3a89)
        HEAD_ONLY ${INCLUDE}
        URL ${REQ_URL}
        MD5 ${MD5})
 include_directories(${ge_nlohmann_json_INC})
 add_library(graphengine::json ALIAS ge_nlohmann_json)
--- a/cmake/external_libs/onnx.cmake
+++ b/cmake/external_libs/onnx.cmake
@@ -1,5 +1,13 @@
 if (ENABLE_GITEE)
    set(REQ_URL "https://gitee.com/mirrors/ONNX/repository/archive/v1.6.0.tar.gz")
    set(MD5 "1bdbcecdd68ea8392630467646776e02")
 else()
    set(REQ_URL "https://github.com/onnx/onnx/releases/download/v1.6.0/onnx-1.6.0.tar.gz")
    set(MD5 "512f2779d6215d4a36f366b6b9acdf1e")
 endif ()
 graphengine_add_pkg(onnx
        VER 1.6.0
        HEAD_ONLY ./
        URL https://github.com/onnx/onnx/releases/download/v1.6.0/onnx-1.6.0.tar.gz
        MD5 512f2779d6215d4a36f366b6b9acdf1e)
        URL ${REQ_URL}
        MD5 ${MD5})
--- a/cmake/external_libs/protobuf.cmake
+++ b/cmake/external_libs/protobuf.cmake
@@ -5,12 +5,21 @@ set(protobuf_LDFLAGS "-Wl,-z,relro,-z,now,-z,noexecstack")
 set(_ge_tmp_CMAKE_CXX_FLAGS ${CMAKE_CXX_FLAGS})
 string(REPLACE " -Wall" "" CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS}")
 string(REPLACE " -Werror" "" CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS}")
 if (ENABLE_GITEE)
    set(REQ_URL "https://gitee.com/mirrors/protobuf_source/repository/archive/v3.8.0.tar.gz")
    set(MD5 "eba86ae9f07ba5cfbaf8af3bc4e84236")
 else()
    set(REQ_URL "https://github.com/protocolbuffers/protobuf/archive/v3.8.0.tar.gz")
    set(MD5 "3d9e32700639618a4d2d342c99d4507a")
 endif ()
 graphengine_add_pkg(protobuf
        VER 3.8.0
        LIBS protobuf
        EXE protoc
        URL https://github.com/protocolbuffers/protobuf/archive/v3.8.0.tar.gz
        MD5 3d9e32700639618a4d2d342c99d4507a
        URL ${REQ_URL}
        MD5 ${MD5}
        CMAKE_PATH ../cmake/
        CMAKE_OPTION -Dprotobuf_BUILD_TESTS=OFF -Dprotobuf_BUILD_SHARED_LIBS=OFF)
 set(CMAKE_CXX_FLAGS ${_ge_tmp_CMAKE_CXX_FLAGS})
--- a/cmake/external_libs/securec.cmake
+++ b/cmake/external_libs/securec.cmake
@@ -1,7 +1,7 @@
 graphengine_add_pkg(securec
        VER 1.1.10
        URL https://gitee.com/openeuler/bounds_checking_function/repository/archive/v1.1.10.tar.gz
        MD5 0782dd2351fde6920d31a599b23d8c91
        URL https://gitee.com/openeuler/libboundscheck/repository/archive/v1.1.10.tar.gz
        MD5 193f0ca5246c1dd84920db34d2d8249f
        LIBS c_sec
        PATCHES ${GE_SOURCE_DIR}/third_party/patch/securec/securec.patch001
        CMAKE_OPTION "-DCMAKE_BUILD_TYPE=Release"
--- a/inc/common/opskernel/ops_kernel_info_store.h
+++ b/inc/common/opskernel/ops_kernel_info_store.h
@@ -43,10 +43,10 @@ class OpsKernelInfoStore {
  virtual ~OpsKernelInfoStore() {}
  // initialize opsKernelInfoStore
  virtual Status Initialize(const map<string, string> &options) = 0; /*lint -e148*/
  virtual Status Initialize(const map<string, string> &options) = 0;
  // close opsKernelInfoStore
  virtual Status Finalize() = 0; /*lint -e148*/
  virtual Status Finalize() = 0;
  virtual Status CreateSession(const std::map<std::string, std::string> &session_options) { return SUCCESS; }
@@ -66,11 +66,10 @@ class OpsKernelInfoStore {
  virtual void opsFlagCheck(const ge::Node &node, std::string &opsFlag){};
  // memory allocation requirement
  virtual Status CalcOpRunningParam(Node &node) = 0; /*lint -e148*/
  virtual Status CalcOpRunningParam(Node &node) = 0;
  // generate task for op。
  virtual Status GenerateTask(const Node &node, RunContext &context,
                              std::vector<domi::TaskDef> &tasks) = 0; /*lint -e148*/
  virtual Status GenerateTask(const Node &node, RunContext &context, std::vector<domi::TaskDef> &tasks) = 0;
  // only call fe engine interface to compile single op
  virtual Status CompileOp(vector<ge::NodePtr> &node_vec) { return SUCCESS; }
--- a/inc/common/opskernel/ops_kernel_info_types.h
+++ b/inc/common/opskernel/ops_kernel_info_types.h
@@ -26,7 +26,6 @@
 using std::string;
 namespace ge {
 /*lint -e148*/
 struct RunContext {
  rtModel_t model;
  rtStream_t stream;
@@ -41,8 +40,6 @@ struct RunContext {
  std::vector<rtLabel_t> graphLabelList;    // all labels of graph, order by ge label id(0,1,...)
 };
 /*lint +e148*/
 struct Task {
  uint32_t id;
  uint16_t type;
@@ -51,8 +48,7 @@ struct Task {
 };
 struct OpInfo {
  string engine;  // which engin
  /*lint -e148*/
  string engine;       // which engin
  string opKernelLib;  // which opsKernelStore
  int computeCost;     // compute cost
  bool flagPartial;    // whether to support is related to shape
--- a/inc/common/optimizer/graph_optimizer.h
+++ b/inc/common/optimizer/graph_optimizer.h
@@ -27,7 +27,6 @@
 using std::map;
 using std::string;
 /*lint -e148*/
 namespace ge {
 class GraphOptimizer {
 public:
@@ -67,5 +66,4 @@ class GraphOptimizer {
  virtual Status OptimizeFusedGraphAfterGraphSlice(ComputeGraph &graph) { return SUCCESS; }
 };
 }  // namespace ge
 /*lint +e148*/
 #endif  // INC_COMMON_OPTIMIZER_GRAPH_OPTIMIZER_H_
--- a/inc/external/ge/ge_api_error_codes.h
+++ b/inc/external/ge/ge_api_error_codes.h
@@ -70,7 +70,7 @@ using Status = uint32_t;
 // General error code
 GE_ERRORNO(0, 0, 0, 0, 0, SUCCESS, 0, "success");
 GE_ERRORNO(0b11, 0b11, 0b111, 0xFF, 0b11111, FAILED, 0xFFF, "failed"); /*lint !e401*/
 GE_ERRORNO(0b11, 0b11, 0b111, 0xFF, 0b11111, FAILED, 0xFFF, "failed");
 }  // namespace ge
 #endif  // INC_EXTERNAL_GE_GE_API_ERROR_CODES_H_
--- a/inc/external/ge/ge_prof.h
+++ b/inc/external/ge/ge_prof.h
@@ -0,0 +1,102 @@
 /**
 * Copyright 2019-2020 Huawei Technologies Co., Ltd
 *
 * 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.
 */
 #ifndef INC_EXTERNAL_GE_GE_PROF_H_
 #define INC_EXTERNAL_GE_GE_PROF_H_
 #include <map>
 #include <string>
 #include <vector>
 #include "ge/ge_api_error_codes.h"
 namespace ge {
 enum ProfDataTypeConfig {
  kProfTaskTime = 0x0002,
  kProfAiCoreMetrics = 0x0004,
  kProfAicpuTrace = 0x0008,
  kProfTrainingTrace = 0x0800,
  kProfHcclTrace = 0x1000
 };
 enum ProfilingAicoreMetrics {
  kAicoreArithmaticThroughput = 0,
  kAicorePipeline = 1,
  kAicoreSynchronization = 2,
  kAicoreMemory = 3,
  kAicoreInternalMemory = 4,
  kAicoreStall = 5
 };
 typedef struct ProfAicoreEvents ProfAicoreEvents;
 typedef struct aclgrphProfConfig aclgrphProfConfig;
 ///
 /// @ingroup AscendCL
 /// @brief Initialize the profiling and set profiling configuration path
 /// @param [in] profiler_path: configuration path of profiling
 /// @param [in] length: length of configuration path
 /// @return Status result of function
 ///
 Status aclgrphProfInit(const char *profiler_path, uint32_t length);
 ///
 /// @ingroup AscendCL
 /// @brief Finalize profiling
 /// @return Status result of function
 ///
 Status aclgrphProfFinalize();
 ///
 /// @ingroup AscendCL
 /// @brief Create data of type aclgrphProfConfig
 /// @param [in] deviceid_list: device id list
 /// @param [in] device_nums: device numbers
 /// @param [in] aicore_metrics: type of aicore metrics
 /// @param [in] aicore_events: pointer to aicore events be reserved, only support NULL now
 /// @param [in] data_type_config: modules need profiling
 /// @return Status result of function
 ///
 aclgrphProfConfig *aclgrphProfCreateConfig(uint32_t *deviceid_list, uint32_t device_nums,
                                           ProfilingAicoreMetrics aicore_metrics, ProfAicoreEvents *aicore_events,
                                           uint64_t data_type_config);
 ///
 /// @ingroup AscendCL
 /// @brief  Destroy data of type aclgrphProfConfig
 /// @param [in] profiler_config: config of profiling
 /// @return Status result of function
 ///
 Status aclgrphProfDestroyConfig(aclgrphProfConfig *profiler_config);
 ///
 /// @ingroup AscendCL
 /// @brief Start profiling of modules which is configured by profiler config
 /// @param [in] profiler_config: config of profiling
 /// @return Status result of function
 ///
 Status aclgrphProfStart(aclgrphProfConfig *profiler_config);
 ///
 /// @ingroup AscendCL
 /// @brief Stop profiling of modules which is configured by profiler config
 /// @param [in] profiler_config: config of profiling
 /// @return Status result of function
 ///
 Status aclgrphProfStop(aclgrphProfConfig *profiler_config);
 }  // namespace ge
 #endif  // INC_EXTERNAL_GE_GE_PROF_H_
--- a/inc/external/graph/attr_value.h
+++ b/inc/external/graph/attr_value.h
@@ -34,7 +34,6 @@ using std::vector;
 namespace ge {
 class AttrValueImpl;
 /*lint -e148*/
 class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY AttrValue {
 public:
  using INT = int64_t;
@@ -70,6 +69,5 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY AttrValue {
  VALUE_SET_GET_DEC(AttrValue::FLOAT)
 #undef VALUE_SET_GET_DEC
 };
 /*lint +e148*/
 }  // namespace ge
 #endif  // INC_EXTERNAL_GRAPH_ATTR_VALUE_H_
--- a/inc/external/graph/operator.h
+++ b/inc/external/graph/operator.h
@@ -63,7 +63,6 @@ using std::function;
 using std::shared_ptr;
 using std::string;
 /*lint -e148*/
 class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY Operator {
 public:
  friend class OperatorImpl;
@@ -91,7 +90,7 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY Operator {
  explicit Operator(const string &type);
  Operator(const string &name, const string &type);  // lint !e148
  Operator(const string &name, const string &type);
  virtual ~Operator() = default;
@@ -104,7 +103,7 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY Operator {
  // Only has one output index = 0
  Operator &SetInput(const string &dst_name, const Operator &src_oprt);
  Operator &SetInput(const string &dst_name, const Operator &src_oprt, const string &name);  // lint !e148
  Operator &SetInput(const string &dst_name, const Operator &src_oprt, const string &name);
  Operator &SetInput(const string &dst_name, const Operator &src_oprt, uint32_t index);
@@ -128,22 +127,22 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY Operator {
  TensorDesc GetOutputDesc(uint32_t index) const;
  graphStatus UpdateOutputDesc(const string &name, const TensorDesc &tensor_desc);  // lint !e148
  graphStatus UpdateOutputDesc(const string &name, const TensorDesc &tensor_desc);
  TensorDesc GetDynamicInputDesc(const string &name, uint32_t index) const;
  graphStatus UpdateDynamicInputDesc(const string &name, uint32_t index, const TensorDesc &tensor_desc);  // lint !e148
  graphStatus UpdateDynamicInputDesc(const string &name, uint32_t index, const TensorDesc &tensor_desc);
  TensorDesc GetDynamicOutputDesc(const string &name, uint32_t index) const;
  graphStatus UpdateDynamicOutputDesc(const string &name, uint32_t index, const TensorDesc &tensor_desc);  // lint !e148
  graphStatus UpdateDynamicOutputDesc(const string &name, uint32_t index, const TensorDesc &tensor_desc);
  graphStatus InferShapeAndType();  // lint !e148
  graphStatus InferShapeAndType();
  void SetInferenceContext(const InferenceContextPtr &inference_context);
  InferenceContextPtr GetInferenceContext() const;
  graphStatus VerifyAllAttr(bool disable_common_verifier = false);  // lint !e148
  graphStatus VerifyAllAttr(bool disable_common_verifier = false);
  size_t GetInputsSize() const;
@@ -256,20 +255,19 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY Operator {
  void RequiredAttrRegister(const string &name);
  graphStatus VerifyAll();  // lint !e148
  graphStatus VerifyAll();
  // Only has one output index = 0
  Operator &SetInput(const string &dst_name, uint32_t dst_index, const Operator &src_oprt);
  Operator &SetInput(const string &dst_name, uint32_t dst_index, const Operator &src_oprt,
                     const string &name);  // lint !e148
  Operator &SetInput(const string &dst_name, uint32_t dst_index, const Operator &src_oprt, const string &name);
  void SubgraphRegister(const string &ir_name, bool dynamic);
  void SubgraphCountRegister(const string &ir_name, uint32_t count);
  void SetSubgraphBuilder(const string &ir_name, uint32_t index, const SubgraphBuilder &builder);
 private:
  Operator &SetInput(const string &dst_name, const OutHandler &out_handler);  // lint !e148
  Operator &SetInput(const string &dst_name, const OutHandler &out_handler);
  OutHandler GetOutput(const string &name) const;
@@ -283,7 +281,6 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY Operator {
  std::shared_ptr<const Node> GetNode() const;
 };
 /*lint +e148*/
 }  // namespace ge
 #endif  // INC_EXTERNAL_GRAPH_OPERATOR_H_
--- a/inc/external/graph/tensor.h
+++ b/inc/external/graph/tensor.h
@@ -126,6 +126,5 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY Tensor {
  friend class TensorAdapter;
 };
 }  // namespace ge
 /*lint +e148*/
 #endif  // INC_EXTERNAL_GRAPH_TENSOR_H_
--- a/inc/external/hccl/hccl.h
+++ b/inc/external/hccl/hccl.h
@@ -0,0 +1,134 @@
 /**
 * Copyright 2019-2020 Huawei Technologies Co., Ltd
 *
 * 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.
 */
 /**
 * @file hccl.h
 * @brief HCCL API
 */
 #ifndef HCCL_H_
 #define HCCL_H_
 #include <hccl/hccl_types.h>
 #include <acl/acl.h>
 #ifdef __cplusplus
 extern "C" {
 #endif  // __cplusplus
 /**
 * @brief Initialize HCCL.
 *
 * @param clusterInfo A string identifying the cluster info file path, include file name.
 * @param rank A integer identifying the identify for the rank.
 * @param comm A pointer identifying the initialized communication resource.
 * @return HcclResult
 * @see HcclCommDestroy()
 */
 extern HcclResult HcclCommInitClusterInfo(const char *clusterInfo, uint32_t rank, HcclComm *comm);
 /**
 * @brief Get hccl root info.
 *
 * @param rootInfo A pointer identifying the hccl root info.
 * @return HcclResult
 */
 extern HcclResult HcclGetRootInfo(HcclRootInfo *rootInfo);
 /**
 * @brief Initialize HCCL with root info.
 *
 * @param nRanks A integer identifying the rank size of the cluster.
 * @param rootInfo A struct identifying the hccl root info.
 * @param rank A integer identifying the identify for the rank.
 * @param comm A pointer identifying the initialized communication resource.
 * @return HcclResult
 * @see HcclCommDestroy()
 */
 extern HcclResult HcclCommInitRootInfo(uint32_t nRanks, const HcclRootInfo *rootInfo, uint32_t rank, HcclComm *comm);
 /**
 * @brief AllReduce operator.
 *
 * @param sendBuf A pointer identifying the input data address of the operator.
 * @param recvBuf A pointer identifying the output data address of the operator.
 * @param count An integer(u64) identifying the number of the output data.
 * @param dataType The data type of the operator, must be one of the following types: int8, int16, int32, float16,
 * float32.
 * @param op The reduction type of the operator, must be one of the following types: sum, min, max, prod.
 * @param comm A pointer identifying the communication resource based on.
 * @param stream A pointer identifying the stream information.
 * @return HcclResult
 */
 extern HcclResult HcclAllReduce(void *sendBuf, void *recvBuf, uint64_t count, HcclDataType dataType, HcclReduceOp op,
                                HcclComm comm, aclrtStream stream);
 /**
 * @brief Broadcast operator.
 *
 * @param buf A pointer identifying the data address of the operator.
 * @param count An integer(u64) identifying the number of the data.
 * @param dataType The data type of the operator, must be one of the following types: int8, int32, float16, float32.
 * @param root An integer(u32) identifying the the root rank in the operator.
 * @param comm A pointer identifying the communication resource based on
 * @param stream A pointer identifying the stream information.
 * @return HcclResult
 */
 extern HcclResult HcclBroadcast(void *buf, uint64_t count, HcclDataType dataType, uint32_t root, HcclComm comm,
                                aclrtStream stream);
 /**
 * @brief ReduceScatter operator.
 *
 * @param sendBuf A pointer identifying the input data address of the operator.
 * @param recvBuf A pointer identifying the output data address of the operator.
 * @param recvCount An integer(u64) identifying the number of the output data.
 * @param dataType The data type of the operator, must be one of the following types: int8, int32, float16, float32.
 * @param op The reduction type of the operator, must be one of the following types: sum, min, max, prod.
 * @param comm A pointer identifying the communication resource based on.
 * @param stream A pointer identifying the stream information.
 * @return HcclResult
 */
 extern HcclResult HcclReduceScatter(void *sendBuf, void *recvBuf, uint64_t recvCount, HcclDataType dataType,
                                    HcclReduceOp op, HcclComm comm, aclrtStream stream);
 /**
 * @brief AllGather operator.
 *
 * @param sendBuf A pointer identifying the input data address of the operator.
 * @param recvBuf A pointer identifying the output data address of the operator.
 * @param sendCount An integer(u64) identifying the number of the input data.
 * @param dataType The data type of the operator, must be one of the following types: int8, int32, float16, float32.
 * @param comm A pointer identifying the communication resource based on.
 * @param stream A pointer identifying the stream information.
 * @return HcclResult
 */
 extern HcclResult HcclAllGather(void *sendBuf, void *recvBuf, uint64_t sendCount, HcclDataType dataType, HcclComm comm,
                                aclrtStream stream);
 /**
 * @brief Destroy HCCL comm
 *
 * @param comm A pointer identifying the communication resource targetting
 * @return HcclResult
 * @see HcclCommInitClusterInfo()
 */
 extern HcclResult HcclCommDestroy(HcclComm comm);
 #ifdef __cplusplus
 }
 #endif  // __cplusplus
 #endif  // HCCL_H_
--- a/inc/external/hccl/hccl_types.h
+++ b/inc/external/hccl/hccl_types.h
@@ -0,0 +1,101 @@
 /**
 * Copyright 2019-2020 Huawei Technologies Co., Ltd
 *
 * 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.
 */
 /**
 * @file hccl_types.h
 * @brief HCCL data type definition
 *
 */
 #ifndef HCCL_TYPES_H_
 #define HCCL_TYPES_H_
 #include <stdint.h>
 #ifdef __cplusplus
 extern "C" {
 #endif  // __cplusplus
 /**
 * @brief HCCL functions return value definition
 */
 typedef enum {
  HCCL_SUCCESS = 0,              /**< success */
  HCCL_E_PARA = 1,               /**< parameter error */
  HCCL_E_PTR = 2,                /**< empty pointer */
  HCCL_E_MEMORY = 3,             /**< memory error */
  HCCL_E_INTERNAL = 4,           /**< internal error */
  HCCL_E_NOT_SUPPORT = 5,        /**< not support feature */
  HCCL_E_NOT_FOUND = 6,          /**< not found specific resource */
  HCCL_E_UNAVAIL = 7,            /**< resource unavailable */
  HCCL_E_SYSCALL = 8,            /**< call system interface error */
  HCCL_E_TIMEOUT = 9,            /**< timeout */
  HCCL_E_OPEN_FILE_FAILURE = 10, /**< open file fail */
  HCCL_E_TCP_CONNECT = 11,       /**< tcp connect fail */
  HCCL_E_ROCE_CONNECT = 12,      /**< roce connect fail */
  HCCL_E_TCP_TRANSFER = 13,      /**< tcp transfer fail */
  HCCL_E_ROCE_TRANSFER = 14,     /**< roce transfer fail */
  HCCL_E_RUNTIME = 15,           /**< call runtime api fail */
  HCCL_E_DRV = 16,               /**< call driver api fail */
  HCCL_E_PROFILING = 17,         /**< call profiling api fail */
  HCCL_E_CCE = 18,               /**< call cce api fail */
  HCCL_E_NETWORK = 19,           /**< call network api fail */
  HCCL_E_RESERVED                /**< reserved */
 } HcclResult;
 /**
 * @brief handle to HCCL communicator
 */
 typedef void *HcclComm;
 /**
 * @brief HCCL Reduction opperation
 */
 typedef enum {
  HCCL_REDUCE_SUM = 0,  /**< sum */
  HCCL_REDUCE_PROD = 1, /**< prod */
  HCCL_REDUCE_MAX = 2,  /**< max */
  HCCL_REDUCE_MIN = 3,  /**< min */
  HCCL_REDUCE_RESERVED  /**< reserved */
 } HcclReduceOp;
 /**
 * @brief HCCL data type
 */
 typedef enum {
  HCCL_DATA_TYPE_INT8 = 0,   /**< int8 */
  HCCL_DATA_TYPE_INT16 = 1,  /**< int16 */
  HCCL_DATA_TYPE_INT32 = 2,  /**< int32 */
  HCCL_DATA_TYPE_FP16 = 3,   /**< fp16 */
  HCCL_DATA_TYPE_FP32 = 4,   /**< fp32 */
  HCCL_DATA_TYPE_INT64 = 5,  /**< int64 */
  HCCL_DATA_TYPE_UINT64 = 6, /**< uint64 */
  HCCL_DATA_TYPE_RESERVED    /**< reserved */
 } HcclDataType;
 const uint32_t HCCL_ROOT_INFO_BYTES = 4108;  // 4108: root info length
 /**
 * @brief HCCL root info
 */
 typedef struct HcclRootInfoDef {
  char internal[HCCL_ROOT_INFO_BYTES];
 } HcclRootInfo;
 #ifdef __cplusplus
 }
 #endif  // __cplusplus
 #endif  // HCCL_TYPES_H_
--- a/inc/external/register/register.h
+++ b/inc/external/register/register.h
@@ -40,7 +40,6 @@ using std::to_string;
 using std::unique_ptr;
 using std::vector;
 /*lint -e148*/
 namespace ge {
 class Operator;
 class TensorDesc;
@@ -159,5 +158,4 @@ namespace ge {
 using OpRegistrationData = domi::OpRegistrationData;
 using OpReceiver = domi::OpReceiver;
 }  // namespace ge
 /*lint +e148*/
 #endif  // INC_EXTERNAL_REGISTER_REGISTER_H_
--- a/inc/external/register/scope/scope_fusion_pass_register.h
+++ b/inc/external/register/scope/scope_fusion_pass_register.h
@@ -301,7 +301,6 @@ class GE_FUNC_HOST_VISIBILITY GE_FUNC_DEV_VISIBILITY ScopeFusionPassRegistry {
 private:
  ScopeFusionPassRegistry();
  class ScopeFusionPassRegistryImpl;
  /*lint -e148*/
  std::unique_ptr<ScopeFusionPassRegistryImpl> impl_;
  friend class TensorFlowModelParser;
 };
--- a/inc/framework/common/ge_inner_error_codes.h
+++ b/inc/framework/common/ge_inner_error_codes.h
@@ -14,7 +14,6 @@
 * limitations under the License.
 */
 /*lint -e* */
 #ifndef INC_FRAMEWORK_COMMON_GE_INNER_ERROR_CODES_H_
 #define INC_FRAMEWORK_COMMON_GE_INNER_ERROR_CODES_H_
@@ -97,6 +96,7 @@ GE_ERRORNO_COMMON(INTERNAL_ERROR, 4, "Internal errors");              // 1343225
 GE_ERRORNO_COMMON(CSEC_ERROR, 5, "Failed to call libc_sec API!");     // 1343225861
 GE_ERRORNO_COMMON(TEE_ERROR, 6, "Failed to call tee API!");           // 1343225862
 GE_ERRORNO_COMMON(END_OF_SEQUENCE, 7, "End of sequence!");            // 1343225863
 GE_ERRORNO_COMMON(PATH_INVALID, 8, "Path is invalid!");               // 1343225864
 // Error code for plugin manager
 GE_ERRORNO_COMMON(GE_PLGMGR_PATH_INVALID, 30, "Path is invalid!");                   // 1343225886
@@ -124,9 +124,13 @@ GE_ERRORNO_CLIENT(GE_CLI_GE_ALREADY_INITIALIZED, 10, "GE is already initialized.
 GE_ERRORNO_CLIENT(GE_CLI_GE_NOT_INITIALIZED, 11, "GE is not yet initialized or is finalized.");  // 1343229963
 // Init module error code definition
 GE_ERRORNO_INIT(GE_MULTI_INIT, 0, "Multiple initializations are not supported.");            // 1343234048
 GE_ERRORNO_INIT(GE_FINALIZE_NOT_INIT, 1, "Finalize is not allowed before initialization.");  // 1343234049
 GE_ERRORNO_INIT(GE_MULTI_FINALIZE, 2, "Multiple finalizations are not supported.");          // 1343234050
 GE_ERRORNO_INIT(GE_MULTI_INIT, 0, "Multiple initializations are not supported.");                 // 1343234048
 GE_ERRORNO_INIT(GE_FINALIZE_NOT_INIT, 1, "Finalize is not allowed before initialization.");       // 1343234049
 GE_ERRORNO_INIT(GE_MULTI_FINALIZE, 2, "Multiple finalizations are not supported.");               // 1343234050
 GE_ERRORNO_INIT(GE_PROF_MULTI_INIT, 3, "Multiple profiling initializations are not supported.");  // 1343234051
 GE_ERRORNO_INIT(GE_PROF_NOT_INIT, 4, "Profing initializations have not been done.");              // 1343234052
 GE_ERRORNO_INIT(GE_PROF_MODE_CONFLICT, 5,
                "Profiling command mode which is preferred is running, the api mode will not work.");  // 1343234053
 // Session module error code definition
 GE_ERRORNO_SESSION(GE_SESS_INIT_FAILED, 0, "Failed to initialize session.");                          // 1343238144
--- a/inc/framework/common/ge_types.h
+++ b/inc/framework/common/ge_types.h
@@ -48,6 +48,8 @@ enum OpEngineType {
  ENGINE_AIVECTOR = 4  // not support
 };
 enum InputAippType { DATA_WITHOUT_AIPP = 0, DATA_WITH_STATIC_AIPP, DATA_WITH_DYNAMIC_AIPP, DYNAMIC_AIPP_NODE };
 const char *const GE_ENGINE_ATTR_MEM_TYPE_HBM = "HBM";
 const char *const GE_OPTION_EXEC_PLACEMENT = "ge.exec.placement";
--- a/inc/framework/common/string_util.h
+++ b/inc/framework/common/string_util.h
@@ -36,8 +36,8 @@ class StringUtils {
 #endif
    return s;
  }
  // lint -esym(551,*)
  static std::string &Rtrim(std::string &s) { /*lint !e618*/
  static std::string &Rtrim(std::string &s) {
 #if __cplusplus >= 201103L
    (void)s.erase(s.begin(), std::find_if(s.begin(), s.end(), [](int c) { return !std::isspace(c); }));
 #else
@@ -45,7 +45,7 @@ class StringUtils {
 #endif
    return s;
  }
  // lint -esym(551,*)
  ///
  ///  @ingroup domi_common
  ///  @brief delete spaces at the beginning and end of a string
--- a/inc/framework/common/util.h
+++ b/inc/framework/common/util.h
@@ -398,6 +398,24 @@ bool CheckOutputPathValid(const std::string &file_path, const std::string &atc_p
 /// @param [out] result
 ///
 bool ValidateStr(const std::string &filePath, const std::string &mode);
 ///
 /// @ingroup domi_common
 /// @brief Check whether the file is normal file.
 /// @param [in] file_path file path
 /// @param [out] result
 ///
 bool IsValidFile(const char *file_path);
 ///
 /// @ingroup domi_common
 /// @brief Check path invalid
 /// @param [in] path, path to be checked
 /// @param [in] length, length of path
 /// @return 0 success
 /// @return -1 fail
 ///
 Status CheckPath(const char *path, size_t length);
 }  // namespace ge
 #endif  // INC_FRAMEWORK_COMMON_UTIL_H_
--- a/inc/framework/executor/ge_executor.h
+++ b/inc/framework/executor/ge_executor.h
@@ -163,6 +163,8 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY GeExecutor {
  ge::Status GetAIPPInfo(uint32_t model_id, uint32_t index, AippConfigInfo &aipp_info);
  ge::Status GetModelAttr(uint32_t model_id, std::vector<std::string> &dynamic_output_shape_info);
  ge::Status GetAippType(uint32_t model_id, uint32_t index, InputAippType &type, size_t &aipp_index);
  ge::Status GetModelDescInfoForZeroCopy(uint32_t model_id, std::vector<ge::TensorDesc> &input_desc,
                                         std::vector<ge::TensorDesc> &output_desc);
--- a/inc/framework/omg/omg_inner_types.h
+++ b/inc/framework/omg/omg_inner_types.h
@@ -92,6 +92,9 @@ struct OmgContext {
  std::map<std::string, std::vector<int32_t>> out_nodes_map;
  // user-designate out nodes (this is used for determing the orders)
  std::vector<std::pair<std::string, int32_t>> user_out_nodes;
  // save the output node of the network, value = topName,
  // topName indicates the output name of the operator.
  std::vector<std::string> user_out_nodes_top_vec;
  // net out nodes (where user_out_nodes or leaf nodes)
  std::vector<std::string> net_out_nodes;
  // net out nodes top names(only caffe has top)
--- a/inc/graph/buffer.h
+++ b/inc/graph/buffer.h
@@ -57,11 +57,11 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY Buffer {
  // For compatibility
  inline const std::uint8_t *data() const { return GetData(); }
  inline std::uint8_t *data() { return GetData(); }  // lint !e659
  inline std::uint8_t *data() { return GetData(); }
  inline std::size_t size() const { return GetSize(); }
  inline void clear() { return ClearBuffer(); }
  uint8_t operator[](size_t index) const {                // lint !e1022 !e1042
    if (buffer_ != nullptr && index < buffer_->size()) {  // lint !e574
  uint8_t operator[](size_t index) const {
    if (buffer_ != nullptr && index < buffer_->size()) {
      return (uint8_t)(*buffer_)[index];
    }
    return 0xff;
--- a/inc/graph/compute_graph.h
+++ b/inc/graph/compute_graph.h
@@ -84,7 +84,6 @@ class ComputeGraph : public std::enable_shared_from_this<ComputeGraph>, public A
  NodePtr FindNode(const std::string &name) const;
  NodePtr FindFirstNodeMatchType(const std::string &name) const;
  /*lint -e504*/
  // AddNode with NodePtr
  NodePtr AddNode(NodePtr node);
  NodePtr AddNode(OpDescPtr op);
@@ -152,7 +151,6 @@ class ComputeGraph : public std::enable_shared_from_this<ComputeGraph>, public A
  graphStatus InsertEventNodes();
  bool operator==(const ComputeGraph &r_compute_graph) const;
  /*lint +e504*/
  const std::map<std::vector<std::string>, std::vector<std::string>> &GetShareParamLayer() const {
    return params_share_map_;
  }
--- a/inc/graph/debug/ge_attr_define.h
+++ b/inc/graph/debug/ge_attr_define.h
@@ -14,7 +14,6 @@
 * limitations under the License.
 */
 /*lint -e618*/
 #ifndef INC_GRAPH_DEBUG_GE_ATTR_DEFINE_H_
 #define INC_GRAPH_DEBUG_GE_ATTR_DEFINE_H_
@@ -141,6 +140,11 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAM
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAME_AIPP_OUTPUTS;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAME_INPUT_DIMS;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_DYNAMIC_AIPP_INPUT_DIMS;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_DATA_RELATED_AIPP_MODE;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_DATA_AIPP_DATA_NAME_MAP;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAME_GRAPH_HAS_BEEN_ADDED;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAME_SESSION_GRAPH_ID;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAME_PARENT_GRAPH_NAME;
@@ -1047,6 +1051,10 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAM
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_OP_DEBUG_FLAG;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_OP_DEBUG_MODE;
 // op dynamic input
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAME_DYNAMIC_INPUT_START;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAME_DYNAMIC_INPUT_END;
 // functional ops attr
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAME_IF_THEN_BRANCH;
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_NAME_IF_ELSE_BRANCH;
@@ -1118,4 +1126,3 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY extern const std::string ATTR_ZER
 }  // namespace ge
 #endif  // INC_GRAPH_DEBUG_GE_ATTR_DEFINE_H_
 /*lint +e618*/
--- a/inc/graph/detail/any_map.h
+++ b/inc/graph/detail/any_map.h
@@ -38,7 +38,7 @@ class TypeID {
  bool operator==(const TypeID &__arg) const { return type_ == __arg.type_; }
 private:
  explicit TypeID(string type) : type_(std::move(type)) {}  // lint !e30 !e32
  explicit TypeID(string type) : type_(std::move(type)) {}
  string type_;
 };
--- a/inc/graph/detail/attributes_holder.h
+++ b/inc/graph/detail/attributes_holder.h
@@ -50,7 +50,7 @@ class OpDef;
 class GraphDef;
 }  // namespace proto
 using ProtoAttrMap = ::google::protobuf::Map<::std::string, ::ge::proto::AttrDef>;  // lint !e1073
 using ProtoAttrMap = ::google::protobuf::Map<::std::string, ::ge::proto::AttrDef>;
 using ProtoMsgOwner = std::shared_ptr<::google::protobuf::Message>;
 template <class ProtoType>
@@ -147,7 +147,7 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY AttrHolder {
 protected:
  graphStatus AddRequiredAttr(const std::string &name);
  const std::unordered_set<string> GetAllAttrNames() const;
  const std::map<string, GeAttrValue> GetAllAttrs() const;  // lint !e1073
  const std::map<string, GeAttrValue> GetAllAttrs() const;
  virtual ProtoAttrMapHelper MutableAttrMap() = 0;
  virtual ConstProtoAttrMapHelper GetAttrMap() const = 0;
--- a/inc/graph/ge_attr_value.h
+++ b/inc/graph/ge_attr_value.h
@@ -310,7 +310,7 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY GeAttrValue {
  VALUE_SET_GET_DEC(GeAttrValue::GRAPH)
  VALUE_SET_GET_DEC(BYTES)
  VALUE_SET_GET_DEC(NamedAttrs)
  VALUE_SET_GET_DEC(ge::DataType)  // lint !e665
  VALUE_SET_GET_DEC(ge::DataType)
  VALUE_SET_GET_DEC(vector<GeAttrValue::STR>)
  VALUE_SET_GET_DEC(vector<GeAttrValue::INT>)
  VALUE_SET_GET_DEC(vector<GeAttrValue::FLOAT>)
@@ -320,8 +320,8 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY GeAttrValue {
  VALUE_SET_GET_DEC(vector<GeAttrValue::GRAPH>)
  VALUE_SET_GET_DEC(vector<GeAttrValue::BYTES>)
  VALUE_SET_GET_DEC(vector<NamedAttrs>)
  VALUE_SET_GET_DEC(vector<vector<int64_t>>)  // lint !e665
  VALUE_SET_GET_DEC(vector<ge::DataType>)     // lint !e665
  VALUE_SET_GET_DEC(vector<vector<int64_t>>)
  VALUE_SET_GET_DEC(vector<ge::DataType>)
 #undef VALUE_SET_GET_DEC
  GeIrProtoHelper<proto::AttrDef> value_;
--- a/inc/graph/node.h
+++ b/inc/graph/node.h
@@ -193,7 +193,7 @@ class Node : public std::enable_shared_from_this<Node> {
  vector<OutDataAnchorPtr> out_data_anchors_;
  InControlAnchorPtr in_control_anchor_;
  OutControlAnchorPtr out_control_anchor_;
  map<string, GeAttrValue> attrs_;  // lint !e1073
  map<string, GeAttrValue> attrs_;
  bool has_init_{false};
  bool host_node_{false};
  bool anchor_status_updated_{false};
--- a/inc/graph/op_desc.h
+++ b/inc/graph/op_desc.h
@@ -235,7 +235,8 @@ class OpDesc : public std::enable_shared_from_this<OpDesc>, public AttrHolder {
  vector<string> GetOpInferDepends() const;
  string GetInputNameByIndex(uint32_t index) const;
  string GetValidInputNameByIndex(uint32_t index) const;
  int GetValidInputIndexByName(const string &name) const;
  int GetInputIndexByName(const string &name) const;
  string GetOutputNameByIndex(uint32_t index) const;
--- a/inc/graph/runtime_inference_context.h
+++ b/inc/graph/runtime_inference_context.h
@@ -23,6 +23,7 @@
 #include <vector>
 #include "external/graph/ge_error_codes.h"
 #include "external/graph/tensor.h"
 #include "ge_attr_value.h"
 namespace ge {
 class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY RuntimeInferenceContext {
@@ -32,10 +33,12 @@ class GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY RuntimeInferenceContext {
  static void DestroyContext(const std::string &context_id);
  graphStatus SetTensor(int64_t node_id, int output_id, Tensor &&tensor);
  graphStatus GetTensor(int64_t node_id, int output_id, GeTensorPtr &tensor);
  graphStatus GetTensor(int64_t node_id, int output_id, Tensor &tensor);
 private:
  std::map<int64_t, std::vector<Tensor>> tensors_;
  std::map<int64_t, std::vector<GeTensorPtr>> ge_tensors_;
  std::mutex mu_;
  static std::map<std::string, std::unique_ptr<RuntimeInferenceContext>> contexts_;
--- a/inc/graph/utils/op_desc_utils.h
+++ b/inc/graph/utils/op_desc_utils.h
@@ -53,6 +53,7 @@ class OpDescUtils {
  static vector<GeTensorPtr> MutableWeights(const ge::NodePtr node);
  static graphStatus SetWeights(ge::Node& node, const vector<ge::GeTensorPtr>& weights);
  static graphStatus SetWeights(ge::NodePtr node, const vector<ge::GeTensorPtr>& weights);
  static graphStatus SetWeights(ge::Node& node, const map<int, ge::GeTensorPtr>& weights_map);
  static graphStatus ClearWeights(ge::NodePtr node);
  static bool ClearInputDesc(ge::OpDescPtr op_desc, uint32_t index);
--- a/src/common/graph/CMakeLists.txt
+++ b/src/common/graph/CMakeLists.txt
@@ -24,7 +24,7 @@ file(GLOB_RECURSE PROTO_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
        "../../proto/task.proto"
        "../../proto/fwk_adaper.proto"
        "../../proto/op_mapping_info.proto"
        "../proto/dump_task.proto"
        "../../proto/dump_task.proto"
        )
 file(GLOB_RECURSE ONNX_PROTO_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
--- a/src/common/graph/compute_graph.cc
+++ b/src/common/graph/compute_graph.cc
@@ -658,7 +658,7 @@ ComputeGraph::UpdateOutputMapping(const std::map<uint32_t, uint32_t> &output_map
    return GRAPH_FAILED;
  }
  size_t num = op_desc->GetInputsSize();
  size_t num = op_desc->GetAllInputsSize();
  for (size_t i = 0; i < num; i++) {
    GeTensorDesc tensor = op_desc->GetInputDesc(i);
    uint32_t cur_index = 0;
--- a/src/common/graph/detail/attributes_holder.cc
+++ b/src/common/graph/detail/attributes_holder.cc
@@ -28,7 +28,7 @@ using std::unordered_set;
 void AttrHolder::CopyAttrsFrom(const AttrHolder &holder) { MutableAttrMap().CopyValueFrom(holder.GetAttrMap()); }
 graphStatus AttrHolder::SetAttr(const std::string &name, const GeAttrValue &value) {
  if (value.IsEmpty()) {
    GELOGE(GRAPH_FAILED, "value is empty, key %s", name.c_str());
    GELOGE(GRAPH_FAILED, "value is empty, key of the attr is %s", name.c_str());
    return GRAPH_FAILED;
  }
  auto proto_map = MutableAttrMap().GetProtoMsg();
--- a/src/common/graph/format_refiner.cc
+++ b/src/common/graph/format_refiner.cc
@@ -149,9 +149,10 @@ graphStatus FormatRefiner::GetAnchorPoints(const ge::ComputeGraphPtr &graph, std
    // consider special node save process
    // get all input desc format
    bool node_is_all_nd = false;
    auto input_size = static_cast<uint32_t>(op_desc->GetInputsSize());
    auto input_size = static_cast<uint32_t>(op_desc->GetAllInputsSize());
    for (uint32_t i = 0; i < input_size; i++) {
      // Operator pre-set format but not origin format
      GE_IF_BOOL_EXEC(op_desc->MutableInputDesc(i) == nullptr, continue);
      auto input_format = op_desc->MutableInputDesc(i)->GetFormat();
      // Pre-save data node (only main graph data) and default infer fail
      if (node_ptr->GetType() == DATA) {
@@ -164,6 +165,7 @@ graphStatus FormatRefiner::GetAnchorPoints(const ge::ComputeGraphPtr &graph, std
    // Get all output desc format
    auto output_size = static_cast<uint32_t>(op_desc->GetOutputsSize());
    for (uint32_t i = 0; i < output_size; i++) {
      GE_IF_BOOL_EXEC(op_desc->MutableOutputDesc(i) == nullptr, continue);
      auto output_format = op_desc->MutableOutputDesc(i)->GetFormat();
      if (output_format != FORMAT_ND && output_format != FORMAT_RESERVED) {
        node_is_all_nd = true;
@@ -222,8 +224,9 @@ graphStatus FormatRefiner::BackInferProcess(std::deque<ge::NodePtr> &nodes, ge::
  for (const auto &in_anchor : node->GetAllInDataAnchors()) {
    GELOGD("Node is [%s] [B]", (node->GetName()).c_str());
    auto in_data_anchor_idx = in_anchor->GetIdx();
    auto to_be_set_format =
      node->GetOpDesc()->MutableInputDesc(static_cast<uint32_t>(in_data_anchor_idx))->GetOriginFormat();
    auto input_desc = node->GetOpDesc()->MutableInputDesc(static_cast<uint32_t>(in_data_anchor_idx));
    GE_IF_BOOL_EXEC(input_desc == nullptr, continue);
    auto to_be_set_format = input_desc->GetOriginFormat();
    if (to_be_set_format == FORMAT_ND) {
      GELOGD("Node [%s] [B], format is ND", (node->GetName()).c_str());
      continue;
--- a/src/common/graph/ge_attr_define.cc
+++ b/src/common/graph/ge_attr_define.cc
@@ -122,6 +122,11 @@ const std::string ATTR_NAME_AIPP_INPUTS = "_aipp_inputs";
 const std::string ATTR_NAME_AIPP_OUTPUTS = "_aipp_outputs";
 const std::string ATTR_NAME_INPUT_DIMS = "input_dims";
 const std::string ATTR_DYNAMIC_AIPP_INPUT_DIMS = "_dynamic_aipp_input_dims";
 const std::string ATTR_DATA_RELATED_AIPP_MODE = "_data_related_aipp_mode";
 const std::string ATTR_DATA_AIPP_DATA_NAME_MAP = "_data_aipp_data_name_map";
 const std::string ATTR_NAME_GRAPH_HAS_BEEN_ADDED = "_graph_has_been_added";
 const std::string ATTR_NAME_SESSION_GRAPH_ID = "_session_graph_id";
 const std::string ATTR_NAME_PARENT_GRAPH_NAME = "_parent_graph_name";
@@ -1055,6 +1060,10 @@ const std::string ATTR_NAME_HCCL_FUSED_FLAG = "_hccl_fused_node";
 const std::string ATTR_DYNAMIC_SHAPE_FIXED_ADDR = "_alloc_fixed_addr";
 const std::string ATTR_DYNAMIC_SHAPE_FIXED_ADDR_INDEX = "_alloc_fixed_addr_index";
 // op dynamic input
 const std::string ATTR_NAME_DYNAMIC_INPUT_START = "_dynamic_input_index_start";
 const std::string ATTR_NAME_DYNAMIC_INPUT_END = "_dynamic_input_index_end";
 // atc user def dtype&format
 const std::string ATTR_ATC_USER_DEFINE_DATATYPE = "_user_defined_data_type";
 const std::string ATTR_ATC_USER_DEFINE_FORMAT = "_user_defined_format";
--- a/src/common/graph/ge_attr_value.cc
+++ b/src/common/graph/ge_attr_value.cc
@@ -33,8 +33,7 @@ using std::vector;
 namespace ge {
 NamedAttrs::NamedAttrs() { named_attrs_.InitDefault(); }
 NamedAttrs::NamedAttrs(const ProtoMsgOwner &owner, proto::NamedAttrs *proto_msg)
    : named_attrs_(owner, proto_msg) {}  // lint !e1744
 NamedAttrs::NamedAttrs(const ProtoMsgOwner &owner, proto::NamedAttrs *proto_msg) : named_attrs_(owner, proto_msg) {}
 void NamedAttrs::SetName(const std::string &name) {
  auto proto_msg = named_attrs_.GetProtoMsg();
@@ -239,7 +238,7 @@ ATTR_VALUE_SET_GET_IMP(GeAttrValue::STR)
 ATTR_VALUE_SET_GET_IMP(vector<GeAttrValue::STR>)
 ATTR_VALUE_SET_GET_IMP(GeAttrValue::INT)
 ATTR_VALUE_SET_GET_IMP(vector<GeAttrValue::INT>)
 ATTR_VALUE_SET_GET_IMP(GeAttrValue::FLOAT)  // lint !e524
 ATTR_VALUE_SET_GET_IMP(GeAttrValue::FLOAT)
 ATTR_VALUE_SET_GET_IMP(vector<GeAttrValue::FLOAT>)
 ATTR_VALUE_SET_GET_IMP(GeAttrValue::BOOL)
 ATTR_VALUE_SET_GET_IMP(vector<GeAttrValue::BOOL>)
@@ -253,11 +252,9 @@ ATTR_VALUE_SET_GET_IMP(GeAttrValue::BYTES)
 ATTR_VALUE_SET_GET_IMP(vector<GeAttrValue::BYTES>)
 ATTR_VALUE_SET_GET_IMP(GeAttrValue::NAMED_ATTRS)
 ATTR_VALUE_SET_GET_IMP(vector<GeAttrValue::NAMED_ATTRS>)
 /*lint -e665*/
 ATTR_VALUE_SET_GET_IMP(vector<vector<int64_t>>)
 /*lint +e665*/
 ATTR_VALUE_SET_GET_IMP(vector<DataType>)        // lint !e665
 ATTR_VALUE_SET_GET_IMP(GeAttrValue::DATA_TYPE)  // lint !e665
 ATTR_VALUE_SET_GET_IMP(vector<DataType>)
 ATTR_VALUE_SET_GET_IMP(GeAttrValue::DATA_TYPE)
 #undef ATTR_VALUE_SET_GET_IMP
@@ -785,14 +782,14 @@ bool GeAttrValueImp::GetValue(const proto::AttrDef &proto_attr_val, const ProtoM
  if (graph_def == nullptr) {
    GELOGE(GRAPH_FAILED, "proto::GraphDef make shared failed");
    graph_def = nullptr;
    return false;  // lint !e665
    return false;
  } else {
    ModelSerializeImp imp;
    imp.SetProtobufOwner(graph_def);
    if (!imp.UnserializeGraph(graph, *graph_def)) {
      GELOGE(GRAPH_FAILED, "UnserializeGraph Failed");
      return false;
    }  // lint !e514
    }
    value = graph;
  }
  return true;
@@ -812,7 +809,7 @@ bool GeAttrValueImp::GetValue(const proto::AttrDef &proto_attr_val, const ProtoM
    if (graph_def == nullptr) {
      GELOGE(GRAPH_FAILED, "proto::GraphDef make shared failed");
      graph_def = nullptr;
      return false;  // lint !e665
      return false;
    } else {
      ComputeGraphPtr graph = nullptr;
      ModelSerializeImp imp;
@@ -820,7 +817,7 @@ bool GeAttrValueImp::GetValue(const proto::AttrDef &proto_attr_val, const ProtoM
      if (!imp.UnserializeGraph(graph, *graph_def)) {
        GELOGE(GRAPH_FAILED, "UnserializeGraph Failed");
        return false;
      }  // lint !e514
      }
      value.push_back(graph);
    }
  }
@@ -972,9 +969,7 @@ ATTR_UTILS_SET_IMP(Tensor, GeTensor)
 ATTR_UTILS_SET_GET_IMP(NamedAttrs, GeAttrValue::NAMED_ATTRS)
 ATTR_UTILS_SET_GET_IMP(Bytes, Buffer)
 ATTR_UTILS_SET_GET_IMP(Graph, ComputeGraphPtr)
 /*lint -e665*/
 ATTR_UTILS_SET_GET_IMP(ListListInt, vector<vector<int64_t>>)
 /*lint +e665*/
 ATTR_UTILS_SET_GET_IMP(ListInt, vector<int64_t>)
 ATTR_UTILS_SET_IMP(ListInt, vector<int32_t>)
@@ -989,8 +984,8 @@ ATTR_UTILS_SET_IMP(ListTensor, vector<GeTensor>)
 ATTR_UTILS_SET_GET_IMP(ListNamedAttrs, vector<GeAttrValue::NAMED_ATTRS>)
 ATTR_UTILS_SET_GET_IMP(ListBytes, vector<Buffer>)
 ATTR_UTILS_SET_GET_IMP(ListGraph, vector<ComputeGraphPtr>)
 ATTR_UTILS_SET_GET_IMP(ListDataType, vector<ge::DataType>)  // lint !e665
 ATTR_UTILS_SET_GET_IMP(DataType, ge::DataType)              // lint !e665
 ATTR_UTILS_SET_GET_IMP(ListDataType, vector<ge::DataType>)
 ATTR_UTILS_SET_GET_IMP(DataType, ge::DataType)
 bool AttrUtils::SetListTensor(AttrHolderAdapter &&obj, const string &name,
                              std::initializer_list<ConstGeTensorPtr> &&value) {
@@ -1159,7 +1154,7 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY bool AttrUtils::GetListOpDesc(Con
  }
  for (const auto &item : bytes_vals) {
    ModelSerialize serialize;
    auto op_desc = serialize.UnserializeOpDesc(item.GetData(), item.GetSize());  // lint !e732
    auto op_desc = serialize.UnserializeOpDesc(item.GetData(), item.GetSize());
    value.push_back(op_desc);
  }
  return true;
@@ -1211,7 +1206,7 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY OpDescPtr AttrUtils::CloneOpDesc(
  op_def = ComGraphMakeShared<proto::OpDef>();
  if (op_def == nullptr) {
    GELOGE(GRAPH_FAILED, "proto::OpDef make shared failed");
    return nullptr;  // lint !e665
    return nullptr;
  }
  ModelSerializeImp imp;
  (void)imp.SerializeOpDesc(org_op_desc, op_def.get());
--- a/src/common/graph/ge_tensor.cc
+++ b/src/common/graph/ge_tensor.cc
@@ -431,7 +431,7 @@ graphStatus GeTensorDesc::GetShapeRange(std::vector<std::pair<int64_t, int64_t>>
      return GRAPH_FAILED;
    }
    std::pair<int64_t, int64_t> pair({ele[0], ele[1]});
    range.push_back(pair);
    range.emplace_back(pair);
  }
  return GRAPH_SUCCESS;
--- a/src/common/graph/graph.mk
+++ b/src/common/graph/graph.mk
@@ -33,7 +33,6 @@ COMMON_LOCAL_SRC_FILES := \
    ./utils/tuning_utils.cc \
    ./utils/graph_utils.cc \
    ./utils/ge_ir_utils.cc \
    ./utils/node_utils.cc \
    ./utils/op_desc_utils.cc \
    ./utils/type_utils.cc \
    ./utils/tensor_utils.cc \
@@ -44,6 +43,7 @@ COMMON_LOCAL_SRC_FILES := \
    option/ge_context.cc \
    option/ge_local_context.cc \
    ./runtime_inference_context.cc \
    ./utils/node_utils.cc \
 COMMON_LOCAL_C_INCLUDES := \
    proto/om.proto \
--- a/src/common/graph/model_serialize.cc
+++ b/src/common/graph/model_serialize.cc
@@ -409,13 +409,13 @@ bool ModelSerializeImp::HandleNodeNameRef() {
               item.dst_node_name.c_str(), item.dst_in_index);
        return false;
      }
      GE_CHK_BOOL_ONLY_LOG((src_anchor->LinkTo(dst_anchor) == GRAPH_SUCCESS), " linkTo failed.");  // lint !e737
      GE_CHK_BOOL_ONLY_LOG((src_anchor->LinkTo(dst_anchor) == GRAPH_SUCCESS), " linkTo failed.");
    } else {
      // Control edge
      auto src_anchor = src_node_it->second->GetOutControlAnchor();
      auto dst_anchor = item.dst_node->GetInControlAnchor();
      if (src_anchor != nullptr && dst_anchor != nullptr) {
        GE_CHK_BOOL_ONLY_LOG((src_anchor->LinkTo(dst_anchor) == GRAPH_SUCCESS), " linkTo failed.");  // lint !e737
        GE_CHK_BOOL_ONLY_LOG((src_anchor->LinkTo(dst_anchor) == GRAPH_SUCCESS), " linkTo failed.");
      }
    }
  }
--- a/src/common/graph/node.cc
+++ b/src/common/graph/node.cc
@@ -68,7 +68,7 @@ graphStatus Node::Init() {
    return GRAPH_SUCCESS;
  }
  GE_CHK_BOOL_EXEC(op_ != nullptr, return GRAPH_FAILED, "original OpDesc is nullptr");
  size_t size = op_->GetInputsSize();
  size_t size = op_->GetAllInputsSize();
  for (size_t i = 0; i < size; i++) {
    std::shared_ptr<InDataAnchor> anchor = ComGraphMakeShared<InDataAnchor>(shared_from_this(), i);
    if (anchor == nullptr) {
@@ -305,13 +305,19 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY graphStatus Node::AddLinkFrom(con
    GELOGE(GRAPH_FAILED, "add input desc failed.");
    return GRAPH_FAILED;
  }
  std::shared_ptr<InDataAnchor> anchor = ComGraphMakeShared<InDataAnchor>(shared_from_this(), in_data_anchors_.size());
  if (anchor == nullptr) {
    GELOGE(GRAPH_FAILED, "out_anchor size is:%zu, malloc shared_ptr failed.", out_anchors.size());
    return GRAPH_FAILED;
  if (index < GetAllInDataAnchors().size()) {
    (void)out_anchors.at(0)->LinkTo(in_data_anchors_[index]);
  } else {
    std::shared_ptr<InDataAnchor> anchor =
      ComGraphMakeShared<InDataAnchor>(shared_from_this(), in_data_anchors_.size());
    if (anchor == nullptr) {
      GELOGE(GRAPH_FAILED, "out_anchor size is:%zu, malloc shared_ptr failed.", out_anchors.size());
      return GRAPH_FAILED;
    }
    in_data_anchors_.push_back(anchor);
    (void)out_anchors.at(0)->LinkTo(in_data_anchors_.back());
  }
  in_data_anchors_.push_back(anchor);
  (void)out_anchors.at(0)->LinkTo(in_data_anchors_.back());
  return GRAPH_SUCCESS;
 }
@@ -347,20 +353,30 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY graphStatus Node::AddLinkFrom(con
  }
  GE_CHECK_NOTNULL(op_);
  auto op_desc = input_node->GetOpDesc();
  GE_CHECK_NOTNULL(op_desc);
  if (op_->AddInputDesc(name, op_desc->GetOutputDesc(0)) != GRAPH_SUCCESS) {
    GELOGE(GRAPH_FAILED, "add input desc failed.");
    return GRAPH_FAILED;
  auto input_op_desc = input_node->GetOpDesc();
  GE_CHECK_NOTNULL(input_op_desc);
  auto index = op_->GetInputIndexByName(name);
  if (index != -1) {
    if (index >= static_cast<int>(in_data_anchors_.size())) {
      GELOGE(GRAPH_FAILED, "op %s get input name %s 's index %d is illegal.", op_->GetName().c_str(), name.c_str(),
             index);
      return GRAPH_FAILED;
    }
    (void)out_anchors.at(0)->LinkTo(in_data_anchors_[index]);
  } else {
    std::shared_ptr<InDataAnchor> anchor =
      ComGraphMakeShared<InDataAnchor>(shared_from_this(), in_data_anchors_.size());
    if (anchor == nullptr) {
      GELOGE(GRAPH_FAILED, "in_data_anchors_size is:%zu, malloc shared_ptr failed.", in_data_anchors_.size());
      return GRAPH_FAILED;
    }
    in_data_anchors_.push_back(anchor);
    (void)out_anchors.at(0)->LinkTo(in_data_anchors_.back());
  }
  std::shared_ptr<InDataAnchor> anchor = ComGraphMakeShared<InDataAnchor>(shared_from_this(), in_data_anchors_.size());
  if (anchor == nullptr) {
    GELOGE(GRAPH_FAILED, "out_anchor size is:%zu, malloc shared_ptr failed.", out_anchors.size());
  if (op_->AddInputDesc(name, input_op_desc->GetOutputDesc(0)) != GRAPH_SUCCESS) {
    GELOGE(GRAPH_FAILED, "add input desc failed.");
    return GRAPH_FAILED;
  }
  in_data_anchors_.push_back(anchor);
  (void)out_anchors.at(0)->LinkTo(in_data_anchors_.back());
  return GRAPH_SUCCESS;
 }
@@ -746,9 +762,10 @@ graphStatus Node::Verify() const {
  if (!is_unknown_graph) {
    for (const auto &in_anchor_ptr : GetAllInDataAnchors()) {
      GE_IF_BOOL_EXEC(in_anchor_ptr == nullptr, GELOGW("in anchor ptr is null"); continue);
      bool valid_anchor = op_->GetType() == data_type || op_->GetType() == aipp_data_type ||
                          op_->GetType() == const_type || op_->GetType() == variable_type ||
                          op_->IsOptionalInput(in_anchor_ptr->GetIdx()) || in_anchor_ptr->GetPeerAnchors().size() > 0;
      bool valid_anchor =
        op_->GetType() == data_type || op_->GetType() == aipp_data_type || op_->GetType() == const_type ||
        op_->GetType() == variable_type || op_->IsOptionalInput(in_anchor_ptr->GetIdx()) ||
        op_->MutableInputDesc(in_anchor_ptr->GetIdx()) == nullptr || in_anchor_ptr->GetPeerAnchors().size() > 0;
      if (!valid_anchor) {
        ErrorManager::GetInstance().ATCReportErrMessage("E11019", {"opname", "index"},
                                                        {GetName(), std::to_string(in_anchor_ptr->GetIdx())});
--- a/src/common/graph/op_desc.cc
+++ b/src/common/graph/op_desc.cc
@@ -33,7 +33,6 @@ using std::shared_ptr;
 using std::string;
 using std::vector;
 /*lint -save -e521 -e681 -e732 -e737*/
 namespace ge {
 const std::string ATTR_NAME_ID = "id";
@@ -347,7 +346,10 @@ graphStatus OpDesc::AddOptionalInputDesc(const string &name, const ge::GeTensorD
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY graphStatus
 OpDesc::UpdateInputDesc(uint32_t index, const ge::GeTensorDesc &tensor_Desc) {
  GE_CHK_BOOL_RET_STATUS((index < inputs_desc_.size()), GRAPH_FAILED, "The index is invalid. index[%u]", index);
  if (index >= inputs_desc_.size()) {
    GELOGW("The index is invalid. index[%u]", index);
    return GRAPH_FAILED;
  }
  inputs_desc_[index] = ComGraphMakeShared<GeTensorDesc>(tensor_Desc);
  if (inputs_desc_[index] == nullptr) {
@@ -675,7 +677,7 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY ConstGeTensorDescPtr OpDesc::GetI
    return nullptr;
  }
  if (inputs_desc_[index]->IsValid() != GRAPH_SUCCESS) {
    GELOGE(GRAPH_FAILED, "inputsDesc[%u] is InValid", index);
    GELOGW("inputsDesc[%u] is InValid", index);
    return nullptr;
  } else {
    return inputs_desc_[static_cast<size_t>(index)];
@@ -949,6 +951,43 @@ int OpDesc::GetInputIndexByName(const string &name) const {
  return static_cast<int>(it_find->second);
 }
 int OpDesc::GetValidInputIndexByName(const string &name) const {
  map<string, uint32_t> valid_input_name_idx{};
  uint32_t j = 0;
  for (size_t i = 0; i < GetAllInputsSize(); i++) {
    if (MutableInputDesc(static_cast<uint32_t>(i)) != nullptr) {
      auto valid_name = GetInputNameByIndex(static_cast<uint32_t>(i));
      GE_CHK_BOOL_RET_STATUS_NOLOG(!valid_name.empty(), -1);
      valid_input_name_idx.insert({valid_name, j});
      j++;
    }
  }
  auto it_find = valid_input_name_idx.find(name);
  GE_CHK_BOOL_RET_STATUS_NOLOG(it_find != valid_input_name_idx.end(), -1);
  return static_cast<int>(it_find->second);
 }
 string OpDesc::GetValidInputNameByIndex(uint32_t index) const {
  map<string, uint32_t> valid_input_name_idx{};
  uint32_t j = 0;
  for (size_t i = 0; i < GetAllInputsSize(); i++) {
    if (MutableInputDesc(static_cast<uint32_t>(i)) != nullptr) {
      auto valid_name = GetInputNameByIndex(static_cast<uint32_t>(i));
      GE_CHK_BOOL_RET_STATUS_NOLOG(!valid_name.empty(), "");
      valid_input_name_idx.insert({valid_name, j});
      j++;
    }
  }
  auto it = valid_input_name_idx.begin();
  for (; it != valid_input_name_idx.end(); ++it) {
    if (it->second == index) {
      break;
    }
  }
  GE_CHK_BOOL_RET_STATUS_NOLOG(it != valid_input_name_idx.end(), "");
  return it->first;
 }
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY string OpDesc::GetOutputNameByIndex(uint32_t index) const {
  auto it = output_name_idx_.begin();
  for (; it != output_name_idx_.end(); ++it) {
--- a/src/common/graph/operator.cc
+++ b/src/common/graph/operator.cc
@@ -56,9 +56,6 @@ using std::string;
 using std::to_string;
 using std::vector;
 /*lint -save -e529 -e728*/
 /*lint -e446 -e732*/
 /*lint -e665*/
 namespace ge {
 class OpIO {
 public:
@@ -943,7 +940,7 @@ OperatorImplPtr Operator::GetOperatorImplPtr() const { return operator_impl_; }
      GELOGW("set attr name %s failed.", name.c_str());                                     \
    }                                                                                       \
    return *this;                                                                           \
  }  // lint !e665
  }
 #define OP_ATTR_GET_IMP(ArgType, AttrUtilsFun)                                              \
  graphStatus Operator::GetAttr(const string &name, ArgType attr_value) const {             \
@@ -956,7 +953,7 @@ OperatorImplPtr Operator::GetOperatorImplPtr() const { return operator_impl_; }
      return GRAPH_FAILED;                                                                  \
    }                                                                                       \
    return GRAPH_SUCCESS;                                                                   \
  }  // lint !e665
  }
 void Operator::BreakConnect() const {
  if (operator_impl_ == nullptr) {
@@ -977,7 +974,7 @@ void Operator::BreakConnect() const {
    if (!AttrUtils::Set##AttrUtilsFun(operator_impl_->GetOpDescImpl(), name, attr_value)) { \
      GELOGW("reg attr name %s failed.", name.c_str());                                     \
    }                                                                                       \
  }  // lint !e665
  }
 OP_ATTR_SET_IMP(int64_t, Int)
 OP_ATTR_SET_IMP(int32_t, Int)
@@ -998,22 +995,22 @@ OP_ATTR_SET_IMP(const vector<vector<int64_t>> &, ListListInt)
 OP_ATTR_SET_IMP(float, Float)
 OP_ATTR_GET_IMP(float &, Float)
 OP_ATTR_SET_IMP(const vector<float> &, ListFloat)
 OP_ATTR_GET_IMP(vector<float> &, ListFloat)  // lint !e665
 OP_ATTR_GET_IMP(vector<float> &, ListFloat)
 OP_ATTR_SET_IMP(bool, Bool)
 OP_ATTR_GET_IMP(bool &, Bool)
 OP_ATTR_SET_IMP(const vector<bool> &, ListBool)
 OP_ATTR_GET_IMP(vector<bool> &, ListBool)  // lint !e665
 OP_ATTR_GET_IMP(vector<bool> &, ListBool)
 OP_ATTR_SET_IMP(const string &, Str)
 OP_ATTR_GET_IMP(string &, Str)
 OP_ATTR_SET_IMP(const vector<string> &, ListStr)
 OP_ATTR_GET_IMP(vector<string> &, ListStr)  // lint !e665
 OP_ATTR_GET_IMP(vector<string> &, ListStr)
 OP_ATTR_SET_IMP(const GeAttrValue::NAMED_ATTRS &, NamedAttrs)
 OP_ATTR_GET_IMP(GeAttrValue::NAMED_ATTRS &, NamedAttrs)
 OP_ATTR_SET_IMP(const vector<GeAttrValue::NAMED_ATTRS> &, ListNamedAttrs)
 OP_ATTR_GET_IMP(vector<GeAttrValue::NAMED_ATTRS> &, ListNamedAttrs)  // lint !e665
 OP_ATTR_GET_IMP(vector<GeAttrValue::NAMED_ATTRS> &, ListNamedAttrs)
 OP_ATTR_REG_IMP(int64_t, Int)
 OP_ATTR_REG_IMP(const vector<int64_t> &, ListInt)
@@ -1504,7 +1501,9 @@ class GraphBuilderImpl {
          GE_CHK_BOOL_EXEC(dst_anchor != nullptr, return GRAPH_FAILED, "GetInDataAnchor failed.");
          auto ret = GraphUtils::AddEdge(src_anchor, dst_anchor);
          GE_CHK_BOOL_EXEC(ret == GRAPH_SUCCESS, return GRAPH_FAILED, "AddEdge failed.");
          GE_CHK_BOOL_EXEC(ret == GRAPH_SUCCESS, return GRAPH_FAILED,
                           "from node[%s][%d] to node[%s][%d]AddEdge failed.", src_node_ptr->GetName().c_str(),
                           src_anchor->GetIdx(), dst_node_info->second->GetName().c_str(), dst_anchor->GetIdx());
        }
      }
      auto out_control_anchor = src_node_ptr->GetOutControlAnchor();
@@ -1536,19 +1535,23 @@ inline bool HasSameNameNode(const ComputeGraphPtr &compute_graph) {
  for (const auto &graph : compute_graph->GetAllSubgraphs()) {
    std::set<string> node_names;
    for (auto const &node : graph->GetDirectNode()) {
      node_names.insert(node->GetName());
    }
    if (node_names.size() != graph->GetDirectNodesSize()) {
      return true;
      auto result = node_names.insert(node->GetName());
      if (!result.second) {
        GELOGE(GRAPH_FAILED, "graph %s has same name node%s", graph->GetName().c_str(), node->GetName().c_str());
        return true;
      }
    }
  }
  std::set<string> node_names;
  for (auto const &node : compute_graph->GetDirectNode()) {
    node_names.insert(node->GetName());
    auto result = node_names.insert(node->GetName());
    if (!result.second) {
      GELOGE(GRAPH_FAILED, "graph %s has same name node%s", compute_graph->GetName().c_str(), node->GetName().c_str());
      return true;
    }
  }
  return node_names.size() != compute_graph->GetDirectNodesSize();
  return false;
 }
 ComputeGraphPtr GraphUtils::CreateGraphFromOperator(const string &name, const vector<ge::Operator> &inputs) {
@@ -1577,5 +1580,3 @@ void GraphUtils::BreakConnect(const std::map<OperatorImplPtr, NodePtr> &all_node
  }
 }
 }  // namespace ge
 /*lint +e446 +e732*/
 /*lint +e665*/
--- a/src/common/graph/opsproto/opsproto_manager.cc
+++ b/src/common/graph/opsproto/opsproto_manager.cc
@@ -38,9 +38,7 @@ bool OpsProtoManager::Initialize(const std::map<std::string, std::string> &optio
    return true;
  }
  /*lint -e1561*/
  auto proto_iter = options.find("ge.opsProtoLibPath");
  /*lint +e1561*/
  if (proto_iter == options.end()) {
    GELOGW("ge.opsProtoLibPath option not set, return.");
    return false;
--- a/src/common/graph/ref_relation.cc
+++ b/src/common/graph/ref_relation.cc
@@ -56,7 +56,7 @@ class RefRelations::Impl {
      }
      return GRAPH_SUCCESS;
    }
    GELOGW("can not find any relations! key value is %s", lookup_key.c_str());
    GELOGW("can not find any relations! key value of dest relation is %s", lookup_key.c_str());
    return GRAPH_SUCCESS;
  };
  graphStatus BuildRefRelations(ge::ComputeGraph &root_graph);
--- a/src/common/graph/runtime_inference_context.cc
+++ b/src/common/graph/runtime_inference_context.cc
@@ -15,6 +15,7 @@
 */
 #include "graph/runtime_inference_context.h"
 #include "graph/utils/tensor_adapter.h"
 #include <cstdint>
 #include "framework/common/debug/ge_log.h"
@@ -67,6 +68,14 @@ graphStatus RuntimeInferenceContext::SetTensor(int64_t node_id, int output_id, T
  GELOGD("Set tensor for node_id = %ld, output_id = %d", node_id, output_id);
  output_tensors[output_id] = std::move(tensor);
  auto &output_ge_tensors = ge_tensors_[node_id];
  if (static_cast<uint32_t>(output_id) >= output_ge_tensors.size()) {
    output_ge_tensors.resize(output_id + 1);
  }
  GELOGD("Set ge tensor for node_id = %ld, output_id = %d", node_id, output_id);
  output_ge_tensors[output_id] = TensorAdapter::AsGeTensorPtr(tensor);
  return GRAPH_SUCCESS;
 }
@@ -93,4 +102,28 @@ graphStatus RuntimeInferenceContext::GetTensor(int64_t node_id, int output_id, T
  tensor = output_tensors[output_id];
  return GRAPH_SUCCESS;
 }
 graphStatus RuntimeInferenceContext::GetTensor(int64_t node_id, int output_id, GeTensorPtr &tensor) {
  if (output_id < 0) {
    GELOGE(GRAPH_PARAM_INVALID, "Invalid output index: %d", output_id);
    return GRAPH_PARAM_INVALID;
  }
  std::lock_guard<std::mutex> lk(mu_);
  auto iter = ge_tensors_.find(node_id);
  if (iter == ge_tensors_.end()) {
    GELOGE(INTERNAL_ERROR, "Node not register. Id = %ld", node_id);
    return INTERNAL_ERROR;
  }
  auto &output_tensors = iter->second;
  if (static_cast<uint32_t>(output_id) >= output_tensors.size()) {
    GELOGE(GRAPH_FAILED, "Node output is not registered. node_id = %ld, output index = %d", node_id, output_id);
    return GRAPH_FAILED;
  }
  GELOGD("Get ge tensor for node_id = %ld, output_id = %d", node_id, output_id);
  tensor = output_tensors[output_id];
  return GRAPH_SUCCESS;
 }
 }  // namespace ge
--- a/src/common/graph/shape_refiner.cc
+++ b/src/common/graph/shape_refiner.cc
@@ -51,6 +51,9 @@ graphStatus ReverseBrushWhileBodySubGraph(const ConstNodePtr &node) {
  for (const auto &node_sub : sub_graph_body->GetAllNodes()) {
    for (size_t i = 0; i < node_sub->GetAllInDataAnchorsSize(); i++) {
      auto input_desc = node_sub->GetOpDesc()->MutableInputDesc(i);
      GE_IF_BOOL_EXEC(input_desc == nullptr,
                      GELOGW("Get null input by index %zu from node %s ", i, node_sub->GetName().c_str());
                      continue);
      (void)input_desc->SetUnknownDimNumShape();
    }
    for (size_t i = 0; i < node_sub->GetAllOutDataAnchorsSize(); i++) {
@@ -376,10 +379,13 @@ graphStatus UpdateOpInputDesc(const ConstNodePtr &node_ptr) {
      continue;
    }
    int peer_out_idx = peer_out_data_anchor->GetIdx();
    auto in_desc = node_ptr->GetOpDesc()->MutableInputDesc(static_cast<uint32_t>(in_idx));
    auto peer_out_desc = peer_out_data_node->GetOpDesc()->MutableOutputDesc(static_cast<uint32_t>(peer_out_idx));
    // check shape and dtype continuity. do not stop process
    auto in_desc = node_ptr->GetOpDesc()->MutableInputDesc(static_cast<uint32_t>(in_idx));
    if (in_desc == nullptr) {
      continue;
    }
    auto in_shape = in_desc->GetShape().GetDims();
    auto in_dtype = in_desc->GetDataType();
    auto peer_out_shape = peer_out_desc->GetShape().GetDims();
--- a/src/common/graph/tensor.cc
+++ b/src/common/graph/tensor.cc
@@ -178,18 +178,16 @@ int64_t Shape::GetShapeSize() const {
  return 0;
 }
 TensorDesc::TensorDesc() {
  impl = ComGraphMakeShared<TensorDescImpl>();  // lint !e665
 }
 TensorDesc::TensorDesc() { impl = ComGraphMakeShared<TensorDescImpl>(); }
 TensorDesc::TensorDesc(Shape shape, Format format, DataType dt) {
  impl = ComGraphMakeShared<TensorDescImpl>(shape, format, dt);  // lint !e665
  impl = ComGraphMakeShared<TensorDescImpl>(shape, format, dt);
  SetRealDimCnt(shape.GetDimNum());
 }
 TensorDesc::TensorDesc(const TensorDesc &desc) {
  // Copy
  impl = ComGraphMakeShared<TensorDescImpl>();  // lint !e665
  impl = ComGraphMakeShared<TensorDescImpl>();
  if (desc.impl != nullptr && impl != nullptr) {
    *impl = *desc.impl;
  }
@@ -360,9 +358,7 @@ void TensorDesc::SetName(const std::string &name) {
 Tensor::Tensor() { impl = ComGraphMakeShared<TensorImpl>(); }
 Tensor::Tensor(const TensorDesc &tensor_desc) {
  impl = ComGraphMakeShared<TensorImpl>(tensor_desc);  // lint !e665
 }
 Tensor::Tensor(const TensorDesc &tensor_desc) { impl = ComGraphMakeShared<TensorImpl>(tensor_desc); }
 Tensor::Tensor(const TensorDesc &tensor_desc, const std::vector<uint8_t> &data) {
  uint64_t shape_size = tensor_desc.GetShape().GetShapeSize();
@@ -384,7 +380,7 @@ Tensor::Tensor(const TensorDesc &tensor_desc, const std::vector<uint8_t> &data)
      }
    }
  }
  impl = ComGraphMakeShared<TensorImpl>(tensor_desc, data);  // lint !e665
  impl = ComGraphMakeShared<TensorImpl>(tensor_desc, data);
 }
 Tensor::Tensor(const TensorDesc &tensor_desc, const uint8_t *data, size_t size) {
@@ -406,7 +402,7 @@ Tensor::Tensor(const TensorDesc &tensor_desc, const uint8_t *data, size_t size)
    }
  }
  impl = ComGraphMakeShared<TensorImpl>(tensor_desc, data, size);  // lint !e665
  impl = ComGraphMakeShared<TensorImpl>(tensor_desc, data, size);
 }
 Tensor::Tensor(TensorDesc &&tensor_desc, std::vector<uint8_t> &&data) {
@@ -429,7 +425,7 @@ Tensor::Tensor(TensorDesc &&tensor_desc, std::vector<uint8_t> &&data) {
      }
    }
  }
  impl = ComGraphMakeShared<TensorImpl>(std::move(tensor_desc), std::move(data));  // lint !e665
  impl = ComGraphMakeShared<TensorImpl>(std::move(tensor_desc), std::move(data));
 }
 TensorDesc Tensor::GetTensorDesc() const {
@@ -643,7 +639,7 @@ TensorDesc TensorAdapter::GeTensorDesc2TensorDesc(const GeTensorDesc &ge_tensor_
 GeTensorPtr TensorAdapter::Tensor2GeTensor(const Tensor &tensor) {
  GeTensorPtr ge_tensor;
  if (tensor.impl != nullptr) {
    ge_tensor = ComGraphMakeShared<GeTensor>(tensor.impl->ge_tensor.Clone());  // lint !e665
    ge_tensor = ComGraphMakeShared<GeTensor>(tensor.impl->ge_tensor.Clone());
  }
  return ge_tensor;
 }
@@ -659,7 +655,7 @@ Tensor TensorAdapter::GeTensor2Tensor(const ConstGeTensorPtr &ge_tensor) {
 ConstGeTensorPtr TensorAdapter::AsGeTensorPtr(const Tensor &tensor) {
  GeTensorPtr ge_tensor;
  if (tensor.impl != nullptr) {
    ge_tensor = ComGraphMakeShared<GeTensor>(tensor.impl->ge_tensor);  // lint !e665
    ge_tensor = ComGraphMakeShared<GeTensor>(tensor.impl->ge_tensor);
  }
  return ge_tensor;
 }
@@ -667,7 +663,7 @@ ConstGeTensorPtr TensorAdapter::AsGeTensorPtr(const Tensor &tensor) {
 GeTensorPtr TensorAdapter::AsGeTensorPtr(Tensor &tensor) {
  GeTensorPtr ge_tensor;
  if (tensor.impl != nullptr) {
    ge_tensor = ComGraphMakeShared<GeTensor>(tensor.impl->ge_tensor);  // lint !e665
    ge_tensor = ComGraphMakeShared<GeTensor>(tensor.impl->ge_tensor);
  }
  return ge_tensor;
 }
--- a/src/common/graph/utils/ge_ir_utils.cc
+++ b/src/common/graph/utils/ge_ir_utils.cc
@@ -264,11 +264,11 @@ void OnnxUtils::AddAttrProtoForOpInAndOutDesc(onnx::NodeProto *node_proto, const
    return;
  }
  // Input describes
  auto size_in = op_desc->GetInputsSize();
  auto size_in = op_desc->GetAllInputsSize();
  AddAttrProto(node_proto, onnx::AttributeProto_AttributeType_INT, "input_desc_nums", &size_in);
  if (size_in > 0) {
    for (uint32_t i = 0; i < size_in; i++) {
      auto input_desc = op_desc->GetInputDescPtr(i);
      auto input_desc = op_desc->GetInputDescPtrDfault(i);
      if (input_desc != nullptr) {
        auto data_type = TypeUtils::DataTypeToSerialString(input_desc->GetDataType());
        AddAttrProto(node_proto, onnx::AttributeProto_AttributeType_STRING, "input_desc_dtype:" + std::to_string(i),
@@ -480,9 +480,20 @@ void OnnxUtils::AddAttrProtoFromNodeMembers(const NodePtr &node, onnx::NodeProto
  if (!recv_list.empty()) {
    AddAttrProto(node_proto, onnx::AttributeProto_AttributeType_INTS, "recv_event_id_list", &recv_list);
  }
  // 2.Attributes added from node's op_(message OpDef)
  auto op_desc = node->op_;
  if (op_desc != nullptr) {
    // for input_name_idx_ in opdesc
    auto input_name_2_indexs = op_desc->GetAllInputName();
    ::google::protobuf::RepeatedPtrField<::std::string> input_names;
    ::google::protobuf::RepeatedField<::google::protobuf::int64> input_indexes;
    for (const auto &input_name_2_index : input_name_2_indexs) {
      std::string input_name = input_name_2_index.first;
      input_names.Add(std::move(input_name));
      input_indexes.Add(input_name_2_index.second);
    }
    AddAttrProto(node_proto, onnx::AttributeProto_AttributeType_STRINGS, "_input_name_key", input_names);
    AddAttrProto(node_proto, onnx::AttributeProto_AttributeType_INTS, "_input_name_value", input_indexes);
    // 2.Attributes added from node's op_(message OpDef)
    // Input and out describes
    AddAttrProtoForOpInAndOutDesc(node_proto, op_desc);
    // Others
--- a/src/common/graph/utils/graph_utils.cc
+++ b/src/common/graph/utils/graph_utils.cc
@@ -1470,8 +1470,7 @@ graphStatus GraphUtils::CopyTensorAttrs(const OpDescPtr &dst_desc, const NodePtr
  for (uint32_t i = 0; i < src_node->GetAllInDataAnchorsSize(); ++i) {
    auto input_desc = dst_desc->MutableInputDesc(i);
    if (input_desc == nullptr) {
      GELOGE(GRAPH_FAILED, "Param dst node not valid");
      return GRAPH_FAILED;
      continue;
    }
    input_desc->CopyAttrsFrom(src_desc->GetInputDesc(i));
  }
--- a/src/common/graph/utils/node_utils.cc
+++ b/src/common/graph/utils/node_utils.cc
@@ -14,8 +14,8 @@
 * limitations under the License.
 */
 #include "utils/node_utils.h"
 #include "utils/op_desc_utils.h"
 #include "graph/utils/node_utils.h"
 #include "graph/utils/op_desc_utils.h"
 #include "graph/utils/graph_utils.h"
 #include "debug/ge_op_types.h"
 #include "debug/ge_util.h"
@@ -23,8 +23,13 @@
 #include "graph/anchor.h"
 #include "graph/debug/ge_attr_define.h"
 #include "graph/types.h"
 #include "utils/tensor_utils.h"
 #include "utils/type_utils.h"
 #include "external/graph/operator.h"
 #include "graph/ge_context.h"
 #include "graph/runtime_inference_context.h"
 #include "graph/utils/op_desc_utils.h"
 #include "graph/utils/tensor_utils.h"
 #include "graph/utils/tensor_adapter.h"
 #include "graph/utils/type_utils.h"
 namespace ge {
 std::map<NodePtr, std::vector<uint32_t>> NodeUtils::map_send_info_{};
@@ -575,6 +580,58 @@ graphStatus NodeUtils::GetNodeUnknownShapeStatus(const Node &node, bool &is_unkn
  return GRAPH_SUCCESS;
 }
 graphStatus NodeUtils::GetInputConstData(const ConstNodePtr &node_ptr, const string &dst_name, GeTensorPtr &ge_tensor) {
  GE_CHECK_NOTNULL(node_ptr);
  return NodeUtils::GetInputConstData(*node_ptr, dst_name, ge_tensor);
 }
 graphStatus NodeUtils::GetInputConstData(const Node &node, const string &dst_name, GeTensorPtr &ge_tensor) {
  // For inner compute graph
  auto op_desc = node.GetOpDesc();
  GE_CHECK_NOTNULL(op_desc);
  auto index = op_desc->GetInputIndexByName(dst_name);
  auto in_data_anchor = node.GetInDataAnchor(index);
  GE_CHECK_NOTNULL(in_data_anchor);
  auto out_data_anchor = in_data_anchor->GetPeerOutAnchor();
  GE_CHECK_NOTNULL(out_data_anchor);
  auto peer_node = out_data_anchor->GetOwnerNode();
  GE_CHECK_NOTNULL(peer_node);
  auto peer_op_desc = peer_node->GetOpDesc();
  GE_CHECK_NOTNULL(peer_op_desc);
  auto peer_op_type = peer_op_desc->GetType();
  if (peer_op_type == CONSTANTOP || peer_op_type == CONSTANT) {
    if (!AttrUtils::MutableTensor(peer_node->GetOpDesc(), ATTR_NAME_WEIGHTS, ge_tensor)) {
      GELOGW("get attr name %s failed.", ATTR_NAME_WEIGHTS.c_str());
      return GRAPH_FAILED;
    }
    return GRAPH_SUCCESS;
  } else if (peer_op_type == DATA) {
    auto parent_node = NodeUtils::GetParentInput(peer_node);
    while ((parent_node != nullptr) && (parent_node->GetType() == DATA)) {
      parent_node = NodeUtils::GetParentInput(parent_node);
    }
    if ((parent_node != nullptr) && ((parent_node->GetType() == CONSTANT) || (parent_node->GetType() == CONSTANTOP))) {
      if (!AttrUtils::MutableTensor(parent_node->GetOpDesc(), ATTR_NAME_WEIGHTS, ge_tensor)) {
        GELOGW("get attr name %s failed.", ATTR_NAME_WEIGHTS.c_str());
        return GRAPH_FAILED;
      }
      return GRAPH_SUCCESS;
    }
  }
  // Try get from runtime inference context
  auto session_id = std::to_string(GetContext().SessionId());
  RuntimeInferenceContext *runtime_infer_ctx = nullptr;
  if (RuntimeInferenceContext::GetContext(session_id, &runtime_infer_ctx) == GRAPH_SUCCESS) {
    GELOGD("To get constant from runtime inference context. session_id = %s", session_id.c_str());
    auto ret = runtime_infer_ctx->GetTensor(peer_node->GetOpDesc()->GetId(), out_data_anchor->GetIdx(), ge_tensor);
    if (ret == GRAPH_SUCCESS) {
      return GRAPH_SUCCESS;
    }
  }
  GELOGW("node[%s]'s input[%s]'s peer node is not const", node.GetName().c_str(), dst_name.c_str());
  return GRAPH_FAILED;
 }
 std::string NodeUtils::GetNodeType(const Node &node) {
  if (node.GetType() != FRAMEWORKOP) {
    return node.GetType();
@@ -587,14 +644,6 @@ std::string NodeUtils::GetNodeType(const Node &node) {
 std::string NodeUtils::GetNodeType(const NodePtr &node) { return node == nullptr ? "" : GetNodeType(*node); }
 graphStatus NodeUtils::GetInputConstData(const ConstNodePtr &node_ptr, const string &dst_name, GeTensorPtr &ge_tensor) {
  return GRAPH_SUCCESS;
 }
 graphStatus NodeUtils::GetInputConstData(const Node &node, const string &dst_name, GeTensorPtr &ge_tensor) {
  return GRAPH_SUCCESS;
 }
 ComputeGraphPtr NodeUtils::GetSubgraph(const Node &node, uint32_t index) {
  auto op_desc = node.GetOpDesc();
  if (op_desc == nullptr) {
--- a/src/common/graph/utils/op_desc_utils.cc
+++ b/src/common/graph/utils/op_desc_utils.cc
@@ -28,7 +28,6 @@
 using std::vector;
 /*lint -e512 -e737 -e752*/
 namespace ge {
 const char OP_DESC_QUANT_PARAMS[] = "quantize_factor";
 static const int CONST_OP_NORMAL_WEIGHT_SIZE = 1;
@@ -133,11 +132,11 @@ graphStatus OpDescUtils::GetQuantizeFactorParams(const OpDesc &op_desc, Quantize
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY graphStatus
 OpDescUtils::SetQuantizeFactorParams(const OpDescPtr &op_desc, const QuantizeFactorParams &quant) {
  GE_CHK_BOOL_EXEC_INFO(op_desc != nullptr, return GRAPH_FAILED, "op_desc is nullptr");
  return op_desc->SetAttr(OP_DESC_QUANT_PARAMS, GeAttrValue::CreateFrom<QuantizeFactorParams>(quant));  // lint !e732
  return op_desc->SetAttr(OP_DESC_QUANT_PARAMS, GeAttrValue::CreateFrom<QuantizeFactorParams>(quant));
 }
 graphStatus OpDescUtils::SetQuantizeFactorParams(OpDesc &op_desc, const QuantizeFactorParams &quant) {
  return op_desc.SetAttr(OP_DESC_QUANT_PARAMS, GeAttrValue::CreateFrom<QuantizeFactorParams>(quant));  // lint !e732
  return op_desc.SetAttr(OP_DESC_QUANT_PARAMS, GeAttrValue::CreateFrom<QuantizeFactorParams>(quant));
 }
 GeTensorPtr OpDescUtils::MutableWeights(OpDesc &op_desc) {
@@ -255,7 +254,7 @@ size_t OpDescUtils::GetNonConstInputsSize(const ge::Node &node) {
        continue;
      }
    }
    return input_num;  // lint !e712
    return input_num;
  } else {
    GE_IF_BOOL_EXEC(
      node.GetInDataNodes().size() < GetConstInputs(node).size(),
@@ -360,7 +359,7 @@ bool OpDescUtils::IsNonConstInput(const ge::Node &node, const size_t index) {
  bool ret = false;
  if (index < node.GetAllInDataAnchors().size()) {
    if (NodeUtils::IsAnchorStatusSet(node)) {
      ret = (ge::AnchorUtils::GetStatus(node.GetInDataAnchor(static_cast<int>(index))) == ANCHOR_DATA);  // lint !e712
      ret = (ge::AnchorUtils::GetStatus(node.GetInDataAnchor(static_cast<int>(index))) == ANCHOR_DATA);
    } else {
      for (const auto &anchor : node.GetAllInDataAnchors()) {
        if (anchor->GetIdx() != static_cast<int>(index)) {
@@ -513,7 +512,6 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY vector<GeTensorPtr> OpDescUtils::
  }
  return MutableWeights(*node);
 }
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY graphStatus
 OpDescUtils::SetWeights(ge::Node &node, const vector<ge::GeTensorPtr> &weights) {
  GE_CHK_BOOL_EXEC(node.GetOpDesc() != nullptr, return GRAPH_PARAM_INVALID, "node.GetOpDesc is nullptr!");
@@ -561,6 +559,53 @@ OpDescUtils::SetWeights(ge::Node &node, const vector<ge::GeTensorPtr> &weights)
  return GRAPH_SUCCESS;
 }
 GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY graphStatus
 OpDescUtils::SetWeights(ge::Node &node, const map<int, ge::GeTensorPtr> &weights_map) {
  GE_CHECK_NOTNULL(node.GetOpDesc());
  // 1. node is const
  if (node.GetOpDesc()->GetType() == CONSTANT) {
    if (weights_map.size() == CONST_OP_NORMAL_WEIGHT_SIZE) {
      return SetWeights(node.GetOpDesc(), weights_map.begin()->second);
    }
    GELOGE(GRAPH_PARAM_INVALID, "const op %s weight size %zu should be 1", node.GetName().c_str(), weights_map.size());
    return GRAPH_PARAM_INVALID;
  }
  // 2. node is not const
  for (const auto &pair : weights_map) {
    auto in_data_anchor = node.GetInDataAnchor(pair.first);
    if (in_data_anchor != nullptr && in_data_anchor->GetPeerOutAnchor() != nullptr) {
      // a. update const input node
      auto out_anchor = in_data_anchor->GetPeerOutAnchor();
      auto peer_node = out_anchor->GetOwnerNode();
      if (peer_node == nullptr) {
        GELOGE(GRAPH_PARAM_INVALID, "op %s [%d]'s input node is null", node.GetName().c_str(), pair.first);
        return GRAPH_PARAM_INVALID;
      }
      if (peer_node->GetType() != CONSTANT) {
        GELOGE(GRAPH_PARAM_INVALID, " op %s [%d]'s input node should be const, but is %s type:%s ",
               node.GetName().c_str(), pair.first, peer_node->GetName().c_str(), peer_node->GetType().c_str());
      }
      SetWeights(peer_node->GetOpDesc(), pair.second);
    } else {
      // b. create new const input node
      auto const_opdesc = CreateConstOp(pair.second);
      GE_CHECK_NOTNULL(const_opdesc);
      auto owner_graph = node.GetOwnerComputeGraph();
      if (owner_graph == nullptr) {
        GELOGE(GRAPH_PARAM_INVALID, "node's graph is empty, name: %s", node.GetName().c_str());
        return GRAPH_PARAM_INVALID;
      }
      auto const_node = owner_graph->AddNodeFront(const_opdesc);
      if (node.AddLinkFrom(static_cast<uint32_t>(pair.first), const_node) != GRAPH_SUCCESS) {
        GELOGE(GRAPH_FAILED, "op %s add const to input index[%d] failed", node.GetName().c_str(), pair.first);
        return GRAPH_FAILED;
      }
    }
  }
  NodeUtils::UpdateIsInputConst(node);
  return GRAPH_SUCCESS;
 }
 OpDescPtr OpDescUtils::CreateConstOp(const GeTensorPtr &tensor_ptr) {
  GE_CHK_BOOL_EXEC(tensor_ptr != nullptr, return nullptr, "tensor_ptr is nullptr!");
  shared_ptr<OpDesc> const_opdesc = ComGraphMakeShared<OpDesc>();
@@ -776,4 +821,3 @@ GE_FUNC_DEV_VISIBILITY GE_FUNC_HOST_VISIBILITY graphStatus OpDescUtils::SetSubgr
  return op_desc->SetSubgraphInstanceName(iter->second, subgraph_instance_name);
 }
 }  // namespace ge
 /*lint +e512 +e737 +e752*/
--- a/src/ge/CMakeLists.txt
+++ b/src/ge/CMakeLists.txt
@@ -51,6 +51,7 @@ include_directories(${GE_SOURCE_DIR}/inc/graph)
 include_directories(${GE_SOURCE_DIR}/third_party/fwkacllib)
 include_directories(${GE_SOURCE_DIR}/third_party/fwkacllib/inc)
 include_directories(${GE_SOURCE_DIR}/third_party/fwkacllib/inc/cce)
 include_directories(${GE_SOURCE_DIR}/third_party/fwkacllib/inc/toolchain)
 include_directories(${CMAKE_BINARY_DIR})
 include_directories(${CMAKE_BINARY_DIR}/proto/ge)
@@ -58,6 +59,7 @@ include_directories(${CMAKE_BINARY_DIR}/proto/ge)
 # need to remove dependencies on pb files later
 file(GLOB TRAIN_SRC_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
        "analyzer/analyzer.cc"
        "client/ge_prof.cc"
        "client/ge_api.cc"
        "common/dump/dump_manager.cc"
        "common/dump/dump_properties.cc"
@@ -206,13 +208,14 @@ file(GLOB TRAIN_SRC_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
 ######### libge_runner.so #############
 add_library(ge_runner SHARED ${TRAIN_SRC_LIST} ${PROTO_SRCS} ${PROTO_CLIENT_SRCS} ${PROTO_HEADER_HDRS})
 target_compile_definitions(ge_runner PRIVATE
 if (NOT ENABLE_ACL)
    add_library(ge_runner SHARED ${TRAIN_SRC_LIST} ${PROTO_SRCS} ${PROTO_CLIENT_SRCS} ${PROTO_HEADER_HDRS})
    target_compile_definitions(ge_runner PRIVATE
        PROTOBUF_INLINE_NOT_IN_HEADERS=0
        DAVINCI_SUPPORT_PROFILING
        REUSE_MEMORY=1
        DAVINCI_CLOUD)
 target_link_libraries(ge_runner
    target_link_libraries(ge_runner
        graph
        ge_common
        ge_memory
@@ -225,8 +228,12 @@ target_link_libraries(ge_runner
        ${msprof}
        ${runtime}
        ${resouce}
        ${ascend_hal}
        ${adump_server}
        ${msprofiler}
        rt
        dl)
 endif ()
 ######### libge_compiler.so #############
 # need to remove dependencies on pb files later
@@ -235,6 +242,7 @@ file(GLOB INFER_SRC_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
        "common/dump/dump_properties.cc"
        "common/dump/dump_manager.cc"
        "common/dump/dump_op.cc"
        "common/dump/dump_server.cc"
        "common/formats/format_transfers/*.cc"
        "common/formats/formats.cc"
        "common/formats/utils/formats_trans_utils.cc"
@@ -335,6 +343,7 @@ file(GLOB INFER_SRC_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
        "host_kernels/unpack_kernel.cc"
        "host_kernels/unsqueeze_kernel.cc"
        "hybrid/hybrid_davinci_model_stub.cc"
        "hybrid/node_executor/aicpu/aicpu_ext_info.cc"
        "init/gelib.cc"
        "ir_build/atc_ir_common.cc"
        "ir_build/ge_ir_build.cc"
@@ -352,7 +361,10 @@ add_library(ge_compiler SHARED ${INFER_SRC_LIST} ${PROTO_SRCS} ${PROTO_HEADER_HD
 target_compile_definitions(ge_compiler PRIVATE
        PROTOBUF_INLINE_NOT_IN_HEADERS=0
        REUSE_MEMORY=1
        FMK_HOST_INFER)
        FMK_HOST_INFER
        FMK_SUPPORT_DUMP
        COMPILE_OMG_PACKAGE
        REUSE_MEMORY=1)
 target_link_libraries(ge_compiler
        graph
        ge_common
--- a/src/ge/analyzer/analyzer.cc
+++ b/src/ge/analyzer/analyzer.cc
@@ -101,7 +101,7 @@ Status Analyzer::BuildJsonObject(uint64_t session_id, uint64_t graph_id) {
 ge::Status Analyzer::Initialize() {
  ClearHistoryFile();
  return CreateAnalyzerFile();
  return SUCCESS;
 }
 void Analyzer::Finalize() {
@@ -136,7 +136,7 @@ void Analyzer::DestroyGraphJsonObject(uint64_t session_id, uint64_t graph_id) {
  } else {
    auto iter1 = (iter->second).find(graph_id);
    if (iter1 == (iter->second).end()) {
      GELOGW("can not find the graph json object by session_id[%lu] and graph_id[%lu].Do nothing", session_id,
      GELOGW("Can not find the graph json object by session_id[%lu] and graph_id[%lu]. Do nothing.", session_id,
             graph_id);
    }
    (iter->second).erase(iter1);
@@ -169,6 +169,10 @@ void Analyzer::ClearHistoryFile() {
 }
 ge::Status Analyzer::CreateAnalyzerFile() {
  if (is_json_file_create_) {
    GELOGD("analyzer file has been created!No necessary to create again!");
    return SUCCESS;
  }
  GELOGD("start to create analyzer file!");
  // Check whether the manifest exists, if not, create it.
  string real_path = RealPath(kFilePath.c_str());
@@ -176,18 +180,19 @@ ge::Status Analyzer::CreateAnalyzerFile() {
    GELOGE(FAILED, "File path is invalid.");
    return FAILED;
  }
  string file = real_path + "/" + kAnalyzeFile;
  GELOGD("Created analyzer file:[%s]", file.c_str());
  int fd = open(file.c_str(), O_WRONLY | O_CREAT | O_TRUNC, kFileAuthority);
  std::lock_guard<std::mutex> lg(file_mutex_);
  json_file_name_ = real_path + "/" + kAnalyzeFile;
  GELOGD("Created analyzer file:[%s]", json_file_name_.c_str());
  int fd = open(json_file_name_.c_str(), O_WRONLY | O_CREAT | O_TRUNC, kFileAuthority);
  if (fd < 0) {
    GELOGE(INTERNAL_ERROR, "Fail to open the file: %s.", file.c_str());
    GELOGE(INTERNAL_ERROR, "Fail to open the file: %s.", json_file_name_.c_str());
    return INTERNAL_ERROR;
  }
  if (close(fd) != 0) {
    GELOGE(INTERNAL_ERROR, "Fail to close the file: %s.", file.c_str());
    GELOGE(INTERNAL_ERROR, "Fail to close the file: %s.", json_file_name_.c_str());
    return INTERNAL_ERROR;
  }
  json_file_name_ = file;
  is_json_file_create_ = true;
  GELOGD("success to create analyzer file[%s]!", json_file_name_.c_str());
  return SUCCESS;
@@ -231,6 +236,12 @@ ge::Status Analyzer::DoAnalyze(DataInfo &data_info) {
    GELOGE(status, "save op info failed!");
    return FAILED;
  }
  // create json file
  status = CreateAnalyzerFile();
  if (status != SUCCESS) {
    GELOGE(status, "create analyzer file failed!");
    return status;
  }
  // save data to file
  return SaveAnalyzerDataToFile();
 }
--- a/src/ge/analyzer/analyzer.h
+++ b/src/ge/analyzer/analyzer.h
@@ -24,6 +24,7 @@
 #include <mutex>
 #include <memory>
 #include <fstream>
 #include <atomic>
 #include "external/ge/ge_api_types.h"
 #include "graph/compute_graph.h"
@@ -181,6 +182,7 @@ class Analyzer {
  std::mutex file_mutex_;       // protect json_file_
  std::ofstream json_file_;
  std::string json_file_name_;
  std::atomic_bool is_json_file_create_{false};
 };
 }  // namespace ge
 #endif  // DOMI_ANALYZER_ANANLYZER_H_
--- a/src/ge/client/CMakeLists.txt
+++ b/src/ge/client/CMakeLists.txt
@@ -29,6 +29,7 @@ file(GLOB PROTO_HEADER_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
 file(GLOB SRC_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
        "ge_api.cc"
        "ge_prof.cc"
        )
 ge_protobuf_generate(ge PROTO_SRCS PROTO_HDRS ${PROTO_LIST})
@@ -66,5 +67,8 @@ target_link_libraries(ge_client
        ${slog}
        ${mmpa}
        ${runtime}
        ${msprof}
        ${msprofiler}
        ${ascend_hal}
        rt
        dl)
--- a/src/ge/client/ge_api.cc
+++ b/src/ge/client/ge_api.cc
@@ -16,6 +16,7 @@
 #include "ge/ge_api.h"
 #include <iostream>
 #include <malloc.h>
 #include "common/debug/log.h"
 #include "framework/common/debug/ge_log.h"
 #include "common/ge/datatype_util.h"
@@ -39,7 +40,7 @@ using std::vector;
 namespace {
 const int32_t kMaxStrLen = 128;
 }
 }  // namespace
 static bool g_ge_initialized = false;
 static std::mutex g_ge_release_mutex;  // GEFinalize and ~Session use
@@ -163,6 +164,9 @@ Status GEFinalize() {
    g_ge_initialized = false;
  }
  // to avoid memory fragment, use malloc_trim to back free stack to system
  malloc_trim(0);
  GELOGT(TRACE_STOP, "GEFinalize finished");
  return ret;
 }
--- a/src/ge/client/ge_prof.cc
+++ b/src/ge/client/ge_prof.cc
@@ -0,0 +1,369 @@
 /**
 * Copyright 2019-2020 Huawei Technologies Co., Ltd
 *
 * 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 "ge/ge_prof.h"
 #include "common/debug/log.h"
 #include "common/profiling/profiling_manager.h"
 #include "framework/common/debug/ge_log.h"
 #include "ge/ge_api.h"
 #include "graph/load/graph_loader.h"
 #include "init/gelib.h"
 #include "toolchain/prof_acl_api.h"
 using std::map;
 using std::string;
 using std::vector;
 namespace {
 const uint32_t kMaxDeviceNum = 64;
 const uint32_t kDeviceListIndex = 3;
 const std::string kProfilingInit = "prof_init";
 const std::string kProfilingFinalize = "prof_finalize";
 const std::string kProfilingStart = "prof_start";
 const std::string kProfilingStop = "prof_stop";
 const std::string kDeviceNums = "devNums";
 const std::string kDeviceIdList = "devIdList";
 const std::string kAicoreMetrics = "aicoreMetrics";
 const std::map<ge::ProfilingAicoreMetrics, std::string> kProfAicoreMetricsToString = {
  {ge::kAicoreArithmaticThroughput, "AICORE_ARITHMATIC_THROUGHPUT"},
  {ge::kAicorePipeline, "AICORE_PIPELINE"},
  {ge::kAicoreSynchronization, "AICORE_SYNCHRONIZATION"},
  {ge::kAicoreMemory, "AICORE_MEMORY"},
  {ge::kAicoreInternalMemory, "AICORE_INTERNAL_MEMORY"},
  {ge::kAicoreStall, "AICORE_STALL"}};
 }  // namespace
 static bool g_graph_prof_init_ = false;
 static std::mutex g_prof_mutex_;
 namespace ge {
 struct aclgrphProfConfig {
  ProfConfig config;
 };
 Status aclgrphProfInit(const char *profiler_path, uint32_t length) {
  GELOGT(TRACE_INIT, "Graph prof init start");
  std::shared_ptr<GELib> instance_ptr = ge::GELib::GetInstance();
  if (instance_ptr == nullptr || !instance_ptr->InitFlag()) {
    GELOGE(GE_CLI_GE_NOT_INITIALIZED, "Ge client is not initialized.");
    return FAILED;
  }
  std::lock_guard<std::mutex> lock(g_prof_mutex_);
  if (g_graph_prof_init_) {
    GELOGW("Multi graph profiling initializations.");
    return GE_PROF_MULTI_INIT;
  }
  Status ret = CheckPath(profiler_path, length);
  if (ret != SUCCESS) {
    GELOGE(ret, "Profiling config path is invalid.");
    return ret;
  }
  // if command mode is set, just return
  if (ProfilingManager::Instance().ProfilingOn()) {
    GELOGW("Graph prof init failed, cause profiling command pattern is running.");
    return GE_PROF_MODE_CONFLICT;
  }
  ret = ProfInit(profiler_path);
  if (ret != SUCCESS) {
    GELOGE(ret, "ProfInit init fail");
    return ret;
  }
  GraphLoader graph_loader;
  Command command;
  command.cmd_params.clear();
  command.cmd_type = kProfilingInit;
  command.module_index = PROF_MODEL_LOAD;
  ret = graph_loader.CommandHandle(command);
  if (ret != SUCCESS) {
    GELOGE(ret, "Handle profiling command %s failed, config = %s", kProfilingInit.c_str(), profiler_path);
    return ret;
  }
  if (!g_graph_prof_init_) {
    g_graph_prof_init_ = true;
    GELOGI("Profiling init successfully.");
  }
  GELOGI("Successfully execute GraphProfInit.");
  return SUCCESS;
 }
 Status aclgrphProfFinalize() {
  std::shared_ptr<GELib> instance_ptr = ge::GELib::GetInstance();
  if (instance_ptr == nullptr || !instance_ptr->InitFlag()) {
    GELOGE(GE_CLI_GE_NOT_INITIALIZED, "Ge client is not initialized.");
    return FAILED;
  }
  std::lock_guard<std::mutex> lock(g_prof_mutex_);
  // if command mode is set, just return
  if (ProfilingManager::Instance().ProfilingOn()) {
    GELOGW("Graph prof finalize failed, cause profiling command pattern is running.");
    return GE_PROF_MODE_CONFLICT;
  }
  if (!g_graph_prof_init_) {
    GELOGE(GE_PROF_NOT_INIT, "Graph not profiling initialize.");
    return GE_PROF_NOT_INIT;
  }
  GraphLoader graph_loader;
  Command command;
  command.cmd_params.clear();
  command.cmd_type = kProfilingFinalize;
  Status ret = graph_loader.CommandHandle(command);
  if (ret != SUCCESS) {
    GELOGE(ret, "Handle profiling command %s failed.", kProfilingFinalize.c_str());
    return ret;
  }
  ret = ProfFinalize();
  if (ret != SUCCESS) {
    GELOGE(ret, "Finalize profiling failed, result = %d", ret);
  }
  if (ret == SUCCESS) {
    g_graph_prof_init_ = false;
    GELOGI("Successfully execute GraphProfFinalize.");
  }
  return ret;
 }
 bool TransProfConfigToParam(const aclgrphProfConfig *profiler_config, vector<string> &prof_config_params) {
  prof_config_params.clear();
  prof_config_params.emplace_back(kDeviceNums);
  prof_config_params.emplace_back(std::to_string(profiler_config->config.devNums));
  prof_config_params.emplace_back(kDeviceIdList);
  std::string devID = "";
  if (profiler_config->config.devNums == 0) {
    GELOGW("The device num is invalid.");
    return false;
  }
  for (uint32_t i = 0; i < profiler_config->config.devNums; i++) {
    devID.append(std::to_string(profiler_config->config.devIdList[i]));
    if (i != profiler_config->config.devNums - 1) {
      devID.append(",");
    }
  }
  prof_config_params.push_back(devID);
  prof_config_params.push_back(kAicoreMetrics);
  auto iter =
    kProfAicoreMetricsToString.find(static_cast<ProfilingAicoreMetrics>(profiler_config->config.aicoreMetrics));
  if (iter == kProfAicoreMetricsToString.end()) {
    GELOGW("The prof aicore metrics is invalid.");
    return false;
  }
  prof_config_params.push_back(iter->second);
  return true;
 }
 bool isProfConfigValid(const uint32_t *deviceid_list, uint32_t device_nums) {
  if (deviceid_list == nullptr) {
    GELOGE(PARAM_INVALID, "deviceIdList is nullptr");
    return false;
  }
  if (device_nums == 0 || device_nums > kMaxDeviceNum) {
    GELOGE(PARAM_INVALID, "The device nums is invalid.");
    return false;
  }
  // real device num
  int32_t dev_count = 0;
  rtError_t rt_err = rtGetDeviceCount(&dev_count);
  if (rt_err != RT_ERROR_NONE) {
    GELOGE(INTERNAL_ERROR, "Get the Device count fail.");
    return false;
  }
  if (device_nums > static_cast<uint32_t>(dev_count)) {
    GELOGE(PARAM_INVALID, "Device num(%u) is not in range 1 ~ %d.", device_nums, dev_count);
    return false;
  }
  std::unordered_set<uint32_t> record;
  for (size_t i = 0; i < device_nums; ++i) {
    uint32_t dev_id = deviceid_list[i];
    if (dev_id >= static_cast<uint32_t>(dev_count)) {
      GELOGE(PARAM_INVALID, "Device id %u is not in range 0 ~ %d(exclude %d)", dev_id, dev_count, dev_count);
      return false;
    }
    if (record.count(dev_id) > 0) {
      GELOGE(PARAM_INVALID, "Device id %u is duplicatedly set", dev_id);
      return false;
    }
    record.insert(dev_id);
  }
  return true;
 }
 aclgrphProfConfig *aclgrphProfCreateConfig(uint32_t *deviceid_list, uint32_t device_nums,
                                           ProfilingAicoreMetrics aicore_metrics, ProfAicoreEvents *aicore_events,
                                           uint64_t data_type_config) {
  if (!isProfConfigValid(deviceid_list, device_nums)) {
    return nullptr;
  }
  aclgrphProfConfig *config = new (std::nothrow) aclgrphProfConfig();
  if (config == nullptr) {
    GELOGE(INTERNAL_ERROR, "new aclgrphProfConfig fail");
    return nullptr;
  }
  config->config.devNums = device_nums;
  if (memcpy_s(config->config.devIdList, sizeof(config->config.devIdList), deviceid_list,
               device_nums * sizeof(uint32_t)) != EOK) {
    GELOGE(INTERNAL_ERROR, "copy devID failed. size = %u", device_nums);
    delete config;
    return nullptr;
  }
  config->config.aicoreMetrics = static_cast<ProfAicoreMetrics>(aicore_metrics);
  config->config.dataTypeConfig = data_type_config;
  GELOGI("Successfully create prof config.");
  return config;
 }
 Status aclgrphProfDestroyConfig(aclgrphProfConfig *profiler_config) {
  if (profiler_config == nullptr) {
    GELOGE(PARAM_INVALID, "destroy profilerConfig failed, profilerConfig must not be nullptr");
    return PARAM_INVALID;
  }
  delete profiler_config;
  GELOGI("Successfully destroy prof config.");
  return SUCCESS;
 }
 Status aclgrphProfStart(aclgrphProfConfig *profiler_config) {
  if (profiler_config == nullptr) {
    GELOGE(PARAM_INVALID, "aclgrphProfConfig is invalid.");
    return FAILED;
  }
  std::shared_ptr<GELib> instance_ptr = ge::GELib::GetInstance();
  if (instance_ptr == nullptr || !instance_ptr->InitFlag()) {
    GELOGE(GE_CLI_GE_NOT_INITIALIZED, "Ge client is not initialized.");
    return FAILED;
  }
  std::lock_guard<std::mutex> lock(g_prof_mutex_);
  // if command mode is set, just return
  if (ProfilingManager::Instance().ProfilingOn()) {
    GELOGW("Graph prof finalize failed, cause profiling command pattern is running.");
    return GE_PROF_MODE_CONFLICT;
  }
  if (!g_graph_prof_init_) {
    GELOGE(GE_PROF_NOT_INIT, "Graph not profiling initialize.");
    return GE_PROF_NOT_INIT;
  }
  Status ret = ProfStartProfiling(&profiler_config->config);
  if (ret != SUCCESS) {
    GELOGE(ret, "Start profiling failed, prof result = %d", ret);
    return FAILED;
  }
  std::vector<string> prof_params;
  if (!TransProfConfigToParam(profiler_config, prof_params)) {
    GELOGE(PARAM_INVALID, "Transfer profilerConfig to string vector failed");
    return PARAM_INVALID;
  }
  GraphLoader graph_loader;
  Command command;
  command.cmd_params.clear();
  command.cmd_type = kProfilingStart;
  command.cmd_params = prof_params;
  command.module_index = profiler_config->config.dataTypeConfig;
  GELOGI("Profiling will start, device nums:%s , deviceID:[%s], data type config: 0x%llx", prof_params[0].c_str(),
         prof_params[kDeviceListIndex].c_str(), command.module_index);
  ret = graph_loader.CommandHandle(command);
  if (ret != SUCCESS) {
    GELOGE(ret, "Handle profiling command failed");
    return FAILED;
  }
  GELOGI("Successfully execute GraphProfStartProfiling.");
  return SUCCESS;
 }
 Status aclgrphProfStop(aclgrphProfConfig *profiler_config) {
  if (profiler_config == nullptr) {
    GELOGE(PARAM_INVALID, "aclgrphProfConfig is invalid.");
    return FAILED;
  }
  std::shared_ptr<GELib> instance_ptr = ge::GELib::GetInstance();
  if (instance_ptr == nullptr || !instance_ptr->InitFlag()) {
    GELOGE(GE_CLI_GE_NOT_INITIALIZED, "Ge client is not initialized.");
    return FAILED;
  }
  std::lock_guard<std::mutex> lock(g_prof_mutex_);
  // if command mode is set, just return
  if (ProfilingManager::Instance().ProfilingOn()) {
    GELOGW("Graph prof finalize failed, cause profiling command pattern is running.");
    return GE_PROF_MODE_CONFLICT;
  }
  if (!g_graph_prof_init_) {
    GELOGE(GE_PROF_NOT_INIT, "Graph not profiling initialize.");
    return GE_PROF_NOT_INIT;
  }
  for (uint32_t i = 0; i < profiler_config->config.devNums; i++) {
    uint64_t data_type_config;
    Status status = ProfGetDataTypeConfig(profiler_config->config.devIdList[i], data_type_config);
    if (status != SUCCESS) {
      GELOGE(status, "Prof get data type config failed, prof result = %d", status);
      return status;
    }
    if (data_type_config != profiler_config->config.dataTypeConfig) {
      GELOGE(FAILED, "data type config verify failed");
      return FAILED;
    }
  }
  std::vector<string> prof_params;
  if (!TransProfConfigToParam(profiler_config, prof_params)) {
    GELOGE(PARAM_INVALID, "Transfer profilerConfig to string vector failed");
    return PARAM_INVALID;
  }
  GraphLoader graph_loader;
  Command command;
  command.cmd_params.clear();
  command.cmd_type = kProfilingStop;
  command.cmd_params = prof_params;
  command.module_index = profiler_config->config.dataTypeConfig;
  GELOGI("Profiling will stop, device nums:%s , deviceID:[%s], data type config: 0x%llx", prof_params[0].c_str(),
         prof_params[kDeviceListIndex].c_str(), command.module_index);
  Status ret = graph_loader.CommandHandle(command);
  if (ret != SUCCESS) {
    GELOGE(ret, "Handle profiling command failed");
    return FAILED;
  }
  ret = ProfStopProfiling(&profiler_config->config);
  if (ret != SUCCESS) {
    GELOGE(ret, "Stop profiling failed, prof result = %d", ret);
    return ret;
  }
  GELOGI("Successfully execute GraphProfStopProfiling.");
  return SUCCESS;
 }
 }  // namespace ge
--- a/src/ge/client/module.mk
+++ b/src/ge/client/module.mk
@@ -4,6 +4,7 @@ LOCAL_PATH := $(call my-dir)
 COMMON_LOCAL_SRC_FILES := \
    proto/ge_api.proto \
    ge_api.cc \
    ge_prof.cc \
 COMMON_LOCAL_C_INCLUDES := \
@@ -69,7 +70,10 @@ LOCAL_SHARED_LIBRARIES := \
    libregister \
    libge_compiler \
    libge_common \
    libmsprof \
    stub/libascend_hal
 LOCAL_STATIC_LIBRARIES := libmsprofiler
 LOCAL_LDFLAGS := -lrt -ldl
@@ -102,7 +106,9 @@ LOCAL_SHARED_LIBRARIES := \
    libruntime \
    libge_compiler \
    libge_common \
    libmsprof
 LOCAL_STATIC_LIBRARIES := libmsprofiler
 LOCAL_LDFLAGS := -lrt -ldl
 LOCAL_CFLAGS += \
--- a/src/ge/common/CMakeLists.txt
+++ b/src/ge/common/CMakeLists.txt
@@ -27,6 +27,7 @@ file(GLOB SRC_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
        "context/ctx.cc"
        "cust_aicpu_kernel_store.cc"
        "debug/memory_dumper.cc"
        "dump/dump_properties.cc"
        "fmk_error_codes.cc"
        "formats/format_transfers/datatype_transfer.cc"
        "formats/format_transfers/format_transfer_c1hwncoc0_hwcn.cc"
--- a/src/ge/common/dump/dump_manager.cc
+++ b/src/ge/common/dump/dump_manager.cc
@@ -49,7 +49,10 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY Status DumpManager::SetDumpConf
    dump_properties_.ClearDumpPropertyValue();
    return SUCCESS;
  }
  dump_properties_.SetDumpStatus(dump_status);
  dump_op_switch = dump_config.dump_op_switch;
  dump_properties_.SetDumpOpSwitch(dump_op_switch);
  if (dump_op_switch == kDumpoff && dump_config.dump_list.empty()) {
    GELOGE(PARAM_INVALID, "Dump list is invalid,dump_op_switch is %s", dump_op_switch.c_str());
    return PARAM_INVALID;
@@ -95,14 +98,6 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY Status DumpManager::SetDumpConf
  return SUCCESS;
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY bool DumpManager::IsDumpOpen() {
  std::lock_guard<std::mutex> lock(mutex_);
  if (!dump_properties_.GetDumpPath().empty()) {
    return true;
  }
  return false;
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY const DumpProperties &DumpManager::GetDumpProperties() {
  std::lock_guard<std::mutex> lock(mutex_);
  return dump_properties_;
--- a/src/ge/common/dump/dump_manager.h
+++ b/src/ge/common/dump/dump_manager.h
@@ -28,7 +28,6 @@ class DumpManager {
  static DumpManager &GetInstance();
  Status SetDumpConf(const DumpConfig &dump_config);
  bool IsDumpOpen();
  const DumpProperties &GetDumpProperties();
  void SetModelName(const std::string &model_name);
  const std::string &GetModelName();
--- a/src/ge/common/dump/dump_op.cc
+++ b/src/ge/common/dump/dump_op.cc
@@ -16,7 +16,6 @@
 #include "common/dump/dump_op.h"
 #include "aicpu/common/aicpu_task_struct.h"
 #include "common/dump/dump_manager.h"
 #include "common/ge/datatype_util.h"
 #include "framework/common/debug/ge_log.h"
@@ -28,6 +27,7 @@
 #include "proto/ge_ir.pb.h"
 #include "proto/op_mapping_info.pb.h"
 #include "runtime/mem.h"
 #include "aicpu/common/aicpu_task_struct.h"
 namespace {
 const uint32_t kAicpuLoadFlag = 1;
@@ -172,18 +172,18 @@ Status DumpOp::ExecutorDumpOp(aicpu::dump::OpMappingInfo &op_mapping_info) {
    return RT_FAILED;
  }
  constexpr int32_t ioAddrNum = 2;
  constexpr uint32_t argsSize = sizeof(aicpu::AicpuParamHead) + ioAddrNum * sizeof(uint64_t);
  char args[argsSize] = {0};
  auto paramHead = reinterpret_cast<aicpu::AicpuParamHead *>(args);
  paramHead->length = argsSize;
  paramHead->ioAddrNum = ioAddrNum;
  auto ioAddr = reinterpret_cast<uint64_t *>(args + sizeof(aicpu::AicpuParamHead));
  ioAddr[0] = reinterpret_cast<uintptr_t>(proto_dev_mem_);
  ioAddr[1] = reinterpret_cast<uintptr_t>(proto_size_dev_mem_);
  constexpr int32_t io_addr_num = 2;
  constexpr uint32_t args_size = sizeof(aicpu::AicpuParamHead) + io_addr_num * sizeof(uint64_t);
  char args[args_size] = {0};
  auto param_head = reinterpret_cast<aicpu::AicpuParamHead *>(args);
  param_head->length = args_size;
  param_head->ioAddrNum = io_addr_num;
  auto io_addr = reinterpret_cast<uint64_t *>(args + sizeof(aicpu::AicpuParamHead));
  io_addr[0] = reinterpret_cast<uintptr_t>(proto_dev_mem_);
  io_addr[1] = reinterpret_cast<uintptr_t>(proto_size_dev_mem_);
  rt_ret = rtCpuKernelLaunch(nullptr, kDumpKernelsDumpOp,
                             1,  // blockDim default 1
                             args, argsSize,
                             args, args_size,
                             nullptr,  // no need smDesc
                             stream_);
  if (rt_ret != RT_ERROR_NONE) {
--- a/src/ge/common/dump/dump_properties.cc
+++ b/src/ge/common/dump/dump_properties.cc
@@ -31,7 +31,7 @@
 namespace {
 const std::string kEnableFlag = "1";
 const std::string kDumpStatusOpen = "on";
 const uint32_t kAicoreOverflow = (0x1 << 0);
 const uint32_t kAtomicOverflow = (0x1 << 1);
 const uint32_t kAllOverflow = (kAicoreOverflow | kAtomicOverflow);
@@ -81,12 +81,12 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY void DumpProperties::InitByOpti
  if (enable_dump_ == kEnableFlag) {
    std::string dump_step;
    if (GetContext().GetOption(OPTION_EXEC_DUMP_STEP, dump_step) == GRAPH_SUCCESS) {
      GELOGD("Get dump step %s successfully", dump_step.c_str());
      GELOGI("Get dump step %s successfully", dump_step.c_str());
      SetDumpStep(dump_step);
    }
    string dump_mode;
    if (GetContext().GetOption(OPTION_EXEC_DUMP_MODE, dump_mode) == GRAPH_SUCCESS) {
      GELOGD("Get dump mode %s successfully", dump_mode.c_str());
      GELOGI("Get dump mode %s successfully", dump_mode.c_str());
      SetDumpMode(dump_mode);
    }
    AddPropertyValue(DUMP_ALL_MODEL, {});
@@ -192,6 +192,37 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY const std::string &DumpProperti
  return dump_mode_;
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY void DumpProperties::SetDumpStatus(const std::string &status) {
  dump_status_ = status;
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY const std::string &DumpProperties::GetDumpStatus() const {
  return dump_status_;
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY void DumpProperties::SetDumpOpSwitch(
  const std::string &dump_op_switch) {
  dump_op_switch_ = dump_op_switch;
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY const std::string &DumpProperties::GetDumpOpSwitch() const {
  return dump_op_switch_;
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY bool DumpProperties::IsSingleOpNeedDump() const {
  if (dump_op_switch_ == kDumpStatusOpen) {
    return true;
  }
  return false;
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY bool DumpProperties::IsDumpOpen() const {
  if (enable_dump_ == kEnableFlag || dump_status_ == kDumpStatusOpen) {
    return true;
  }
  return false;
 }
 void DumpProperties::CopyFrom(const DumpProperties &other) {
  if (&other != this) {
    enable_dump_ = other.enable_dump_;
--- a/src/ge/common/dump/dump_properties.h
+++ b/src/ge/common/dump/dump_properties.h
@@ -61,10 +61,26 @@ class DumpProperties {
  const std::string &GetDumpMode() const;
  void SetDumpStatus(const std::string &status);
  const std::string &GetDumpStatus() const;
  void SetDumpOpSwitch(const std::string &dump_op_switch);
  const std::string &GetDumpOpSwitch() const;
  bool IsOpDebugOpen() const { return is_op_debug_; }
  bool IsDumpOpen() const;
  bool IsSingleOpNeedDump() const;
  uint32_t GetOpDebugMode() const { return op_debug_mode_; }
  const std::string &GetEnableDump() const { return enable_dump_; }
  const std::string &GetEnableDumpDebug() const { return enable_dump_debug_; }
 private:
  void CopyFrom(const DumpProperties &other);
@@ -76,6 +92,8 @@ class DumpProperties {
  std::string dump_path_;
  std::string dump_step_;
  std::string dump_mode_;
  std::string dump_status_;
  std::string dump_op_switch_;
  std::map<std::string, std::set<std::string>> model_dump_properties_map_;
  bool is_op_debug_ = false;
--- a/src/ge/common/dump/dump_server.cc
+++ b/src/ge/common/dump/dump_server.cc
@@ -0,0 +1,21 @@
 /**
 * Copyright 2019-2020 Huawei Technologies Co., Ltd
 *
 * 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 "adx_datadump_server.h"
 int AdxDataDumpServerUnInit() { return 0; }
 int AdxDataDumpServerInit() { return 0; }
--- a/src/ge/common/ge/datatype_util.cc
+++ b/src/ge/common/ge/datatype_util.cc
@@ -34,7 +34,7 @@ std::map<ge::DataType, std::vector<ge::DataType>> g_reverse_translatable_data_ty
  {ge::DT_INT32, {ge::DT_BOOL, ge::DT_INT64}},
  {ge::DT_FLOAT, {ge::DT_FLOAT16, ge::DT_FLOAT}}};
 static const std::map<ge::DataType, ge::proto::DataType> g_dump_data_type_map = {
 std::map<ge::DataType, ge::proto::DataType> g_dump_data_type_map = {
  // key:ge datatype,value:proto datatype
  {ge::DT_UNDEFINED, ge::proto::DT_UNDEFINED},
  {ge::DT_FLOAT, ge::proto::DT_FLOAT},
--- a/src/ge/common/ge/op_tiling_manager.cc
+++ b/src/ge/common/ge/op_tiling_manager.cc
@@ -15,14 +15,15 @@
 */
 #include "common/ge/op_tiling_manager.h"
 #include "common/util/error_manager/error_manager.h"
 #include "framework/common/debug/log.h"
 #include <string>
 namespace {
 const char *const kEnvName = "ASCEND_OPP_PATH";
 const std::string kDefaultPath = "/usr/local/Ascend/opp";
 const std::string kDefaultBuiltInTilingPath = "/op_impl/built-in/liboptiling.so";
 const std::string kDefaultCustomTilingPath = "/op_impl/custom/liboptiling.so";
 const std::string kDefaultBuiltInTilingPath = "/op_impl/built-in/ai_core/tbe/op_tiling/liboptiling.so";
 const std::string kDefaultCustomTilingPath = "/op_impl/custom/ai_core/tbe/op_tiling/liboptiling.so";
 const uint8_t kPrefixIndex = 9;
 }  // namespace
@@ -44,7 +45,9 @@ std::string OpTilingManager::GetPath() {
  if (opp_path_env != nullptr) {
    char resolved_path[PATH_MAX];
    if (realpath(opp_path_env, resolved_path) == NULL) {
      GELOGE(PARAM_INVALID, "Failed load tiling lib as env 'ASCEND_OPP_PATH'(%s) is invalid path.", opp_path_env);
      ErrorManager::GetInstance().ATCReportErrMessage("E19024", {"env", "value", "situation"},
                                                      {"ASCEND_OPP_PATH", opp_path_env, "loading the tiling lib"});
      GELOGE(PARAM_INVALID, "Failed load tiling lib as env 'ASCEND_OPP_PATH'[%s] is invalid path.", opp_path_env);
      return std::string();
    }
    opp_path = resolved_path;
--- a/src/ge/common/ge_common.mk
+++ b/src/ge/common/ge_common.mk
@@ -12,6 +12,7 @@ GE_COMMON_LOCAL_SRC_FILES := \
    math/fp16_math.cc \
    debug/memory_dumper.cc \
    formats/utils/formats_trans_utils.cc \
    dump/dump_properties.cc \
    formats/format_transfers/datatype_transfer.cc \
    formats/format_transfers/format_transfer_transpose.cc \
    formats/format_transfers/format_transfer_nchw_nc1hwc0.cc \
--- a/src/ge/common/helper/model_cache_helper.cc
+++ b/src/ge/common/helper/model_cache_helper.cc
@@ -497,7 +497,25 @@ Status ModelCacheHelper::LoadJsonFromFile(const string &file_name, Json &json) c
    GELOGW("Fail to open the file: %s.", path.c_str());
    return INTERNAL_ERROR;
  }
  ifs >> json;
  try {
    ifs >> json;
  } catch (nlohmann::detail::parse_error e) {
    GELOGW("Fail to load json from file, json throw an error:%s.", e.what());
    return INTERNAL_ERROR;
  } catch (nlohmann::detail::invalid_iterator e) {
    GELOGW("Fail to load json from file, json throw an error:%s.", e.what());
    return INTERNAL_ERROR;
  } catch (nlohmann::detail::type_error e) {
    GELOGW("Fail to load json from file, json throw an error:%s.", e.what());
    return INTERNAL_ERROR;
  } catch (nlohmann::detail::out_of_range e) {
    GELOGW("Fail to load json from file, json throw an error:%s.", e.what());
    return INTERNAL_ERROR;
  } catch (nlohmann::detail::other_error e) {
    GELOGW("Fail to load json from file, json throw an error:%s.", e.what());
    return INTERNAL_ERROR;
  }
  if (!json.is_object()) {
    GELOGW("Fail to load the json file: %s.", path.c_str());
    return INTERNAL_ERROR;
--- a/src/ge/common/helper/model_helper.cc
+++ b/src/ge/common/helper/model_helper.cc
@@ -41,7 +41,22 @@ Status ModelHelper::SaveModelPartition(std::shared_ptr<OmFileSaveHelper> &om_fil
                                       const uint8_t *data, size_t size) {
  if (size < 1 || size > UINT32_MAX) {
    GELOGE(PARAM_INVALID, "Add model partition failed, partition size %zu invalid", size);
    ErrorManager::GetInstance().ATCReportErrMessage("E19022");
    if (size > UINT32_MAX) {
      string item = "item";
      if (type == MODEL_DEF) {
        item = "model info";
      } else if (type == WEIGHTS_DATA) {
        item = "weight data";
      } else if (type == TASK_INFO) {
        item = "task info";
      } else if (type == TBE_KERNELS) {
        item = "tbe kernels";
      } else if (type == CUST_AICPU_KERNELS) {
        item = "aicpu kernels";
      }
      ErrorManager::GetInstance().ATCReportErrMessage("E19023", {"size", "item", "maxsize"},
                                                      {std::to_string(size), item, std::to_string(UINT32_MAX)});
    }
    return PARAM_INVALID;
  }
  if (data == nullptr) {
@@ -263,7 +278,7 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY Status ModelHelper::LoadModel(c
  }
  Status status = ge::DavinciModelParser::ParseModelContent(model_data, model_addr_tmp_, model_len_tmp_);
  if (ge::DavinciModelParser::ParseModelContent(model_data, model_addr_tmp_, model_len_tmp_) != SUCCESS) {
  if (status != SUCCESS) {
    GELOGE(status, "Parse model content failed!");
    return status;
  }
--- a/src/ge/common/profiling/profiling_manager.cc
+++ b/src/ge/common/profiling/profiling_manager.cc
@@ -54,15 +54,19 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY ProfilingManager &ProfilingMana
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY ge::Status ProfilingManager::Init(const Options &options) {
 #ifdef DAVINCI_SUPPORT_PROFILING
  vector<int32_t>().swap(device_id_);
  device_id_.push_back(options.device_id);
  job_id_ = options.job_id;
  GELOGI("ProfilingManager::Init  job_id:%s", job_id_.c_str());
  Status ret;
  if (!recv_profiling_config_.empty()) {
    GELOGI("Profiling json config from acl:%s", recv_profiling_config_.c_str());
    ret = InitFromAclCfg(recv_profiling_config_);
  } else {
    ret = InitFromOptions(options);
    if (ret == SUCCESS && is_load_profiling_) {
      device_id_.push_back(options.device_id);
    }
  }
  if (ret != SUCCESS) {
    GELOGE(ret, "Failed to init profiling.");
@@ -543,25 +547,17 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY void ProfilingManager::ReportPr
    return;
  }
  GELOGI("current logic_device_id:%d", logic_device_id);
  uint32_t phy_device_id = 0;
  rt_ret = rtGetDevicePhyIdByIndex((uint32_t)logic_device_id, &phy_device_id);
  if (rt_ret != RT_ERROR_NONE) {
    GELOGE(rt_ret, "runtime get phy_device_id failed, current phy_device_id:%d", phy_device_id);
    return;
  }
  GELOGI("current phy_device_id:%d", phy_device_id);
  if (!is_acl_api_mode_) {
    auto ret = std::find(device_id_.begin(), device_id_.end(), phy_device_id);
    auto ret = std::find(device_id_.begin(), device_id_.end(), logic_device_id);
    if (ret == device_id_.end()) {
      GELOGE(FAILED, "get valid phy_device_id failed, profiling report failed.");
      return;
    }
  }
  GELOGI("start ProfilingTaskDescInfo.");
  ProfilingTaskDescInfo(task_desc_info, phy_device_id);
  ProfilingTaskDescInfo(task_desc_info, logic_device_id);
  GELOGI("start ProfilingGraphDescInfo.");
  ProfilingGraphDescInfo(compute_graph_desc_info, phy_device_id);
  ProfilingGraphDescInfo(compute_graph_desc_info, logic_device_id);
  GELOGI("Report profiling data for GE end.");
 #endif
 }
@@ -855,14 +851,8 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY bool ProfilingManager::Profilin
  }
  GELOGI("Current logic_device_id:%d", logic_device_id);
  uint32_t phy_device_id = 0;
  rt_ret = rtGetDevicePhyIdByIndex((uint32_t)logic_device_id, &phy_device_id);
  if (rt_ret != RT_ERROR_NONE) {
    GELOGE(rt_ret, "runtime get phy_device_id failed, current phy_device_id:%d", phy_device_id);
  }
  GELOGI("Current phy_device_id:%d", phy_device_id);
  bool execute_model_prof_on = false;
  auto iter = std::find(device_id_.begin(), device_id_.end(), phy_device_id);
  auto iter = std::find(device_id_.begin(), device_id_.end(), logic_device_id);
  if (iter != device_id_.end()) {
    execute_model_prof_on = true;
  }
--- a/src/ge/common/properties_manager.cc
+++ b/src/ge/common/properties_manager.cc
@@ -172,6 +172,12 @@ FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY DumpProperties &PropertiesManag
  return dump_properties_map_[session_id];
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY void PropertiesManager::AddDumpProperties(
  uint64_t session_id, const DumpProperties &dump_properties) {
  std::lock_guard<std::mutex> lock(mutex_);
  dump_properties_map_.emplace(session_id, dump_properties);
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY void PropertiesManager::RemoveDumpProperties(uint64_t session_id) {
  std::lock_guard<std::mutex> lock(mutex_);
  auto iter = dump_properties_map_.find(session_id);
--- a/src/ge/common/properties_manager.h
+++ b/src/ge/common/properties_manager.h
@@ -23,8 +23,8 @@
 #include <string>
 #include <vector>
 #include "graph/op_desc.h"
 #include "common/dump/dump_properties.h"
 #include "graph/op_desc.h"
 namespace ge {
 // Configuration property management
@@ -83,6 +83,10 @@ class PropertiesManager {
  void SetPropertyDelimiter(const std::string &de);
  DumpProperties &GetDumpProperties(uint64_t session_id);
  const map<uint64_t, DumpProperties> &GetDumpPropertiesMap() { return dump_properties_map_; }
  void AddDumpProperties(uint64_t session_id, const DumpProperties &dump_properties);
  void RemoveDumpProperties(uint64_t session_id);
 private:
--- a/src/ge/common/util.cc
+++ b/src/ge/common/util.cc
@@ -19,16 +19,16 @@
 #include <fcntl.h>
 #include <sys/stat.h>
 #include <unistd.h>
 #include <regex.h>
 #include <unistd.h>
 #include <algorithm>
 #include <climits>
 #include <cstdlib>
 #include <ctime>
 #include <fstream>
 #include "external/ge/ge_api_error_codes.h"
 #include "common/util/error_manager/error_manager.h"
 #include "external/ge/ge_api_error_codes.h"
 #include "framework/common/debug/ge_log.h"
 #include "framework/common/fmk_types.h"
 #include "framework/common/ge_inner_error_codes.h"
@@ -58,6 +58,7 @@ const int kWarningThreshold = 536870912 * 2;  // 536870912 represent 512M
 const int kMaxFileSizeLimit = INT_MAX;
 const int kMaxBuffSize = 256;
 const char *const kPathValidReason = "The path can only contain 'a-z' 'A-Z' '0-9' '-' '.' '_' and chinese character";
 constexpr uint32_t kMaxConfigFileByte = 10 * 1024 * 1024;
 }  // namespace
 namespace ge {
@@ -471,7 +472,7 @@ FMK_FUNC_HOST_VISIBILITY bool ValidateStr(const std::string &str, const std::str
    return true;
  }
  ret = regexec(&reg, str.c_str(), 0, nullptr, 0);
  ret = regexec(&reg, str.c_str(), 0, NULL, 0);
  if (ret) {
    regerror(ret, &reg, ebuff, kMaxBuffSize);
    GELOGE(ge::PARAM_INVALID, "regexec failed, reason: %s", ebuff);
@@ -482,4 +483,69 @@ FMK_FUNC_HOST_VISIBILITY bool ValidateStr(const std::string &str, const std::str
  regfree(&reg);
  return true;
 }
 FMK_FUNC_HOST_VISIBILITY bool IsValidFile(const char *file_path) {
  if (file_path == nullptr) {
    GELOGE(PARAM_INVALID, "Config path is null.");
    return false;
  }
  if (!CheckInputPathValid(file_path)) {
    GELOGE(PARAM_INVALID, "Config path is invalid: %s", file_path);
    return false;
  }
  // Normalize the path
  std::string resolved_file_path = RealPath(file_path);
  if (resolved_file_path.empty()) {
    GELOGE(PARAM_INVALID, "Invalid input file path [%s], make sure that the file path is correct.", file_path);
    return false;
  }
  mmStat_t stat = {0};
  int32_t ret = mmStatGet(resolved_file_path.c_str(), &stat);
  if (ret != EN_OK) {
    GELOGE(PARAM_INVALID, "cannot get config file status, which path is %s, maybe not exist, return %d, errcode %d",
           resolved_file_path.c_str(), ret, mmGetErrorCode());
    return false;
  }
  if ((stat.st_mode & S_IFMT) != S_IFREG) {
    GELOGE(PARAM_INVALID, "config file is not a common file, which path is %s, mode is %u", resolved_file_path.c_str(),
           stat.st_mode);
    return false;
  }
  if (stat.st_size > kMaxConfigFileByte) {
    GELOGE(PARAM_INVALID, "config file %s size[%ld] is larger than max config file Bytes[%u]",
           resolved_file_path.c_str(), stat.st_size, kMaxConfigFileByte);
    return false;
  }
  return true;
 }
 FMK_FUNC_HOST_VISIBILITY FMK_FUNC_DEV_VISIBILITY Status CheckPath(const char *path, size_t length) {
  if (path == nullptr) {
    GELOGE(PARAM_INVALID, "Config path is invalid.");
    return PARAM_INVALID;
  }
  if (strlen(path) != length) {
    GELOGE(PARAM_INVALID, "Path is invalid or length of config path is not equal to given length.");
    return PARAM_INVALID;
  }
  if (length == 0 || length > MMPA_MAX_PATH) {
    GELOGE(PARAM_INVALID, "Length of config path is invalid.");
    return PARAM_INVALID;
  }
  INT32 is_dir = mmIsDir(path);
  if (is_dir != EN_OK) {
    GELOGE(PATH_INVALID, "Open directory %s failed, maybe it is not exit or not a dir", path);
    return PATH_INVALID;
  }
  if (mmAccess2(path, M_R_OK) != EN_OK) {
    GELOGE(PATH_INVALID, "Read path[%s] failed, errmsg[%s]", path, strerror(errno));
    return PATH_INVALID;
  }
  return SUCCESS;
 }
 }  //  namespace ge
--- a/src/ge/executor/CMakeLists.txt
+++ b/src/ge/executor/CMakeLists.txt
@@ -22,7 +22,7 @@ file(GLOB PROTO_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
        "../../proto/insert_op.proto"
        "../../proto/op_mapping_info.proto"
        "../../proto/ge_ir.proto"
        "../proto/dump_task.proto"
        "../../proto/dump_task.proto"
        )
 file(GLOB SRC_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
@@ -73,6 +73,7 @@ file(GLOB SRC_LIST RELATIVE ${CMAKE_CURRENT_LIST_DIR}
        "../graph/manager/trans_var_data_utils.cc"
        "../graph/manager/util/debug.cc"
        "../hybrid/hybrid_davinci_model_stub.cc"
        "../hybrid/node_executor/aicpu/aicpu_ext_info.cc"
        "../model/ge_model.cc"
        "../model/ge_root_model.cc"
        "../omm/csa_interact.cc"
@@ -118,6 +119,8 @@ target_link_libraries(ge_executor
        ${slog}
        ${mmpa}
        ${msprof}
        ${error_manager}
        ${ascend_hal}
        rt
        dl)
--- a/src/ge/executor/ge_executor.cc
+++ b/src/ge/executor/ge_executor.cc
@@ -182,6 +182,37 @@ bool IsDynamicImageSizeMatchModel(uint64_t image_height, uint64_t image_width,
  GELOGE(ge::FAILED, "Dynamic resolution (%lu,%lu) can not match the gear of model.", image_height, image_width);
  return false;
 }
 bool IsDynmaicDimsSizeMatchModel(const vector<uint64_t> cur_dynamic_dims, const vector<vector<int64_t>> &batch_info) {
  if (batch_info.empty()) {
    GELOGE(ge::FAILED, "Dynamic batch info is empty.");
    return false;
  }
  bool find_match = false;
  for (auto resolution : batch_info) {
    if (cur_dynamic_dims.size() != resolution.size()) {
      GELOGE(ge::FAILED, "Cur dynamic dims param num is %zu, current resolution size is %zu.", cur_dynamic_dims.size(),
             resolution.size());
      return false;
    }
    bool flag = true;
    for (std::size_t i = 0; i < resolution.size(); ++i) {
      if (cur_dynamic_dims[i] != static_cast<uint64_t>(resolution[i])) {
        flag = false;
        break;
      }
    }
    if (flag) {
      find_match = true;
      break;
    }
  }
  if (!find_match) {
    GELOGE(ge::FAILED, "choose dynamic dims can not match the gear of model.");
  }
  return find_match;
 }
 }  // namespace
 namespace ge {
@@ -347,9 +378,21 @@ Status GeExecutor::SetDynamicDims(uint32_t model_id, void *dynamic_input_addr, u
  vector<uint64_t> cur_dynamic_dims;
  Status ret = GetCurDynamicDims(model_id, dynamic_dims, cur_dynamic_dims);
  if (ret != SUCCESS) {
    GELOGE(FAILED, "Set cur gear dynmaic dims failed");
    GELOGE(FAILED, "Set cur gear dynamic dims failed");
    return FAILED;
  }
  std::vector<std::vector<int64_t>> batch_info;
  int32_t dynamic_type = static_cast<int32_t>(FIXED);
  ret = GraphExecutor::GetDynamicBatchInfo(model_id, batch_info, dynamic_type);
  if (ret != SUCCESS) {
    GELOGE(ret, "Get dynamic input info failed.");
    return ret;
  }
  if (!IsDynmaicDimsSizeMatchModel(cur_dynamic_dims, batch_info)) {
    GELOGE(PARAM_INVALID, "The current dynamic input does not match the gear of the model.");
    return PARAM_INVALID;
  }
  ret = GraphExecutor::SetDynamicSize(model_id, cur_dynamic_dims, static_cast<int32_t>(DYNAMIC_DIMS));
  if (ret != SUCCESS) {
@@ -410,6 +453,10 @@ Status GeExecutor::GetCurDynamicDims(uint32_t model_id, const vector<uint64_t> &
  for (std::size_t i = 0; i < all_data_dims.size(); ++i) {
    if (all_data_dims[i] < 0) {
      cur_dynamic_dims.push_back(dynamic_dims[i]);
    } else if (static_cast<uint64_t>(all_data_dims[i]) != dynamic_dims[i]) {
      GELOGE(PARAM_INVALID, "Static dims should be same, index: %zu value: %d should be %d", i, dynamic_dims[i],
             all_data_dims[i]);
      return PARAM_INVALID;
    }
  }
  return SUCCESS;
@@ -698,6 +745,22 @@ Status GeExecutor::GetAIPPInfo(uint32_t model_id, uint32_t index, AippConfigInfo
  GELOGI("GetAIPPInfo succ.");
  return SUCCESS;
 }
 Status GeExecutor::GetAippType(uint32_t model_id, uint32_t index, InputAippType &type, size_t &aipp_index) {
  GELOGI("Begin to get aipp type.");
  if (!isInit_) {
    GELOGE(GE_EXEC_NOT_INIT, "not inited yet!");
    return GE_EXEC_NOT_INIT;
  }
  Status ret = GraphExecutor::GetAippType(model_id, index, type, aipp_index);
  if (ret != SUCCESS) {
    GELOGW("Get aipp type is not success.");
    return ret;
  }
  GELOGI("Get aipp type success.");
  return SUCCESS;
 }
 Status GeExecutor::GetModelAttr(uint32_t model_id, std::vector<std::string> &dynamic_output_shape_info) {
  GELOGI("Begin to get dynamic batch output shape info");
  if (!isInit_) {
--- a/src/ge/executor/module.mk
+++ b/src/ge/executor/module.mk
@@ -60,6 +60,7 @@ local_ge_executor_src_files :=  \
    ../single_op/task/aicpu_task_builder.cc \
    ../single_op/task/aicpu_kernel_task_builder.cc \
    ../hybrid/hybrid_davinci_model_stub.cc\
    ../hybrid/node_executor/aicpu/aicpu_ext_info.cc \
 local_ge_executor_c_include :=             \
    proto/insert_op.proto                  \
@@ -87,6 +88,8 @@ local_ge_executor_shared_library :=        \
    libgraph                               \
    libregister                            \
    libmsprof                              \
    liberror_manager                       \
    libascend_hal
 local_ge_executor_ldflags := -lrt -ldl     \
@@ -102,6 +105,7 @@ LOCAL_SRC_FILES := $(local_ge_executor_src_files)
 LOCAL_C_INCLUDES := $(local_ge_executor_c_include)
 LOCAL_SHARED_LIBRARIES := $(local_ge_executor_shared_library)
 LOCAL_STATIC_LIBRARIES := libmsprofiler
 ifeq ($(device_os),android)
 LOCAL_LDFLAGS += -ldl
 LOCAL_LDLIBS += -L$(PWD)/prebuilts/clang/linux-x86/aarch64/android-ndk-r21/sysroot/usr/lib/aarch64-linux-android/29 -llog
@@ -137,6 +141,10 @@ LOCAL_SHARED_LIBRARIES :=                  \
    libgraph                               \
    libregister                            \
    libmsprof                              \
    liberror_manager                       \
    stub/libascend_hal
 LOCAL_STATIC_LIBRARIES := libmsprofiler
 LOCAL_LDFLAGS += $(local_ge_executor_ldflags)
--- a/src/ge/ge_inference.mk
+++ b/src/ge/ge_inference.mk
@@ -29,6 +29,7 @@ COMMON_LOCAL_SRC_FILES := \
    common/dump/dump_properties.cc \
    common/dump/dump_manager.cc \
    common/dump/dump_op.cc \
    common/dump/dump_server.cc \
    common/helper/model_cache_helper.cc \
    ge_local_engine/engine/host_cpu_engine.cc \
@@ -254,6 +255,7 @@ OME_HOST_SRC_FILES := \
    single_op/stream_resource.cc                                         \
    single_op/single_op_manager.cc                                       \
    hybrid/hybrid_davinci_model_stub.cc                                  \
    hybrid/node_executor/aicpu/aicpu_ext_info.cc                         \
    # graph/load/new_model_manager/task_info/hccl_task_info.cc
 OME_DEVICE_SRC_FILES := $(OME_HOST_SRC_FILES)
@@ -286,6 +288,7 @@ COMMON_LOCAL_C_INCLUDES := \
    $(TOPDIR)inc/runtime \
    $(TOPDIR)libc_sec/include \
    $(TOPDIR)ops/built-in/op_proto/inc \
    $(TOPDIR)toolchain/ide/ide-daemon/external \
    third_party/json/include \
    third_party/protobuf/include \
    third_party/opencv/include \
@@ -340,6 +343,7 @@ DEVICE_LOCAL_C_INCLUDES := \
    $(TOPDIR)inc/runtime \
    $(TOPDIR)ops/built-in/op_proto/inc \
    $(TOPDIR)framework/domi \
    $(TOPDIR)toolchain/ide/ide-daemon/external \
    third_party/json/include \
    third_party/protobuf/include \
    third_party/opencv/include \
@@ -351,7 +355,7 @@ LOCAL_MODULE := libge_compiler
 LOCAL_CFLAGS += -DPROTOBUF_INLINE_NOT_IN_HEADERS=0 -DREUSE_MEMORY=1 -O2
 # from ome_inference.mk
 LOCAL_CFLAGS += -DFMK_HOST_INFER -DFMK_SUPPORT_DUMP
 LOCAL_CFLAGS += -DFMK_HOST_INFER -DFMK_SUPPORT_DUMP -DCOMPILE_OMG_PACKAGE
 ifeq ($(DEBUG), 1)
 LOCAL_CFLAGS += -g -O0
 endif
@@ -414,7 +418,7 @@ include $(CLEAR_VARS)
 LOCAL_MODULE := libge_compiler
 LOCAL_CFLAGS += -DGOOGLE_PROTOBUF_NO_RTTI -DDEV_VISIBILITY -DNONSUPPORT_SAVE_TO_FILE
 LOCAL_CFLAGS += -DPROTOBUF_INLINE_NOT_IN_HEADERS=0
 LOCAL_CFLAGS += -DREUSE_MEMORY=1 -DFMK_SUPPORT_DUMP
 LOCAL_CFLAGS += -DREUSE_MEMORY=1 -DFMK_SUPPORT_DUMP -DCOMPILE_OMG_PACKAGE
 LOCAL_CFLAGS += -DOMG_DEVICE_VERSION
 LOCAL_CFLAGS += -O2
 LOCAL_MODULE_CLASS := SHARED_LIBRARIES
--- a/src/ge/ge_local_engine/CMakeLists.txt
+++ b/src/ge/ge_local_engine/CMakeLists.txt
@@ -42,7 +42,7 @@ include_directories(${CMAKE_BINARY_DIR}/proto/ge)
 ######### libge_local_engine.so #############
 add_library(ge_local_engine SHARED ${SRC_LIST} ${PROTO_HDRS})
 target_compile_definitions(ge_local_engine PRIVATE Werror)
 target_compile_definitions(ge_local_engine PRIVATE Werror COMPILE_OMG_PACKAGE)
 target_link_libraries(ge_local_engine
        graph
        ${PROTOBUF_LIBRARY}
--- a/src/ge/ge_local_engine/engine/host_cpu_engine.cc
+++ b/src/ge/ge_local_engine/engine/host_cpu_engine.cc
@@ -25,40 +25,65 @@
 #include "common/ge/plugin_manager.h"
 #include "graph/utils/type_utils.h"
 #include "common/fp16_t.h"
 #include "common/math/math_util.h"
 namespace {
 #define CREATE_OUTPUT_CASE(DTYPE, TYPE)                                                                            \
  case (DTYPE): {                                                                                                  \
    GeTensorPtr ge_tensor = nullptr;                                                                               \
    if (need_create_flag) {                                                                                        \
      int64_t data_num = out_desc.GetShape().IsScalar() ? 1 : out_desc.GetShape().GetShapeSize();                  \
      std::unique_ptr<TYPE[]> buf(new (std::nothrow) TYPE[data_num]());                                            \
      if (buf == nullptr) {                                                                                        \
        GELOGE(MEMALLOC_FAILED, "New sizeof(T) * data_num(%zu) memory failed",                                     \
               static_cast<size_t>(sizeof(TYPE) * data_num));                                                      \
        return MEMALLOC_FAILED;                                                                                    \
      }                                                                                                            \
      ge_tensor = MakeShared<GeTensor>(out_desc);                                                                  \
      GE_CHECK_NOTNULL(ge_tensor);                                                                                 \
      GELOGI("node:%s allocate output %zu, size=%lld", op_desc->GetName().c_str(), i, data_num * sizeof(TYPE));    \
      ge_tensor->SetData(reinterpret_cast<uint8_t *>(buf.get()), data_num * sizeof(TYPE));                         \
      ge_tensor->MutableTensorDesc().SetDataType(out_desc.GetDataType());                                          \
      ge_tensor->MutableTensorDesc().SetShape(out_desc.GetShape());                                                \
      outputs.emplace_back(ge_tensor);                                                                             \
    } else {                                                                                                       \
      ge_tensor = outputs[i];                                                                                      \
      GE_CHECK_NOTNULL(ge_tensor);                                                                                 \
      GELOGI("node:%s existed output %zu, addr=%p, size=%lld", op_desc->GetName().c_str(), i,                      \
             reinterpret_cast<const uint8_t *>(ge_tensor->GetData().data()), ge_tensor->GetData().size());         \
    }                                                                                                              \
    auto tensor = TensorAdapter::AsTensor(*ge_tensor);                                                             \
    auto tensor_name = op_desc->GetOutputNameByIndex(i);                                                           \
    GE_RETURN_WITH_LOG_IF_TRUE(tensor_name.empty(), "Failed to get output name. node = %s, index = %zu",           \
                               op_desc->GetName().c_str(), i);                                                     \
    GELOGD("Successfully inserted output tensor. node = %s, index = %zu, output name = %s, addr = %p, size = %zu", \
           op_desc->GetName().c_str(), i, tensor_name.c_str(), tensor.GetData(), tensor.GetSize());                \
    named_outputs.emplace(tensor_name, tensor);                                                                    \
    break;                                                                                                         \
 #define CREATE_OUTPUT_CASE(DTYPE, TYPE)                                                                               \
  case (DTYPE): {                                                                                                     \
    GeTensorPtr ge_tensor = nullptr;                                                                                  \
    if (need_create_flag) {                                                                                           \
      int64_t num_size = out_desc.GetShape().IsScalar() ? 1 : out_desc.GetShape().GetShapeSize();                     \
      if (out_desc.GetShape().IsUnknownShape()) {                                                                     \
        std::vector<std::pair<int64_t, int64_t>> range;                                                               \
        if (out_desc.GetShapeRange(range) != GRAPH_SUCCESS) {                                                         \
          GELOGE(INTERNAL_ERROR, "Get shape range failed, node:%s", op_desc->GetName().c_str());                      \
          return INTERNAL_ERROR;                                                                                      \
        }                                                                                                             \
        int64_t max_range_size = 1;                                                                                   \
        for (const auto &item : range) {                                                                              \
          FMK_INT64_MULCHECK(max_range_size, item.second);                                                            \
          max_range_size *= item.second;                                                                              \
        }                                                                                                             \
        num_size = max_range_size;                                                                                    \
      }                                                                                                               \
      if (num_size < 0) {                                                                                             \
        GELOGE(INTERNAL_ERROR, "node:%s, get size for output %zu failed, num=%lld", op_desc->GetName().c_str(), i,    \
               num_size);                                                                                             \
        return INTERNAL_ERROR;                                                                                        \
      }                                                                                                               \
      auto data_num = static_cast<uint64_t>(num_size);                                                                \
      GELOGI("node:%s allocate output %zu start, size=%lld", op_desc->GetName().c_str(), i, data_num * sizeof(TYPE)); \
      std::unique_ptr<TYPE[]> buf(new (std::nothrow) TYPE[data_num]());                                               \
      if (buf == nullptr) {                                                                                           \
        GELOGE(MEMALLOC_FAILED, "New sizeof(T) * data_num(%zu) memory failed",                                        \
               static_cast<size_t>(sizeof(TYPE) * data_num));                                                         \
        return MEMALLOC_FAILED;                                                                                       \
      }                                                                                                               \
      ge_tensor = MakeShared<GeTensor>(out_desc);                                                                     \
      GE_CHECK_NOTNULL(ge_tensor);                                                                                    \
      GELOGI("node:%s allocate output %zu success, size=%lld", op_desc->GetName().c_str(), i,                         \
             data_num * sizeof(TYPE));                                                                                \
      if (ge_tensor->SetData(reinterpret_cast<uint8_t *>(buf.get()), data_num * sizeof(TYPE)) != GRAPH_SUCCESS) {     \
        GELOGE(MEMALLOC_FAILED, "Set data for output %zu of node %s failed.", i, op_desc->GetName().c_str());         \
        return MEMALLOC_FAILED;                                                                                       \
      }                                                                                                               \
      ge_tensor->MutableTensorDesc().SetDataType(out_desc.GetDataType());                                             \
      ge_tensor->MutableTensorDesc().SetShape(out_desc.GetShape());                                                   \
      outputs.emplace_back(ge_tensor);                                                                                \
    } else {                                                                                                          \
      ge_tensor = outputs[i];                                                                                         \
      GE_CHECK_NOTNULL(ge_tensor);                                                                                    \
      GELOGI("node:%s existed output %zu, addr=%p, size=%lld", op_desc->GetName().c_str(), i,                         \
             reinterpret_cast<const uint8_t *>(ge_tensor->GetData().data()), ge_tensor->GetData().size());            \
    }                                                                                                                 \
    auto tensor = TensorAdapter::AsTensor(*ge_tensor);                                                                \
    auto tensor_name = op_desc->GetOutputNameByIndex(i);                                                              \
    GE_RETURN_WITH_LOG_IF_TRUE(tensor_name.empty(), "Failed to get output name. node = %s, index = %zu",              \
                               op_desc->GetName().c_str(), i);                                                        \
    GELOGD("Successfully inserted output tensor. node = %s, index = %zu, output name = %s, addr = %p, size = %zu",    \
           op_desc->GetName().c_str(), i, tensor_name.c_str(), tensor.GetData(), tensor.GetSize());                   \
    named_outputs.emplace(tensor_name, tensor);                                                                       \
    break;                                                                                                            \
  }
 }  // namespace
--- a/src/ge/ge_local_engine/module.mk
+++ b/src/ge/ge_local_engine/module.mk
@@ -42,7 +42,7 @@ include ${BUILD_HOST_SHARED_LIBRARY}
 include $(CLEAR_VARS)
 LOCAL_MODULE := atclib/libge_local_engine
 LOCAL_CFLAGS += -Werror
 LOCAL_CFLAGS += -std=c++11
 LOCAL_CFLAGS += -std=c++11 -DCOMPILE_OMG_PACKAGE
 LOCAL_LDFLAGS :=
 LOCAL_STATIC_LIBRARIES :=
--- a/src/ge/ge_runner.mk
+++ b/src/ge/ge_runner.mk
@@ -1,5 +1,5 @@
 LOCAL_PATH := $(call my-dir)
 include $(LOCAL_PATH)/stub/Makefile
 LIBGE_LOCAL_SRC_FILES := \
    proto/fusion_model.proto \
    proto/optimizer_priority.proto \
@@ -296,6 +296,7 @@ LIBGE_LOCAL_SRC_FILES := \
 LIBCLIENT_LOCAL_SRC_FILES := \
    proto/ge_api.proto \
    client/ge_api.cc \
    client/ge_prof.cc \
 RUNNER_LOCAL_C_INCLUDES := \
    $(LOCAL_PATH) ./ \
@@ -312,6 +313,7 @@ RUNNER_LOCAL_C_INCLUDES := \
    $(TOPDIR)libc_sec/include \
    $(TOPDIR)ops/built-in/op_proto/inc \
    $(TOPDIR)framework/domi/analyzer \
    $(TOPDIR)toolchain/ide/ide-daemon/external \
    proto/fwk_adapter.proto \
    proto/ge_ir.proto \
    proto/insert_op.proto \
@@ -353,6 +355,8 @@ LOCAL_SRC_FILES := $(LIBGE_LOCAL_SRC_FILES)
 LOCAL_SRC_FILES += $(LIBCLIENT_LOCAL_SRC_FILES)
 LOCAL_STATIC_LIBRARIES := libge_memory \
                          libadump_server \
                          libmsprofiler \
 LOCAL_SHARED_LIBRARIES := \
    libc_sec \
@@ -371,6 +375,7 @@ LOCAL_LDFLAGS := -lrt -ldl
 LOCAL_SHARED_LIBRARIES += \
    libruntime \
    libresource \
    stub/libascend_hal \
 include $(BUILD_HOST_SHARED_LIBRARY)
@@ -388,7 +393,8 @@ endif
 LOCAL_C_INCLUDES := $(RUNNER_LOCAL_C_INCLUDES)
 LOCAL_SRC_FILES := ../../out/ge/lib64/stub/ge_api.cc
 LOCAL_SRC_FILES := ../../out/ge/lib64/stub/ge_api.cc \
                   ../../out/ge/lib64/stub/ge_prof.cc \
 LOCAL_SHARED_LIBRARIES :=
@@ -438,6 +444,7 @@ LOCAL_SRC_FILES := $(LIBGE_LOCAL_SRC_FILES)
 LOCAL_SRC_FILES += $(LIBCLIENT_LOCAL_SRC_FILES)
 LOCAL_STATIC_LIBRARIES := libge_memory \
                          libadump_server \
 LOCAL_SHARED_LIBRARIES := \
    libc_sec \
@@ -450,6 +457,7 @@ LOCAL_LDFLAGS := -lrt -ldl
 LOCAL_SHARED_LIBRARIES += \
    libruntime \
    libresource \
    stub/libascend_hal \
 include $(BUILD_HOST_STATIC_LIBRARY)
@@ -469,6 +477,7 @@ LOCAL_SRC_FILES := $(LIBGE_LOCAL_SRC_FILES)
 LOCAL_SRC_FILES += $(LIBCLIENT_LOCAL_SRC_FILES)
 LOCAL_STATIC_LIBRARIES := libge_memory \
                          libadump_server \
 LOCAL_SHARED_LIBRARIES := \
    libc_sec \
@@ -481,5 +490,6 @@ LOCAL_LDFLAGS := -lrt -ldl
 LOCAL_SHARED_LIBRARIES += \
    libruntime \
    libresource \
    libascend_hal \
 include $(BUILD_STATIC_LIBRARY)
--- a/src/ge/ge_runtime/runtime_model.cc
+++ b/src/ge/ge_runtime/runtime_model.cc
@@ -344,6 +344,9 @@ void RuntimeModel::RtStreamDestory() noexcept {
 void RuntimeModel::RtLabelDestory() noexcept {
  for (size_t i = 0; i < label_list_.size(); i++) {
    if (label_list_[i] == nullptr) {
      continue;
    }
    if (rtLabelDestroy(label_list_[i]) != RT_ERROR_NONE) {
      GELOGE(RT_FAILED, "Destroy label failed! Index: %zu.", i);
      return;
--- a/src/ge/generator/ge_generator.cc
+++ b/src/ge/generator/ge_generator.cc
@@ -136,6 +136,13 @@ static Status AddInputs(const ComputeGraphPtr &graph, const NodePtr &node, GeTen
                        bool attr) {
  GE_CHECK_NOTNULL_EXEC(graph, return PARAM_INVALID);
  GE_CHECK_NOTNULL_EXEC(node, return PARAM_INVALID);
  auto format = tensor.GetFormat();
  auto data_type = tensor.GetDataType();
  if (format == FORMAT_RESERVED && data_type == DT_UNDEFINED) {
    return SUCCESS;
  }
  string op_type;
  if (!AttrUtils::GetStr(tensor, kAttrOpType, op_type) || op_type.empty()) {
    op_type = DATA;
@@ -521,8 +528,8 @@ Status GeGenerator::BuildSingleOp(OpDescPtr &op_desc, const vector<GeTensor> &in
                                  const string &model_file_name, OpEngineType engine_type, ModelBufferData &model_buff,
                                  bool is_offline) {
  GE_CHECK_NOTNULL_EXEC(op_desc, return PARAM_INVALID);
  if (!inputs.empty() && (inputs.size() != op_desc->GetInputsSize())) {
    GELOGE(PARAM_INVALID, "Tensor size: %zu, Inputs size: %zu", inputs.size(), op_desc->GetInputsSize());
  if (!inputs.empty() && (inputs.size() != op_desc->GetAllInputsSize())) {
    GELOGE(PARAM_INVALID, "Tensor size: %zu, Inputs size: %zu", inputs.size(), op_desc->GetAllInputsSize());
    return PARAM_INVALID;
  }
  if (!outputs.empty() && (outputs.size() != op_desc->GetOutputsSize())) {
--- a/src/ge/graph/build/memory/block_mem_assigner.cc
+++ b/src/ge/graph/build/memory/block_mem_assigner.cc
@@ -413,7 +413,8 @@ BlockMemAssigner::BlockMemAssigner(ComputeGraphPtr compute_graph, const map<stri
      life_time_(0) {}
 BlockMemAssigner::~BlockMemAssigner() {
  for (MemoryBlock *memory_block : memory_blocks_) {
  GELOGD("blocks_store_ size : %lu", blocks_store_.size());
  for (MemoryBlock *memory_block : blocks_store_) {
    GE_DELETE_NEW_SINGLE(memory_block);
  }
 }
@@ -544,7 +545,7 @@ bool CanReuseBySize(const map<string, uint64_t> &reusable_block_counts, const Me
 }
 bool BlockMemAssigner::IsOutNodeSetContinuousInput(const NodePtr &n, uint32_t out_index, std::string &peer_name,
                                                   uint32_t &peer_input_index) {
                                                   uint32_t &peer_input_index, bool &no_need_assign_memory) {
  if (n == nullptr || n->GetAllOutDataAnchors().size() <= 0) {
    return false;
  }
@@ -571,6 +572,11 @@ bool BlockMemAssigner::IsOutNodeSetContinuousInput(const NodePtr &n, uint32_t ou
      // If GetBool fail, is_input_continuous is false.
      (void)ge::AttrUtils::GetBool(peer_in_node_desc, ATTR_NAME_CONTINUOUS_INPUT, is_input_continuous);
      GE_IF_BOOL_EXEC(is_input_continuous && CheckIsZeroMemNodeType(peer_node->GetType()),
                      GELOGI("Node[%s] output[%u] no_need_assign_memory.", n->GetName().c_str(), out_index);
                      no_need_assign_memory = true; return false;);
      if (is_input_continuous) {
        if (n->GetOwnerComputeGraph() != nullptr) {
          string graph_name = n->GetOwnerComputeGraph()->GetName();
@@ -828,6 +834,7 @@ MemoryBlock *BlockMemAssigner::ApplyMemory(size_t block_size, size_t real_size,
    }
  }
  memory_blocks_.emplace_back(block);
  blocks_store_.emplace_back(block);
  return block;
 }
@@ -1143,8 +1150,10 @@ Status BlockMemAssigner::AssignOutputMemoryWithReuse(const NodePtr &node, vector
    bool out_node_set_continuous_input = false;
    bool no_need_assign_memory = ((size == 0) || CheckIsZeroMemNodeType(node->GetType()));
    if (!no_need_assign_memory) {
      out_node_set_continuous_input = IsOutNodeSetContinuousInput(node, i, peer_name, peer_input_index);
      no_need_assign_memory = IsAtomicOutputMemory(node, i, is_atomic, out_node_set_continuous_input);
      out_node_set_continuous_input =
        IsOutNodeSetContinuousInput(node, i, peer_name, peer_input_index, no_need_assign_memory);
      GE_IF_BOOL_EXEC(!no_need_assign_memory,
                      no_need_assign_memory = IsAtomicOutputMemory(node, i, is_atomic, out_node_set_continuous_input););
    }
    no_need_assign_memory = (no_need_assign_memory || IsKnownSubgraphData(node));
    if (no_need_assign_memory) {
@@ -1296,6 +1305,11 @@ void MergeBlocks(std::vector<MemoryBlock *> &dest, std::vector<MemoryBlock *> &s
      return;
    }
    if (dest[i] != nullptr && src[i] != nullptr) {
      if (!dest[i]->reuse_mem_ || !src[i]->reuse_mem_) {
        GELOGD("Diff batch's workspace can't be reused, i: %zu, dest[i]: %s, stream: %ld, src[i]: %s, stream: %ld.", i,
               dest[i]->String().c_str(), dest[i]->stream_id_, src[i]->String().c_str(), src[i]->stream_id_);
        continue;
      }
      for (auto &symbol : src[i]->SymbolList()) {
        dest[i]->AddSymbol(symbol);
      }
--- a/src/ge/graph/build/memory/block_mem_assigner.h
+++ b/src/ge/graph/build/memory/block_mem_assigner.h
@@ -259,6 +259,7 @@ class BlockMemAssigner : public MemAssigner {
  ge::ComputeGraphPtr compute_graph_;
  std::vector<MemoryBlock *> memory_blocks_;
  std::vector<MemoryBlock *> blocks_store_;
  std::vector<NodeTypeIndex> zero_memory_list_;
@@ -357,7 +358,7 @@ class BlockMemAssigner : public MemAssigner {
  bool IsZeroCopyBlock(const NodePtr &node, bool continuous);
  bool IsOutNodeSetContinuousInput(const NodePtr &n, uint32_t out_index, std::string &peer_name,
                                   uint32_t &peer_input_index);
                                   uint32_t &peer_input_index, bool &no_need_assign_memory);
  ///
  /// @ingroup GE
--- a/src/ge/graph/build/memory/graph_mem_assigner.cc
+++ b/src/ge/graph/build/memory/graph_mem_assigner.cc
@@ -39,6 +39,33 @@ const size_t kVirtualInputNodeOutputSize = 1;
 const size_t kVirtualOutputNodeInputSize = 1;
 const size_t kVirtualNodeDataIndex = 0;
 const char *const kMbatchNodeNameFlag = "_ascend_mbatch_batch_";
 int64_t GetSymbolOutputOffset(const std::map<std::string, std::string> &anchor_to_symbol,
                              const std::map<std::string, std::list<ge::NodeIndexIO>> &symbol_to_anchors,
                              const ge::NodePtr &node, const uint32_t i) {
  ge::NodeIndexIO cur_node_index_io(node, i, ge::kOut);
  auto iter1 = anchor_to_symbol.find(cur_node_index_io.ToString());
  if (iter1 == anchor_to_symbol.end()) {
    return ge::kInvalidOffset;
  }
  auto out_symbol = iter1->second;
  auto iter2 = symbol_to_anchors.find(out_symbol);
  if (iter2 == symbol_to_anchors.end()) {
    return ge::kInvalidOffset;
  }
  for (const auto &node_index_io : iter2->second) {
    if (node_index_io.value_ == out_symbol) {
      vector<int64_t> output_list = node->GetOpDesc()->GetOutputOffset();
      vector<int64_t> symbol_output_list = node_index_io.node_->GetOpDesc()->GetOutputOffset();
      if (node_index_io.index_ >= symbol_output_list.size()) {
        return ge::kInvalidOffset;
      }
      GELOGD("Node %s %uth output offset is %ld, Symbol %s output offset is %ld.", node->GetName().c_str(), i,
             output_list[i], iter2->first.c_str(), symbol_output_list.at(node_index_io.index_));
      return symbol_output_list.at(node_index_io.index_);
    }
  }
  return ge::kInvalidOffset;
 }
 }  // namespace
 namespace ge {
 Status VariableMemoryAssigner::Assign() {
@@ -227,7 +254,10 @@ Status GraphMemoryAssigner::ReAssignMemory(bool is_loop_graph, size_t &mem_offse
  if (mem_offset > VarManager::Instance(session_id)->GetGraphMemoryMaxSize()) {
    GELOGE(ge::FAILED, "Current memoffset %zu is greater than memory manager malloc max size %zu", mem_offset,
           VarManager::Instance(session_id)->GetGraphMemoryMaxSize());
    ErrorManager::GetInstance().ATCReportErrMessage("E19022");
    ErrorManager::GetInstance().ATCReportErrMessage(
      "E19022", {"size", "item", "maxsize"},
      {std::to_string(mem_offset), "featuremap",
       std::to_string(VarManager::Instance(session_id)->GetGraphMemoryMaxSize())});
    return ge::FAILED;
  }
  return SUCCESS;
@@ -292,11 +322,19 @@ Status GraphMemoryAssigner::ReAssignContinuousMemory(bool is_loop_graph) {
          GELOGE(ge::FAILED,
                 "There is an atomic conflict between the current node and the peer out node, not supported!");
          return ge::FAILED;
        } else if (is_loop_graph) {
          GE_CHK_STATUS_RET(SetLoopGraphAtomicAttr(node, mem_clean_start));
        } else {
          GE_CHK_STATUS_RET(SetAtomicCleanAttr(nullptr, {mem_clean_start}, {mem_clean_size}),
                            "SetAtomicCleanAttr failed.");
        }
        const auto &in_control_anchor = node->GetInControlAnchor();
        GE_CHECK_NOTNULL(in_control_anchor);
        for (const auto &peer_out_control_anchor : in_control_anchor->GetPeerOutControlAnchors()) {
          auto peer_out_node = peer_out_control_anchor->GetOwnerNode();
          if (peer_out_node->GetType() == ATOMICADDRCLEAN) {
            ret = SetAtomicCleanAttr(peer_out_node, {mem_clean_start}, {mem_clean_size});
            if (ret != SUCCESS) {
              GELOGE(ret, "Failed to set attr for atomic addr clean node %s.", peer_out_node->GetName().c_str());
              return ret;
            }
          }
        }
      }
    }
@@ -810,68 +848,37 @@ Status GraphMemoryAssigner::ReAssignVirtualNodesMemory(map<string, vector<NodePt
 }
 Status GraphMemoryAssigner::ReAssignAtomicMemory(bool is_loop_graph) {
  GE_CHECK_NOTNULL(compute_graph_);
  // Atomic op memory start addr
  int64_t atomic_mem_start = static_cast<int64_t>(memory_offset_[0].mem_offset_);
  GELOGI("Begin to reAssign atomic memory, atomic initial address mem_offset = %zu!", memory_offset_[0].mem_offset_);
  vector<NodePtr> connect_netoutput_nodes;
  for (auto &node : compute_graph_->GetAllNodes()) {
    auto node_op_desc = node->GetOpDesc();
    if (node_op_desc == nullptr) {
      continue;
    }
    bool is_atomic = false;
    // If GetBool fail, is_atomic is false.
    (void)ge::AttrUtils::GetBool(node_op_desc, ATOMIC_ATTR_IS_ATOMIC_NODE, is_atomic);
    if (!is_atomic) {
      continue;
    }
    bool is_ref = false;
    // If GetBool fail, is_ref is false.
    (void)ge::AttrUtils::GetBool(node_op_desc, ATTR_NAME_REFERENCE, is_ref);
    if (is_ref) {
      GELOGE(ge::PARAM_INVALID, "The node %s cannot have both atomic and ref attribute.",
             node_op_desc->GetName().c_str());
      return ge::PARAM_INVALID;
    }
    vector<int> is_connect_netoutput;
    // If GetBool fail, attr is_connect_netoutput is an empty vector.
    (void)ge::AttrUtils::GetListInt(node_op_desc, ATTR_NAME_NODE_CONNECT_OUTPUT, is_connect_netoutput);
    if (!is_connect_netoutput.empty()) {
      connect_netoutput_nodes.emplace_back(node);
      continue;
    }
  map<NodePtr, vector<NodePtr>> normal_atomic_and_clean_nodes_map;
  vector<NodePtr> connecting_output_atomic_nodes;
  Status status = FilterAtomicNodesForMemoryAssign(normal_atomic_and_clean_nodes_map, connecting_output_atomic_nodes);
  if (status != SUCCESS) {
    GELOGE(status, "Failed to filter atomic nodes for memory assignment.");
    return status;
  }
    // Atomic op memory start addr of loop graph
    int64_t loop_graph_atomic_mem_start = static_cast<int64_t>(memory_offset_[0].mem_offset_);
    vector<int64_t> mem_offset_end;
    if (AssignAtomicOutputAndWorkspaceMemory(node, mem_offset_end) != SUCCESS) {
      GELOGE(FAILED, "Assign atomic output and workspace memory failed, node is %s.", node->GetName().c_str());
      return FAILED;
    }
  for (auto &iter : normal_atomic_and_clean_nodes_map) {
    int64_t atomic_mem_start = static_cast<int64_t>(memory_offset_[0].mem_offset_);
    GELOGD("Begin to reAssign atomic memory, atomic address memory start = %ld", atomic_mem_start);
    /// In networks with loop op, atomic op uses atomic_addr_clean op independently,
    /// so we need to set the attr separately.
    if (is_loop_graph) {
      GE_CHK_STATUS_RET(SetLoopGraphAtomicAttr(node, loop_graph_atomic_mem_start));
    for (auto &atomic_node : iter.second) {
      vector<int64_t> mem_offset_end;
      status = AssignAtomicOutputAndWorkspaceMemory(atomic_node, mem_offset_end);
      if (status != SUCCESS) {
        GELOGE(status, "Assign atomic output and workspace memory failed, node name is %s.",
               atomic_node->GetName().c_str());
        return status;
      }
    }
  }
  // In networks without loop op, the same atomic addr clean op is used for atomic op
  if (!is_loop_graph) {
    // Set the address attr of atomic clean operator
    int64_t atomic_mem_size = memory_offset_[0].mem_offset_ - atomic_mem_start;
    if (atomic_mem_size != 0) {
      GE_CHK_STATUS_RET(SetAtomicCleanAttr(nullptr, {atomic_mem_start}, {atomic_mem_size}),
                        "SetAtomicCleanAttr failed.");
    int64_t atomic_mem_size = static_cast<int64_t>(memory_offset_[0].mem_offset_) - atomic_mem_start;
    status = SetAtomicCleanAttr(iter.first, {atomic_mem_start}, {atomic_mem_size});
    if (status != SUCCESS) {
      GELOGE(status, "Failed to set attr for atomic addr clean node %s.", iter.first->GetName().c_str());
      return status;
    }
  }
  if (AssignConnectNetOutputAtomicMemory(connect_netoutput_nodes) != SUCCESS) {
  if (AssignConnectNetOutputAtomicMemory(connecting_output_atomic_nodes) != SUCCESS) {
    GELOGE(FAILED, "Failed to assign memory of nodes that connect to netoutput.");
    return FAILED;
  }
@@ -879,6 +886,55 @@ Status GraphMemoryAssigner::ReAssignAtomicMemory(bool is_loop_graph) {
  return SUCCESS;
 }
 Status GraphMemoryAssigner::FilterAtomicNodesForMemoryAssign(map<NodePtr, vector<NodePtr>> &normal_atomic_nodes_map,
                                                             vector<NodePtr> &connecting_output_atomic_nodes) {
  GE_CHECK_NOTNULL(compute_graph_);
  for (const auto &node : compute_graph_->GetAllNodes()) {
    if (node->GetType() == ATOMICADDRCLEAN) {
      vector<NodePtr> tmp_normal_atomic_nodes;
      const auto &out_control_anchor = node->GetOutControlAnchor();
      GE_CHECK_NOTNULL(out_control_anchor);
      for (const auto &peer_in_control_anchor : out_control_anchor->GetPeerInControlAnchors()) {
        if (peer_in_control_anchor != nullptr) {
          auto peer_in_node = peer_in_control_anchor->GetOwnerNode();
          auto peer_in_node_desc = peer_in_node->GetOpDesc();
          if (peer_in_node_desc != nullptr) {
            bool is_atomic_node = false;
            // If GetBool fail, is_atomic_node is false.
            (void)ge::AttrUtils::GetBool(peer_in_node_desc, ATOMIC_ATTR_IS_ATOMIC_NODE, is_atomic_node);
            if (is_atomic_node) {
              bool is_reference = false;
              // If GetBool fail, is_reference is false.
              (void)ge::AttrUtils::GetBool(peer_in_node_desc, ATTR_NAME_REFERENCE, is_reference);
              if (is_reference) {
                GELOGE(ge::PARAM_INVALID, "The node %s cannot have both atomic and is_reference attribute.",
                       peer_in_node_desc->GetName().c_str());
                return ge::PARAM_INVALID;
              }
              vector<int> is_connecting_output;
              // If GetBool fail, attr is_connecting_output is an empty vector.
              (void)ge::AttrUtils::GetListInt(peer_in_node_desc, ATTR_NAME_NODE_CONNECT_OUTPUT, is_connecting_output);
              if (is_connecting_output.empty()) {
                tmp_normal_atomic_nodes.emplace_back(peer_in_node);
                continue;
              }
              connecting_output_atomic_nodes.emplace_back(peer_in_node);
              tmp_normal_atomic_nodes.clear();
              break;
            }
          }
        }
      }
      if (!tmp_normal_atomic_nodes.empty()) {
        normal_atomic_nodes_map[node] = tmp_normal_atomic_nodes;
      }
    }
  }
  return SUCCESS;
 }
 Status GraphMemoryAssigner::AssignAtomicOutputAndWorkspaceMemory(const ge::NodePtr &node,
                                                                 vector<int64_t> &mem_offset_end) {
  auto node_op_desc = node->GetOpDesc();
@@ -908,6 +964,8 @@ Status GraphMemoryAssigner::AssignAtomicOutputAndWorkspaceMemory(const ge::NodeP
      GELOGE(ret, "Assign atomic workspace memory failed, node is %s.", node_op_desc->GetName().c_str());
      return ret;
    }
  } else {
    GELOGW("Current atomic node %s does not have attr ATOMIC_WORKSPACE_INFO.", node->GetName().c_str());
  }
  return SUCCESS;
@@ -1186,6 +1244,12 @@ Status GraphMemoryAssigner::AssignFusionAtomicWorkspaceMemory(const ge::OpDescPt
 }
 Status GraphMemoryAssigner::CheckOffset() {
  std::map<std::string, std::string> anchor_to_symbol;
  std::map<std::string, std::list<NodeIndexIO>> symbol_to_anchors;
  if (GraphUtils::GetRefMapping(compute_graph_, symbol_to_anchors, anchor_to_symbol) != GRAPH_SUCCESS) {
    GELOGE(FAILED, "Get ref-mapping for graph %s failed.", compute_graph_->GetName().c_str());
    return FAILED;
  }
  for (const ge::NodePtr &node : compute_graph_->GetAllNodes()) {
    GE_CHECK_NOTNULL(node->GetOpDesc());
    vector<int64_t> input_list = node->GetOpDesc()->GetInputOffset();
@@ -1195,13 +1259,26 @@ Status GraphMemoryAssigner::CheckOffset() {
        return FAILED;
      }
    }
    bool need_update_output = false;
    vector<int64_t> output_list = node->GetOpDesc()->GetOutputOffset();
    for (auto output : output_list) {
      if (output == ge::kInvalidOffset) {
    for (uint32_t i = 0; i < output_list.size(); ++i) {
      if (output_list[i] == ge::kInvalidOffset) {
        GELOGE(FAILED, "Invalid offset in node: %s output: %ld.", node->GetName().c_str(), ge::kInvalidOffset);
        return FAILED;
      }
      if (node->GetType() == IDENTITY || node->GetType() == READVARIABLEOP) {
        auto symbol_offset = GetSymbolOutputOffset(anchor_to_symbol, symbol_to_anchors, node, i);
        if (symbol_offset != ge::kInvalidOffset && output_list[i] != symbol_offset) {
          output_list[i] = symbol_offset;
          need_update_output = true;
        }
      }
    }
    if (need_update_output) {
      node->GetOpDesc()->SetOutputOffset(output_list);
    }
    vector<int64_t> workspace_list = node->GetOpDesc()->GetWorkspace();
    for (auto workspace : workspace_list) {
      if (workspace == ge::kInvalidOffset) {
@@ -1280,6 +1357,7 @@ ge::Status GraphMemoryAssigner::UpdateOpInputOffset(const NodePtr &node, vector<
  vector<int64_t> memory_type;
  auto tmp_op_desc = node->GetOpDesc();
  origin_input_list = tmp_op_desc->GetInputOffset();
  int64_t valid_input_index = 0;
  bool has_mem_type_attr = ge::AttrUtils::GetListInt(tmp_op_desc, ATTR_NAME_INPUT_MEM_TYPE_LIST, memory_type);
  for (const auto &anchor : node->GetAllInDataAnchors()) {
    vector<int64_t> output_list;
@@ -1293,8 +1371,9 @@ ge::Status GraphMemoryAssigner::UpdateOpInputOffset(const NodePtr &node, vector<
    auto last_peer_out_op_desc = last_peer_out_node->GetOpDesc();
    GE_CHECK_NOTNULL(last_peer_out_op_desc);
    output_list = last_peer_out_op_desc->GetOutputOffset();
    if (output_list.size() > static_cast<size_t>(peer_out_anchor->GetIdx())) {
      auto input_index = anchor->GetIdx();
    auto out_index = static_cast<unsigned long>(peer_out_anchor->GetIdx());
    if (output_list.size() > static_cast<size_t>(out_index)) {
      int64_t input_offset = output_list.at(out_index);
      if (has_mem_type_attr) {
        auto input_size = tmp_op_desc->GetInputsSize();
        auto ori_input_offset_list_size = origin_input_list.size();
@@ -1308,26 +1387,21 @@ ge::Status GraphMemoryAssigner::UpdateOpInputOffset(const NodePtr &node, vector<
        }
        // not hbm keep orignal inputoffest
        // hbm inputoffset = original inputoffset + outputoffset
        input_list.emplace_back(memory_type[input_index] == RT_MEMORY_L1
                                  ? origin_input_list[input_index]
                                  : origin_input_list[input_index] + output_list.at(peer_out_anchor->GetIdx()));
        GELOGI("fuison: node[%s] input[%d] is set from node[%s] out index[%d] offset[%ld]",
               tmp_op_desc->GetName().c_str(), input_index,
               peer_out_anchor->GetOwnerNode()->GetOpDesc()->GetName().c_str(), peer_out_anchor->GetIdx(),
               input_list.back());
      } else {
        int64_t output_offset = output_list.at(peer_out_anchor->GetIdx());
        const auto &in_node = GetKnownInputNode(peer_out_anchor->GetOwnerNode());
        if (in_node->GetType() == CONSTANT) {
          GeTensorDesc tensor_desc = tmp_op_desc->GetInputDesc(input_index);
          GE_CHK_STATUS(TensorUtils::GetDataOffset(tensor_desc, output_offset));
        }
        GELOGI("node[%s] input[%d] is set from node[%s] out index[%d] offset[%ld]", tmp_op_desc->GetName().c_str(),
               input_index, peer_out_anchor->GetOwnerNode()->GetOpDesc()->GetName().c_str(), peer_out_anchor->GetIdx(),
               output_offset);
        input_list.emplace_back(output_offset);
        input_offset = (memory_type[valid_input_index] == RT_MEMORY_L1
                          ? origin_input_list[valid_input_index]
                          : origin_input_list[valid_input_index] + output_list.at(out_index));
      }
      const auto &in_node = GetKnownInputNode(peer_out_anchor->GetOwnerNode());
      if (in_node->GetType() == CONSTANT) {
        GeTensorDesc tensor_desc = tmp_op_desc->GetInputDesc(static_cast<uint32_t>(anchor->GetIdx()));
        GE_CHK_STATUS(TensorUtils::GetDataOffset(tensor_desc, input_offset));
      }
      GELOGI("%s node[%s] input[%d] is set from node[%s] out index[%lu] offset[%ld]",
             has_mem_type_attr == true ? "Fusion" : "", tmp_op_desc->GetName().c_str(), valid_input_index,
             peer_out_anchor->GetOwnerNode()->GetOpDesc()->GetName().c_str(), out_index, input_offset);
      input_list.emplace_back(input_offset);
      valid_input_index++;
    }
  }
  return ge::SUCCESS;
@@ -1422,83 +1496,49 @@ Status GraphMemoryAssigner::SetIndependentAtomicAttr(const ge::NodePtr &node, in
  return SUCCESS;
 }
 Status GraphMemoryAssigner::SetLoopGraphAtomicAttr(const ge::NodePtr &node, int64_t atomic_mem_start) {
  // set the address attr of atomic clean operator for loop graph
  int64_t atomic_mem_size = memory_offset_[0].mem_offset_ - atomic_mem_start;
  GELOGI("SetLoopGraphAtomicAttr beign, atomic_addr_clean start size is %ld, mem_size is %ld, mem_offset is %zu.",
         atomic_mem_start, atomic_mem_size, memory_offset_[0].mem_offset_);
  const auto &in_control_anchor = node->GetInControlAnchor();
  if (atomic_mem_size != 0 && in_control_anchor != nullptr) {
    for (auto &peer_out_control_anchor : in_control_anchor->GetPeerOutControlAnchors()) {
      if (peer_out_control_anchor == nullptr) {
        continue;
      }
      auto peer_out_node = peer_out_control_anchor->GetOwnerNode();
      auto peer_out_node_desc = peer_out_node->GetOpDesc();
      if (peer_out_node_desc == nullptr) {
        continue;
      }
      GELOGD("SetLoopGraphAtomicAttr,  node is %s, op type is %s.", peer_out_node_desc->GetName().c_str(),
             peer_out_node_desc->GetType().c_str());
      if (peer_out_node_desc->GetType() == ATOMICADDRCLEAN) {
        GE_CHK_STATUS_EXEC(SetAtomicCleanAttr(peer_out_node, {atomic_mem_start}, {atomic_mem_size}),
                           GELOGE(FAILED, "SetAtomicCleanAttr failed.");
                           return FAILED);
      }
    }
  }
  return SUCCESS;
 }
 ge::Status GraphMemoryAssigner::SetAtomicCleanAttr(const NodePtr &n, const vector<int64_t> &atomic_mem_start,
 ge::Status GraphMemoryAssigner::SetAtomicCleanAttr(const NodePtr &node, const vector<int64_t> &atomic_mem_start,
                                                   const vector<int64_t> &atomic_mem_size) {
  for (ge::NodePtr &node : compute_graph_->GetAllNodes()) {
    auto node_op_desc = node->GetOpDesc();
    GE_IF_BOOL_EXEC(node_op_desc == nullptr, continue);
    if (((n != nullptr) && (node->GetName() == n->GetName())) ||
        ((n == nullptr) && (node_op_desc->GetType() == ATOMICADDRCLEAN))) {
      vector<int64_t> workspace_vector = node_op_desc->GetWorkspace();
      vector<int64_t> workspace_byte_vector = node_op_desc->GetWorkspaceBytes();
      workspace_vector.insert(workspace_vector.end(), atomic_mem_start.begin(), atomic_mem_start.end());
      workspace_byte_vector.insert(workspace_byte_vector.end(), atomic_mem_size.begin(), atomic_mem_size.end());
      node_op_desc->SetWorkspace(workspace_vector);
      node_op_desc->SetWorkspaceBytes(workspace_byte_vector);
      std::vector<int64_t> mem_start_vector;
      // If GetListInt fail, mem_start_vector is empty.
      (void)ge::AttrUtils::GetListInt(node_op_desc, ATTR_NAME_AUTOMIC_ADD_START, mem_start_vector);
      mem_start_vector.insert(mem_start_vector.end(), atomic_mem_start.begin(), atomic_mem_start.end());
      GE_CHK_BOOL_EXEC(ge::AttrUtils::SetListInt(node_op_desc, ATTR_NAME_AUTOMIC_ADD_START, mem_start_vector),
                       GELOGE(FAILED, "SetListInt failed.");
                       return FAILED);
      std::vector<int64_t> mem_size_vector;
      // If GetListInt fail, mem_size_vector is empty.
      (void)ge::AttrUtils::GetListInt(node_op_desc, ATTR_NAME_AUTOMIC_ADD_MEM_SIZE, mem_size_vector);
      mem_size_vector.insert(mem_size_vector.end(), atomic_mem_size.begin(), atomic_mem_size.end());
      GE_CHK_BOOL_EXEC(ge::AttrUtils::SetListInt(node_op_desc, ATTR_NAME_AUTOMIC_ADD_MEM_SIZE, mem_size_vector),
                       GELOGE(FAILED, "SetListInt failed.");
                       return FAILED);
      std::stringstream ss;
      for (auto iter : atomic_mem_start) {
        ss << iter << " ";
      }
      string atomic_mem_start_str = ss.str();
      ss.clear();
      ss.str("");
      for (auto iter : atomic_mem_size) {
        ss << iter << " ";
      }
      string atomic_mem_size_str = ss.str();
      GELOGI("[IMAS]SetAtomicCleanAttr : Set graph[%s] atomic_node[%s] output offset [%s] size[%s] streamid[%ld]",
             node->GetOwnerComputeGraph()->GetName().c_str(), node_op_desc->GetName().c_str(),
             atomic_mem_start_str.c_str(), atomic_mem_size_str.c_str(), node->GetOpDesc()->GetStreamId());
  auto node_op_desc = node->GetOpDesc();
  if (node_op_desc != nullptr) {
    GELOGD("Node %s, set atomic clean attr start.", node->GetName().c_str());
    vector<int64_t> workspace_vector = node_op_desc->GetWorkspace();
    vector<int64_t> workspace_byte_vector = node_op_desc->GetWorkspaceBytes();
    workspace_vector.insert(workspace_vector.end(), atomic_mem_start.begin(), atomic_mem_start.end());
    workspace_byte_vector.insert(workspace_byte_vector.end(), atomic_mem_size.begin(), atomic_mem_size.end());
    node_op_desc->SetWorkspace(workspace_vector);
    node_op_desc->SetWorkspaceBytes(workspace_byte_vector);
    std::vector<int64_t> mem_start_vector;
    // If GetListInt fail, mem_start_vector is empty.
    (void)ge::AttrUtils::GetListInt(node_op_desc, ATTR_NAME_AUTOMIC_ADD_START, mem_start_vector);
    mem_start_vector.insert(mem_start_vector.end(), atomic_mem_start.begin(), atomic_mem_start.end());
    GE_CHK_BOOL_EXEC(ge::AttrUtils::SetListInt(node_op_desc, ATTR_NAME_AUTOMIC_ADD_START, mem_start_vector),
                     GELOGE(FAILED, "SetListInt failed.");
                     return FAILED);
    std::vector<int64_t> mem_size_vector;
    // If GetListInt fail, mem_size_vector is empty.
    (void)ge::AttrUtils::GetListInt(node_op_desc, ATTR_NAME_AUTOMIC_ADD_MEM_SIZE, mem_size_vector);
    mem_size_vector.insert(mem_size_vector.end(), atomic_mem_size.begin(), atomic_mem_size.end());
    GE_CHK_BOOL_EXEC(ge::AttrUtils::SetListInt(node_op_desc, ATTR_NAME_AUTOMIC_ADD_MEM_SIZE, mem_size_vector),
                     GELOGE(FAILED, "SetListInt failed.");
                     return FAILED);
    std::stringstream ss;
    for (auto iter : atomic_mem_start) {
      ss << iter << " ";
    }
    string atomic_mem_start_str = ss.str();
    ss.clear();
    ss.str("");
    for (auto iter : atomic_mem_size) {
      ss << iter << " ";
    }
    string atomic_mem_size_str = ss.str();
    GELOGI("[IMAS]SetAtomicCleanAttr : Set graph[%s] atomic_node[%s] output offset [%s] size[%s] streamid[%ld]",
           node->GetOwnerComputeGraph()->GetName().c_str(), node_op_desc->GetName().c_str(),
           atomic_mem_start_str.c_str(), atomic_mem_size_str.c_str(), node->GetOpDesc()->GetStreamId());
  }
  return SUCCESS;
 }
--- a/src/ge/graph/build/memory/graph_mem_assigner.h
+++ b/src/ge/graph/build/memory/graph_mem_assigner.h
@@ -135,6 +135,9 @@ class GraphMemoryAssigner {
  ge::Status ReAssignAtomicMemory(bool is_loop_graph);
  ge::Status FilterAtomicNodesForMemoryAssign(std::map<NodePtr, vector<NodePtr>> &normal_atomic_nodes_map,
                                              std::vector<NodePtr> &connecting_output_atomic_nodes);
  ge::Status AssignContinuousInputMemory(const ge::NodePtr &node, int64_t &continuous_mem_start,
                                         int64_t &continuous_mem_size);
@@ -165,16 +168,12 @@ class GraphMemoryAssigner {
  ge::Status SetIndependentAtomicAttr(const ge::NodePtr &node, int64_t atomic_mem_start,
                                      const std::vector<int64_t> &mem_offset_end);
  ///
  /// @brief set loop graph atomic attr
  /// @param node, atomic memory assignment start offset
  /// @param atomic_mem_start: atomic op memory start address
  ///
  ge::Status SetLoopGraphAtomicAttr(const ge::NodePtr &node, int64_t atomic_mem_start);
  ge::Status SetAtomicCleanAttr(const ge::NodePtr &n, const std::vector<int64_t> &atomic_mem_start,
  ge::Status SetAtomicCleanAttr(const ge::NodePtr &node, const std::vector<int64_t> &atomic_mem_start,
                                const std::vector<int64_t> &atomic_mem_size);
  ge::Status IsIndependentAtomicClean(const ge::NodePtr &node, bool &is_independent_atomic_clean_node);
  void AlignMemOffset(const int64_t &mem_align_size);
  ge::Status UpdateOpInputOffset(const NodePtr &node, vector<int64_t> &input_list) const;
--- a/src/ge/graph/build/task_generator.cc
+++ b/src/ge/graph/build/task_generator.cc
@@ -266,6 +266,14 @@ Status TaskGenerator::GenerateTask(RunContext &run_context, ComputeGraphPtr &gra
  if (is_unknown_shape) {
    GE_CHK_STATUS_RET(SetUnknownShapeStream(run_context, stream), "Set unknown shape stream failed.");
  }
  std::function<void()> callback = [&]() {
    if (is_unknown_shape) {
      if (DestroyUnknownShapeStream(run_context, stream) != SUCCESS) {
        GELOGE(FAILED, "Destory unknown shape stream failed.");
      }
    }
  };
  GE_MAKE_GUARD(release, callback);
  for (auto &node : graph->GetNodes(graph->GetGraphUnknownFlag())) {
    OpDescPtr op_desc = node->GetOpDesc();
@@ -352,9 +360,6 @@ Status TaskGenerator::GenerateTask(RunContext &run_context, ComputeGraphPtr &gra
           op_kernel_lib_name.c_str(), name.c_str(), type.c_str(), op_id, stream_id,
           task_list_size_after - task_list_size_before);
  }
  if (is_unknown_shape) {
    GE_CHK_STATUS_RET(DestroyUnknownShapeStream(run_context, stream), "Destory unknown shape stream failed.");
  }
  GE_TIMESTAMP_CALLNUM_EVENT_END(GenerateTask, "GraphBuild::GenerateTask");
  return SUCCESS;
 }
@@ -532,6 +537,9 @@ Status TaskGenerator::MarkNodeAndSetIndex(ComputeGraphPtr &graph) {
      (void)ge_lib->DNNEngineManagerObj().GetDNNEngineName(node);
    }
    (void)op_desc->DelAttr(kIsFirstNode);
    (void)op_desc->DelAttr(kIsLastNode);
    all_stream_ops[op_desc->GetStreamId()].emplace_back(op_desc);
  }
@@ -645,8 +653,6 @@ Status TaskGenerator::AutoFindBpOpIndex(const ComputeGraphPtr &graph, ProfilingP
                                        vector<uint32_t> &all_reduce_nodes) const {
  GELOGI("Start AutoFindBpOpIndex");
  NodePtr bp_node = nullptr;
  uint32_t last_bp = 0;
  uint32_t iter_end = 0;
  uint32_t current_idx = 0;
  for (auto &node : graph->GetNodes(graph->GetGraphUnknownFlag())) {
    OpDescPtr op_desc = node->GetOpDesc();
@@ -662,20 +668,40 @@ Status TaskGenerator::AutoFindBpOpIndex(const ComputeGraphPtr &graph, ProfilingP
      all_reduce_nodes.emplace_back(current_idx);
      GELOGI("Allreduce name %s, idx %u", op_desc->GetName().c_str(), current_idx);
    }
    if (op_desc->GetType() == NETOUTPUT) {
    if (op_desc->GetName() == NODE_NAME_NET_OUTPUT) {
      if (bp_node == nullptr) {
        bp_node = node;
      }
      iter_end = current_idx;
      GELOGI("Iter end name %s, idx %u", op_desc->GetName().c_str(), iter_end);
    }
    if (graph->GetNeedIteration()) {
      if (op_desc->GetName() == NODE_NAME_NET_OUTPUT + '_' + NODE_NAME_STREAM_SWITCH + "_StreamActive") {
        profiling_point.end_index.insert(current_idx);
        GELOGI("Iter end name %s, idx %u, from Node_Output_IteratorCtrl_StreamSwitch_StreamActive",
               op_desc->GetName().c_str(), current_idx);
      }
      if (op_desc->GetName() == NODE_NAME_FLOWCTRL_LOOP_ASSIGN) {
        profiling_point.end_index.insert(current_idx);
        GELOGI("Iter end name %s, idx %u, from FlowCtrl_LoopCond_ASSIGN", op_desc->GetName().c_str(), current_idx);
      }
    } else {
      if (op_desc->GetName() == NODE_NAME_NET_OUTPUT) {
        profiling_point.end_index.insert(current_idx);
        GELOGI("Iter end name %s, idx %u, from NETOUTPUT", op_desc->GetName().c_str(), current_idx);
      }
    }
  }
  profiling_point.end_index = iter_end;
  if (bp_node == nullptr) {
    GELOGW("not find bp_node.");
    return SUCCESS;
  }
  profiling_point.bp_index = FindLastBpFromBpNode(graph, bp_node);
  return SUCCESS;
 }
 uint32_t TaskGenerator::FindLastBpFromBpNode(const ComputeGraphPtr &graph, const NodePtr &bp_node) const {
  uint32_t last_bp = 0;
  OpDescPtr bp_op_desc = nullptr;
  for (auto &in_anchor : bp_node->GetAllInDataAnchors()) {
    auto out_anchor = in_anchor->GetPeerOutAnchor();
@@ -691,7 +717,7 @@ Status TaskGenerator::AutoFindBpOpIndex(const ComputeGraphPtr &graph, ProfilingP
  }
  GE_CHECK_NOTNULL(bp_op_desc);
  current_idx = 0;
  uint32_t current_idx = 0;
  for (auto &node : graph->GetNodes(graph->GetGraphUnknownFlag())) {
    OpDescPtr op_desc = node->GetOpDesc();
    GE_CHECK_NOTNULL(op_desc);
@@ -702,8 +728,7 @@ Status TaskGenerator::AutoFindBpOpIndex(const ComputeGraphPtr &graph, ProfilingP
      break;
    }
  }
  profiling_point.bp_index = last_bp;
  return SUCCESS;
  return last_bp;
 }
 Status TaskGenerator::FindFpOfEnv(const ComputeGraphPtr &graph, const std::string &fp_point_str,
@@ -734,7 +759,6 @@ Status TaskGenerator::FindBpOfEnv(const ComputeGraphPtr &graph, const std::strin
                                  ProfilingPoint &profiling_point, vector<uint32_t> &all_reduce_nodes) const {
  GELOGI("Start FindBpOfEnv");
  uint32_t current_idx = 0;
  uint32_t iter_end = 0;
  uint32_t last_bp = 0;
  for (auto &node : graph->GetNodes(graph->GetGraphUnknownFlag())) {
    OpDescPtr op_desc = node->GetOpDesc();
@@ -745,10 +769,23 @@ Status TaskGenerator::FindBpOfEnv(const ComputeGraphPtr &graph, const std::strin
      continue;
    }
    if (op_desc->GetType() == NETOUTPUT) {
      iter_end = current_idx;
      GELOGI("Iter end name %s, idx %u", op_desc->GetName().c_str(), iter_end);
    if (graph->GetNeedIteration()) {
      if (op_desc->GetName() == NODE_NAME_NET_OUTPUT + '_' + NODE_NAME_STREAM_SWITCH + "_StreamActive") {
        profiling_point.end_index.insert(current_idx);
        GELOGI("Iter end name %s, idx %u, from Node_Output_IteratorCtrl_StreamSwitch_StreamActive",
               op_desc->GetName().c_str(), current_idx);
      }
      if (op_desc->GetName() == NODE_NAME_FLOWCTRL_LOOP_ASSIGN) {
        profiling_point.end_index.insert(current_idx);
        GELOGI("Iter end name %s, idx %u, from FlowCtrl_LoopCond_ASSIGN", op_desc->GetName().c_str(), current_idx);
      }
    } else {
      if (op_desc->GetName() == NODE_NAME_NET_OUTPUT) {
        profiling_point.end_index.insert(current_idx);
        GELOGI("Iter end name %s, idx %u, from NETOUTPUT", op_desc->GetName().c_str(), current_idx);
      }
    }
    if (op_desc->GetType() == HCOMALLREDUCE || op_desc->GetType() == HVDCALLBACKALLREDUCE) {
      all_reduce_nodes.emplace_back(current_idx);
      GELOGI("Allreduce name %s, idx %u", op_desc->GetName().c_str(), current_idx);
@@ -760,7 +797,6 @@ Status TaskGenerator::FindBpOfEnv(const ComputeGraphPtr &graph, const std::strin
  }
  profiling_point.bp_index = last_bp;
  profiling_point.end_index = iter_end;
  return SUCCESS;
 }
@@ -857,7 +893,7 @@ Status TaskGenerator::InsertProfilingTaskBefore(const OpDescPtr &op_desc, const
  bool is_profiling = (profiling_mode != nullptr) || ProfilingManager::Instance().ProfilingOn() ||
                      ProfilingManager::Instance().ProfilingTrainingTraceOn();
  if (!is_profiling || (profiling_point.fp_index == 0) || (profiling_point.bp_index == 0) ||
      (profiling_point.end_index == 0)) {
      (profiling_point.end_index.empty())) {
    return SUCCESS;
  }
  if (profiling_point.fp_index == node_index) {
@@ -914,7 +950,7 @@ Status TaskGenerator::InsertProfilingTaskAfter(const OpDescPtr &op_desc, const P
  bool is_profiling = (profiling_mode != nullptr) || ProfilingManager::Instance().ProfilingOn() ||
                      ProfilingManager::Instance().ProfilingTrainingTraceOn();
  if (!is_profiling || (profiling_point.fp_index == 0) || (profiling_point.bp_index == 0) ||
      (profiling_point.end_index == 0)) {
      (profiling_point.end_index.empty())) {
    return SUCCESS;
  }
  if (profiling_point.bp_index == node_index) {
@@ -928,7 +964,7 @@ Status TaskGenerator::InsertProfilingTaskAfter(const OpDescPtr &op_desc, const P
    bp_log_def->set_notify(false);
    task_def_list.emplace_back(bp_task_def);
  }
  if (profiling_point.end_index == node_index) {
  if (profiling_point.end_index.find(node_index) != profiling_point.end_index.end()) {
    GELOGI("The iteration end operator is %s, idx %u", op_desc->GetName().c_str(), node_index);
    TaskDef end_task_def;
    end_task_def.set_type(RT_MODEL_TASK_PROFILER_TRACE);
--- a/src/ge/graph/build/task_generator.h
+++ b/src/ge/graph/build/task_generator.h
@@ -36,7 +36,7 @@ class OpsKernelManager;
 struct ProfilingPoint {
  uint32_t fp_index = 0;
  uint32_t bp_index = 0;
  uint32_t end_index = 0;
  std::set<uint32_t> end_index;
 };
 // Describes infos needed by generate task for fusion node
 struct FusionTaskInfo {
@@ -112,6 +112,7 @@ class TaskGenerator {
  Status AutoFindFpOpIndex(const ComputeGraphPtr &graph, ProfilingPoint &profiling_point) const;
  Status AutoFindBpOpIndex(const ComputeGraphPtr &graph, ProfilingPoint &profiling_point,
                           vector<uint32_t> &all_reduce_nodes) const;
  uint32_t FindLastBpFromBpNode(const ComputeGraphPtr &graph, const NodePtr &bp_node) const;
  Status FindFpOfEnv(const ComputeGraphPtr &graph, const std::string &fp_point_str,
                     ProfilingPoint &profiling_point) const;
--- a/src/ge/graph/common/ge_call_wrapper.h
+++ b/src/ge/graph/common/ge_call_wrapper.h
@@ -18,8 +18,6 @@
 #define GE_GE_CALL_WRAPPER_H_
 #include "framework/common/debug/ge_log.h"
 /*lint --emacro((773),GE_TIMESTAMP_START)*/
 /*lint -esym(773,GE_TIMESTAMP_START)*/
 #define GE_TIMESTAMP_START(stage) uint64_t startUsec_##stage = ge::GetCurrentTimestap()
 #define GE_TIMESTAMP_END(stage, stage_name)                                          \
--- a/src/ge/graph/execute/graph_execute.cc
+++ b/src/ge/graph/execute/graph_execute.cc
@@ -592,7 +592,17 @@ Status GraphExecutor::GetAIPPInfo(uint32_t model_id, uint32_t index, AippConfigI
    GELOGW("GetAIPPInfo is not success.");
    return ret;
  }
  return SUCCESS;
 }
 Status GraphExecutor::GetAippType(uint32_t model_id, uint32_t index, InputAippType &type, size_t &aipp_index) {
  auto model_manager = ge::ModelManager::GetInstance();
  GE_CHECK_NOTNULL(model_manager);
  Status ret = model_manager->GetAippType(model_id, index, type, aipp_index);
  if (ret != SUCCESS) {
    GELOGW("Get aipp type is not success.");
    return ret;
  }
  return SUCCESS;
 }
--- a/src/ge/graph/execute/graph_execute.h
+++ b/src/ge/graph/execute/graph_execute.h
@@ -75,6 +75,8 @@ class GraphExecutor {
  static Status GetAIPPInfo(uint32_t model_id, uint32_t index, AippConfigInfo &aipp_info);
  static Status GetAippType(uint32_t model_id, uint32_t index, InputAippType &type, size_t &aipp_index);
  ///
  /// @ingroup ge
  /// @brief Get dynamic batch_info
--- a/src/ge/graph/load/new_model_manager/data_dumper.cc
+++ b/src/ge/graph/load/new_model_manager/data_dumper.cc
@@ -671,12 +671,32 @@ Status DataDumper::LoadDumpInfo() {
  op_mapping_info.set_flag(kAicpuLoadFlag);
  op_mapping_info.set_dump_step(dump_properties_.GetDumpStep());
  SetOpMappingLoopAddr(global_step_, loop_per_iter_, loop_cond_, op_mapping_info);
  GELOGI("Dump step is %s and dump path  is %s in load dump info", dump_properties_.GetDumpStep().c_str(),
         dump_path.c_str());
  GELOGI("Dump step is %s and dump path is %s dump model is %s in load dump info",
         dump_properties_.GetDumpStep().c_str(), dump_path.c_str(), dump_list_key.c_str());
  auto ret = BuildTaskInfo(op_mapping_info);
  if (ret != SUCCESS) {
    GELOGE(ret, "Build task info failed");
    return ret;
  }
  SetEndGraphIdToAicpu(end_graph_task_id_, end_graph_stream_id_, op_mapping_info);
  SetOpDebugIdToAicpu(op_debug_task_id_, op_debug_stream_id_, op_debug_addr_, op_mapping_info);
  if (!op_list_.empty() || is_op_debug_ || is_end_graph_) {
    auto ret = ExecuteLoadDumpInfo(op_mapping_info);
    if (ret != SUCCESS) {
      GELOGE(ret, "Execute load dump info failed");
      return ret;
    }
  }
  return SUCCESS;
 }
 Status DataDumper::BuildTaskInfo(aicpu::dump::OpMappingInfo &op_mapping_info) {
  for (const auto &op_iter : op_list_) {
    auto op_desc = op_iter.op;
    GELOGD("Op %s in model %s begin to add task in op_mapping_info", op_desc->GetName().c_str(), dump_list_key.c_str());
    GELOGD("Op %s in model begin to add task in op_mapping_info", op_desc->GetName().c_str());
    aicpu::dump::Task task;
    task.set_end_graph(false);
    task.set_task_id(op_iter.task_id);
@@ -695,16 +715,12 @@ Status DataDumper::LoadDumpInfo() {
    }
    if (dump_properties_.GetDumpMode() == kDumpInput) {
      if (op_iter.is_task) {
        Status ret = DumpInput(op_iter, task);
        if (ret != SUCCESS) {
          GELOGE(ret, "Dump input failed");
          return ret;
        }
        GE_CHK_STATUS_RET(DumpInput(op_iter, task), "Dump input failed");
      }
      op_mapping_info.mutable_task()->Add(std::move(task));
      continue;
    }
    if (dump_properties_.GetDumpMode() == kDumpAll) {
    if (dump_properties_.GetDumpMode() == kDumpAll || is_op_debug_) {
      auto ret = DumpOutput(op_iter, task);
      if (ret != SUCCESS) {
        GELOGE(ret, "Dump output failed when in dumping all");
@@ -721,18 +737,6 @@ Status DataDumper::LoadDumpInfo() {
      continue;
    }
  }
  SetEndGraphIdToAicpu(end_graph_task_id_, end_graph_stream_id_, op_mapping_info);
  SetOpDebugIdToAicpu(op_debug_task_id_, op_debug_stream_id_, op_debug_addr_, op_mapping_info);
  if (!op_list_.empty() || is_op_debug_) {
    auto ret = ExecuteLoadDumpInfo(op_mapping_info);
    if (ret != SUCCESS) {
      GELOGE(ret, "Execute load dump info failed");
      return ret;
    }
  }
  return SUCCESS;
 }
@@ -740,7 +744,6 @@ void DataDumper::SetEndGraphIdToAicpu(uint32_t task_id, uint32_t stream_id,
                                      aicpu::dump::OpMappingInfo &op_mapping_info) {
  if (dump_properties_.GetDumpMode() == kDumpOutput || dump_properties_.GetDumpMode() == kDumpInput ||
      dump_properties_.GetDumpMode() == kDumpAll) {
    GELOGI("Add end_graph_info to aicpu, task_id is %u, stream_id is %u", end_graph_task_id_, end_graph_stream_id_);
    aicpu::dump::Task task;
    task.set_end_graph(true);
    task.set_task_id(end_graph_task_id_);
@@ -748,6 +751,14 @@ void DataDumper::SetEndGraphIdToAicpu(uint32_t task_id, uint32_t stream_id,
    task.mutable_op()->set_op_name(NODE_NAME_END_GRAPH);
    task.mutable_op()->set_op_type(ENDGRAPH);
    op_mapping_info.mutable_task()->Add(std::move(task));
    is_end_graph_ = true;
    if (op_mapping_info.model_name_param_case() == aicpu::dump::OpMappingInfo::kModelName) {
      GELOGI("Add end_graph_info to aicpu, model_name is %s, task_id is %u, stream_id is %u",
             op_mapping_info.model_name().c_str(), end_graph_task_id_, end_graph_stream_id_);
      return;
    }
    GELOGI("Add end_graph_info to aicpu, task_id is %u, stream_id is %u", end_graph_task_id_, end_graph_stream_id_);
  }
 }
--- a/src/ge/graph/load/new_model_manager/data_dumper.h
+++ b/src/ge/graph/load/new_model_manager/data_dumper.h
@@ -116,6 +116,7 @@ class DataDumper {
  std::vector<InnerDumpInfo> op_list_;
  uint32_t end_graph_task_id_ = 0;
  uint32_t end_graph_stream_id_ = 0;
  bool is_end_graph_ = false;
  std::multimap<std::string, InnerInputMapping> input_map_;
  bool load_flag_;
  uint32_t device_id_;
@@ -133,6 +134,8 @@ class DataDumper {
  DumpProperties dump_properties_;
  // Build task info of op mapping info
  Status BuildTaskInfo(aicpu::dump::OpMappingInfo &op_mapping_info);
  Status DumpOutput(const InnerDumpInfo &inner_dump_info, aicpu::dump::Task &task);
  Status DumpRefOutput(const DataDumper::InnerDumpInfo &inner_dump_info, aicpu::dump::Output &output, size_t i,
                       const std::string &node_name_index);
Author	SHA1	Message	Date
mindspore-ci-bot	d2ab1c2819	!504 sync-code-1203 From: @HW_KK Reviewed-by: @liujunzhu,@youui Signed-off-by: @youui	4 years ago
wuweikang	078e3677b5	sync-code-1203	4 years ago
mindspore-ci-bot	433521ddbf	!149 modify cmakelists Merge pull request !149 from HW_KK/r1.0	4 years ago
wuweikang	6554560693	modifly cmakelists	4 years ago
mindspore-ci-bot	806ee7f877	!148 libpath modification for atlas env Merge pull request !148 from HW_KK/r1.0	4 years ago
wuweikang	8cdc787496	libpath modification for atlas env	4 years ago
mindspore-ci-bot	5d3588ed36	!122 Mindspore support to compile at ascendcl Merge pull request !122 from zhoufeng/r1.0	4 years ago
zhoufeng	af33ab7589	Mindspore support to compile at ascendcl Signed-off-by: zhoufeng <zhoufeng54@huawei.com>	4 years ago
mindspore-ci-bot	1b479e5d03	!106 speed up third party download via domestic source Merge pull request !106 from yanghaoran/r1.0	4 years ago
yanghaoran	0a529fa225	speed up third party download via domestic source	4 years ago
mindspore-ci-bot	87f4fa2228	!93 Handle empty label resource Merge pull request !93 from zhoufeng/r1.0	4 years ago
zhoufeng	b19551f3db	handle empty label resource Signed-off-by: zhoufeng <zhoufeng54@huawei.com>	4 years ago
mindspore-ci-bot	dfd23235fa	!88 sync-from-trunk-to-blue-zone-1012-c75b220spc1009 Merge pull request !88 from HW_KK/r1.0	4 years ago
wuweikang	4ce0f3386f	graphengine-281-sync-from-trunk-to-blue-zone-1012-c75b220spc1009	4 years ago
mindspore-ci-bot	e14f112a6d	!87 sync from master to r1.0 Merge pull request !87 from HW_KK/r1.0	4 years ago
wuweikang	7337277390	sync from master to r1.0	4 years ago
mindspore-ci-bot	9e8585f8ac	!78 fix securec download links due to mistakes made by openeuler community Merge pull request !78 from yanghaoran/r1.0	4 years ago
yanghaoran	ce4f118c83	fix securec download links due to mistakes made by openeuler community	4 years ago