Add SetIoAddrs for UpdateArgs.

4 years ago · fbd31c4d02
--- a/ge/graph/load/new_model_manager/davinci_model.cc
+++ b/ge/graph/load/new_model_manager/davinci_model.cc
@@ -139,6 +139,7 @@ DavinciModel::DavinciModel(int32_t priority, const std::shared_ptr<ModelListener
      is_l1_fusion_enable_(false),
      is_first_execute_(true) {
  op_list_.clear();
  skt_info_ = {0, 0, 0, 0, nullptr, nullptr, {}, {}, {}, {}, {}, RT_KERNEL_DEFAULT, -1, 0, nullptr};
 }

 DavinciModel::~DavinciModel() {
@@ -261,6 +262,7 @@ Status DavinciModel::Assign(const GeModelPtr &ge_model) {
 /// @return: void
 ///
 void DavinciModel::Shrink() {
  skt_info_ = {0, 0, 0, 0, nullptr, nullptr, {}, {}, {}, {}, {}, RT_KERNEL_DEFAULT, -1, 0, nullptr};
  ge_model_.reset();  // delete object.
 }

--- a/ge/graph/load/new_model_manager/davinci_model.h
+++ b/ge/graph/load/new_model_manager/davinci_model.h
@@ -76,6 +76,25 @@ struct timeInfo {
  int64_t dumpEndTime;
 };

 // For super kernel
 struct SuperKernelTaskInfo {
  uint32_t last_block_dim;
  uint32_t last_args_size;
  uint32_t last_task_id;
  uint32_t last_stream_id;
  void *last_stream;
  void *last_sm_desc;
  std::vector<void *> kernel_list;
  std::vector<void *> arg_list;
  std::vector<uint32_t> dump_flag_list;
  std::vector<OpDescPtr> op_desc_list;
  std::vector<uintptr_t> dump_args_list;
  uint32_t last_dump_flag;
  int64_t last_group_key;
  uintptr_t last_dump_args;
  OpDescPtr last_op;
 };

 struct TaskMemInfo {
  int64_t input_size{0};
  int64_t output_size{0};
@@ -261,6 +280,9 @@ class DavinciModel {
  // get updated task info list
  std::vector<TaskInfoPtr> GetTaskList() { return task_list_; }

  // Modified from KernelTaskInfo.
  SuperKernelTaskInfo &GetSuperKernelTaskInfo() { return skt_info_; }

  ///
  /// @ingroup ge
  /// @brief get model input and output format
@@ -996,6 +1018,9 @@ class DavinciModel {

  std::multimap<uint32_t, uint32_t> op_id_map_;
  std::vector<ProfileInfo> profile_list_;

  // For super kernel.
  SuperKernelTaskInfo skt_info_;
 };
 }  // namespace ge
 #endif  // GE_GRAPH_LOAD_NEW_MODEL_MANAGER_DAVINCI_MODEL_H_
--- a/ge/graph/load/new_model_manager/task_info/hccl_task_info.cc
+++ b/ge/graph/load/new_model_manager/task_info/hccl_task_info.cc
@@ -59,40 +59,40 @@ Status HcclTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *davinci_m
  GELOGI("HcclTaskInfo Init, op_index is: %u", op_index);

  // Get HCCL op
  op_desc_ = davinci_model->GetOpByIndex(op_index);
  GE_CHECK_NOTNULL(op_desc_);
  const auto op_desc = davinci_model_->GetOpByIndex(op_index);
  GE_CHECK_NOTNULL(op_desc);

  // Create the kernel hccl infos
  CreateKernelHcclInfo(op_desc_);
  CreateKernelHcclInfo(op_desc);

  // Initialize the hccl_type of all kernel hccl info
  HcomOmeUtil::GetHcclType(task_def, kernel_hccl_infos_);

  // Only in Horovod scenario should get the inputName and GeShape
  ret = HcomOmeUtil::GetHorovodInputs(op_desc_, kernel_hccl_infos_);
  ret = HcomOmeUtil::GetHorovodInputs(op_desc, kernel_hccl_infos_);
  if (ret != SUCCESS) {
    GELOGE(ret, "davinci_model: GetHorovodInputs fail! domi error: %u", ret);
    return ret;
  }
  Status dmrt = HcomOmeUtil::GetHcclDataType(op_desc_, kernel_hccl_infos_);
  Status dmrt = HcomOmeUtil::GetHcclDataType(op_desc, kernel_hccl_infos_);
  if (dmrt != SUCCESS) {
    GELOGE(dmrt, "davinci_model: GetHcomDataType fail! domi error: %u", dmrt);
    return dmrt;
  }
  dmrt = HcomOmeUtil::GetHcclCount(op_desc_, kernel_hccl_infos_);
  dmrt = HcomOmeUtil::GetHcclCount(op_desc, kernel_hccl_infos_);
  if (dmrt != SUCCESS) {
    GELOGE(dmrt, "davinci_model: GetHcomCount fail! domi error: %u", dmrt);
    return dmrt;
  }
  // Only HCOMBROADCAST and HVDCALLBACKBROADCAST need to get the rootId
  dmrt = HcomOmeUtil::GetAllRootId(op_desc_, kernel_hccl_infos_);
  dmrt = HcomOmeUtil::GetAllRootId(op_desc, kernel_hccl_infos_);
  if (dmrt != SUCCESS) {
    GELOGE(dmrt, "davinci_model: Get rootId fail! domi error: %u", dmrt);
    return dmrt;
  }

  // GE's new process: hccl declares the number of streams required, creates a stream by GE, and sends it to hccl
  ret = SetFollowStream(op_desc_, davinci_model);
  ret = SetFollowStream(op_desc, davinci_model);
  if (ret != SUCCESS) {
    GELOGE(ret, "SetStream Fail.");
    return ret;
@@ -100,21 +100,22 @@ Status HcclTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *davinci_m

  if (davinci_model_->IsKnownNode()) {
    args_ = davinci_model_->GetCurrentArgsAddr(args_offset_);
    GELOGI("Known node %s args addr %p, offset %u.", op_desc_->GetName().c_str(), args_, args_offset_);
    GELOGI("Known node %s args addr %p, offset %u.", op_desc->GetName().c_str(), args_, args_offset_);
  }

  ret = SetAddrs(op_desc_, kernel_hccl_infos_);
  ret = SetAddrs(op_desc, kernel_hccl_infos_);
  if (ret != SUCCESS) {
    GELOGE(ret, "Setaddrs Fail.");
    return ret;
  }
  // GE's new process: hccl declares the need for Workspace size, and GE allocates Workspace
  ret = SetWorkspace(op_desc_, kernel_hccl_infos_);
  ret = SetWorkspace(op_desc, kernel_hccl_infos_);
  if (ret != SUCCESS) {
    GELOGE(ret, "SetWorkspace Fail.");
    return ret;
  }

  SetIoAddrs(op_desc);
  GELOGI("HcclTaskInfo Init Success");
  return SUCCESS;
 }
@@ -229,20 +230,19 @@ Status HcclTaskInfo::CalculateArgs(const domi::TaskDef &task_def, DavinciModel *
  return SUCCESS;
 }

 Status HcclTaskInfo::UpdateArgs() {
  GELOGI("HcclTaskInfo::UpdateArgs in.");
 void HcclTaskInfo::SetIoAddrs() {
  const RuntimeParam &rts_param = davinci_model_->GetRuntimeParam();
  input_data_addrs_ = ModelUtils::GetInputDataAddrs(rts_param, op_desc_);
  output_data_addrs_ = ModelUtils::GetOutputDataAddrs(rts_param, op_desc_);
  workspace_data_addrs_ = ModelUtils::GetWorkspaceDataAddrs(rts_param, op_desc_);

  vector<void *> io_addrs;
  io_addrs.insert(io_addrs.end(), input_data_addrs_.begin(), input_data_addrs_.end());
  io_addrs.insert(io_addrs.end(), output_data_addrs_.begin(), output_data_addrs_.end());
  io_addrs.insert(io_addrs.end(), workspace_data_addrs_.begin(), workspace_data_addrs_.end());

  davinci_model_->SetTotalIOAddrs(io_addrs);
  const auto input_data_addrs = ModelUtils::GetInputDataAddrs(rts_param, op_desc);
  const auto output_data_addrs = ModelUtils::GetOutputDataAddrs(rts_param, op_desc);
  const auto workspace_data_addrs = ModelUtils::GetWorkspaceDataAddrs(rts_param, op_desc);
  io_addrs_.insert(io_addrs_.end(), input_data_addrs.begin(), input_data_addrs.end());
  io_addrs_.insert(io_addrs_.end(), output_data_addrs.begin(), output_data_addrs.end());
  io_addrs_.insert(io_addrs_.end(), workspace_data_addrs.begin(), workspace_data_addrs.end());
 }

 Status HcclTaskInfo::UpdateArgs() {
  GELOGI("HcclTaskInfo::UpdateArgs in.");
  davinci_model_->SetTotalIOAddrs(io_addrs_);
  GELOGI("HcclTaskInfo::UpdateArgs success.");
  return SUCCESS;
 }
@@ -261,9 +261,11 @@ Status HcclTaskInfo::SetAddrs(const std::shared_ptr<OpDesc> &op_desc,
  HcclReduceOp op_type = HCCL_REDUCE_SUM;
  GE_CHECK_NOTNULL(davinci_model_);
  GELOGI("Calc opType[%s] input address before. Node name[%s]", op_desc->GetType().c_str(), op_desc->GetName().c_str());
  vector<void *> input_data_addrs;
  vector<void *> output_data_addrs;
  if (!davinci_model_->IsKnownNode()) {
    input_data_addrs_ = ModelUtils::GetInputDataAddrs(davinci_model_->GetRuntimeParam(), op_desc);
    output_data_addrs_ = ModelUtils::GetOutputDataAddrs(davinci_model_->GetRuntimeParam(), op_desc);
    input_data_addrs = ModelUtils::GetInputDataAddrs(davinci_model_->GetRuntimeParam(), op_desc);
    output_data_addrs = ModelUtils::GetOutputDataAddrs(davinci_model_->GetRuntimeParam(), op_desc);
  }
  void *input_data_addr = nullptr;
  void *output_data_addr = nullptr;
@@ -275,8 +277,8 @@ Status HcclTaskInfo::SetAddrs(const std::shared_ptr<OpDesc> &op_desc,
      output_data_addr = reinterpret_cast<void *>(reinterpret_cast<uint64_t *>(args_) + op_desc->GetInputsSize() + i);
      GELOGI("Hccl task info known input addr %p, output addr %p.", input_data_addr, output_data_addr);
    } else {
      input_data_addr = input_data_addrs_.empty() ? nullptr : input_data_addrs_[i];
      output_data_addr = output_data_addrs_.empty() ? nullptr : output_data_addrs_[i];
      input_data_addr = input_data_addrs.empty() ? nullptr : input_data_addrs[i];
      output_data_addr = output_data_addrs.empty() ? nullptr : output_data_addrs[i];
    }
    kernel_hccl_infos[i].inputDataAddr = input_data_addr;
    if (hccl_type == HCOMALLGATHER || hccl_type == HCOMRECEIVE || hccl_type == HVDCALLBACKALLGATHER) {
@@ -366,8 +368,8 @@ Status HcclTaskInfo::SetWorkspace(const std::shared_ptr<OpDesc> &op_desc,
        workspace_addr = reinterpret_cast<void *>(reinterpret_cast<uint64_t *>(args_) + op_desc->GetInputsSize() +
                                                  op_desc->GetOutputsSize());
      } else {
        workspace_data_addrs_ = ModelUtils::GetWorkspaceDataAddrs(davinci_model_->GetRuntimeParam(), op_desc);
        workspace_addr = workspace_data_addrs_.empty() ? nullptr : workspace_data_addrs_[0];
        const auto workspace_data_addrs = ModelUtils::GetWorkspaceDataAddrs(davinci_model_->GetRuntimeParam(), op_desc);
        workspace_addr = workspace_data_addrs.empty() ? nullptr : workspace_data_addrs[0];
      }
    }
  }
--- a/ge/graph/load/new_model_manager/task_info/hccl_task_info.h
+++ b/ge/graph/load/new_model_manager/task_info/hccl_task_info.h
@@ -35,7 +35,6 @@ class HcclTaskInfo : public TaskInfo {
        ops_kernel_store_(nullptr),
        private_def_(nullptr),
        private_def_len_(0),
        op_desc_(nullptr),
        args_(nullptr),
        args_offset_(0) {}

@@ -52,7 +51,7 @@ class HcclTaskInfo : public TaskInfo {
  Status UpdateArgs() override;

 private:
  ge::Status SetAddrs(const std::string &hccl_type, const std::shared_ptr<OpDesc> &op);
  void SetIoAddrs(const OpDescPtr &op_desc);

  Status SetAddrs(const std::shared_ptr<OpDesc> &op_desc, std::vector<GETaskKernelHcclInfo> &kernel_hccl_infos);

@@ -76,10 +75,7 @@ class HcclTaskInfo : public TaskInfo {
  uint32_t private_def_len_;
  static std::mutex hccl_follow_stream_mutex_;
  vector<GETaskKernelHcclInfo> kernel_hccl_infos_;
  vector<void *> input_data_addrs_;
  vector<void *> output_data_addrs_;
  vector<void *> workspace_data_addrs_;
  OpDescPtr op_desc_;
  vector<void *> io_addrs_;
  void *args_;
  uint32_t args_offset_;
 };
--- a/ge/graph/load/new_model_manager/task_info/kernel_ex_task_info.cc
+++ b/ge/graph/load/new_model_manager/task_info/kernel_ex_task_info.cc
@@ -30,11 +30,7 @@
 namespace ge {
 Status KernelExTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *davinci_model) {
  GELOGI("KernelExTaskInfo Init Start.");
  if (davinci_model == nullptr) {
    GELOGE(PARAM_INVALID, "davinci_model is null!");
    return PARAM_INVALID;
  }

  GE_CHECK_NOTNULL(davinci_model);
  davinci_model_ = davinci_model;
  Status ret = SetStream(task_def.stream_id(), davinci_model_->GetStreamList());
  if (ret != SUCCESS) {
@@ -51,7 +47,6 @@ Status KernelExTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *davin
    GELOGE(INTERNAL_ERROR, "Init aicpu task info error, index is out of range!");
    return INTERNAL_ERROR;
  }
  op_desc_ = op_desc;

  // 2. Reconstruct kernelExDef.args to STR_FWK_OP_KERNEL
  STR_FWK_OP_KERNEL fwk_op_kernel = {0};
@@ -79,8 +74,8 @@ Status KernelExTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *davin
                    return RT_ERROR_TO_GE_STATUS(rt_ret);)
  }

  GELOGI("Node[%s] type[%s] kernel_ext_info size=%zu, ext_info_addr_=%p", op_desc_->GetName().c_str(),
         op_desc_->GetType().c_str(), ext_info.size(), ext_info_addr_);
  GELOGI("Node[%s] type[%s] kernel_ext_info size=%zu, ext_info_addr_=%p", op_desc->GetName().c_str(),
         op_desc->GetType().c_str(), ext_info.size(), ext_info_addr_);

  // 2.1 get loop cond variable for tensor array write
  uint64_t step_id_addr = 0;
@@ -132,6 +127,7 @@ Status KernelExTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *davin
    GE_IF_BOOL_EXEC(rt_ret != RT_ERROR_NONE, GELOGE(RT_FAILED, "rtMemcpy error, ret: Ox%X", rt_ret);
                    return RT_ERROR_TO_GE_STATUS(rt_ret);)

    SetIoAddrs(op_desc);
    GELOGI("KernelExTaskInfo knonw node Init Success.");
    return SUCCESS;
  }
@@ -195,7 +191,7 @@ Status KernelExTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *davin
                  return RT_ERROR_TO_GE_STATUS(rt_ret);)

  davinci_model_->SetZeroCopyAddr(op_desc, io_addrs, io_addrs.data(), input_output_addr_, addrs_size, 0);

  SetIoAddrs(op_desc);
  GELOGI("KernelExTaskInfo Init Success. session id: %lu", session_id);
  return SUCCESS;
 }
@@ -236,36 +232,38 @@ Status KernelExTaskInfo::CalculateArgs(const domi::TaskDef &task_def, DavinciMod
  return SUCCESS;
 }

 Status KernelExTaskInfo::UpdateArgs() {
  GELOGI("KernelExTaskInfo::UpdateArgs in.");
 void KernelExTaskInfo::SetIoAddrs(const OpDescPtr &op_desc) {
  const RuntimeParam &rts_param = davinci_model_->GetRuntimeParam();
  vector<void *> input_data_addrs = ModelUtils::GetInputDataAddrs(rts_param, op_desc_);
  vector<void *> output_data_addrs = ModelUtils::GetOutputDataAddrs(rts_param, op_desc_);
  vector<void *> io_addrs;
  if (!op_desc_->HasAttr(ATTR_DYNAMIC_SHAPE_FIXED_ADDR)) {
    io_addrs.insert(io_addrs.end(), input_data_addrs.begin(), input_data_addrs.end());
    io_addrs.insert(io_addrs.end(), output_data_addrs.begin(), output_data_addrs.end());
  vector<void *> input_data_addrs = ModelUtils::GetInputDataAddrs(rts_param, op_desc);
  vector<void *> output_data_addrs = ModelUtils::GetOutputDataAddrs(rts_param, op_desc);
  if (!op_desc->HasAttr(ATTR_DYNAMIC_SHAPE_FIXED_ADDR)) {
    io_addrs_.insert(io_addrs_.end(), input_data_addrs.begin(), input_data_addrs.end());
    io_addrs_.insert(io_addrs_.end(), output_data_addrs.begin(), output_data_addrs.end());
  } else {
    string peer_input_name;
    if (AttrUtils::GetStr(op_desc_, ATTR_DYNAMIC_SHAPE_FIXED_ADDR, peer_input_name)) {
    if (AttrUtils::GetStr(op_desc, ATTR_DYNAMIC_SHAPE_FIXED_ADDR, peer_input_name)) {
      uint32_t output_index = davinci_model_->GetFixedAddrOutputIndex(peer_input_name);
      if (output_index > output_data_addrs.size()) {
        GELOGE(FAILED, "The output data addr size[%zu] and output index[%u] are inconsistent.",
               output_data_addrs.size(), output_index);
        return FAILED;
        return;
      }
      io_addrs.insert(io_addrs.end(), input_data_addrs.begin(), input_data_addrs.end());
      io_addrs_.insert(io_addrs_.end(), input_data_addrs.begin(), input_data_addrs.end());
      for (size_t i = 0; i < output_data_addrs.size(); ++i) {
        if (i == output_index) {
          void *fixed_addr = davinci_model_->GetCurrentFixedAddr(fixed_addr_offset_);
          io_addrs.emplace_back(fixed_addr);
          io_addrs_.emplace_back(fixed_addr);
          continue;
        }
        io_addrs.emplace_back(output_data_addrs[i]);
        io_addrs_.emplace_back(output_data_addrs[i]);
      }
    }
  }
  davinci_model_->SetTotalIOAddrs(io_addrs);
 }

 Status KernelExTaskInfo::UpdateArgs() {
  GELOGI("KernelExTaskInfo::UpdateArgs in.");
  davinci_model_->SetTotalIOAddrs(io_addrs_);
  GELOGI("KernelExTaskInfo::UpdateArgs success.");
  return SUCCESS;
 }
--- a/ge/graph/load/new_model_manager/task_info/kernel_ex_task_info.h
+++ b/ge/graph/load/new_model_manager/task_info/kernel_ex_task_info.h
@@ -59,6 +59,7 @@ class KernelExTaskInfo : public TaskInfo {
  };
 private:
  Status CopyTaskInfo(const domi::KernelExDef &kernel_def, const RuntimeParam &rts_param, const OpDescPtr &op_desc);
  void SetIoAddrs(const OpDescPtr &op_desc);

  uint32_t task_id_;
  uint32_t stream_id_;
@@ -69,7 +70,7 @@ class KernelExTaskInfo : public TaskInfo {
  void *input_output_addr_;
  void *ext_info_addr_;
  void *dump_args_;
  OpDescPtr op_desc_ = nullptr;
  vector<void *> io_addrs_;
  uint32_t args_offset_ = 0;
  int64_t fixed_addr_offset_ = 0;
 };
--- a/ge/graph/load/new_model_manager/task_info/kernel_task_info.cc
+++ b/ge/graph/load/new_model_manager/task_info/kernel_task_info.cc
@@ -53,9 +53,6 @@ const int kArgsAttrHandle = 4;
 }  // namespace

 namespace ge {
 KernelTaskInfo::SuperKernelTaskInfo KernelTaskInfo::skt_info_ = {
    0, 0, 0, 0, nullptr, nullptr, {}, {}, {}, {}, {}, RT_KERNEL_DEFAULT, kInvalidGroupKey, 0, nullptr};

 Status KernelTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *davinci_model) {
  GE_CHECK_NOTNULL(davinci_model);
  davinci_model_ = davinci_model;
@@ -137,6 +134,7 @@ Status KernelTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *davinci
    ret = InitCceTask(kernel_def);
  }

  SetIoAddrs(op_desc_);
  GELOGD("KernelTaskInfo init finish, result=%u.", ret);
  return ret;
 }
@@ -148,9 +146,10 @@ Status KernelTaskInfo::SaveSKTDumpInfo() {
    return SUCCESS;
  }
  // all op in super kernel share one taskid and streamid
  for (size_t i = 0; i < skt_info_.op_desc_list.size(); i++) {
    davinci_model_->SaveDumpTask(skt_info_.last_task_id, skt_info_.last_stream_id, skt_info_.op_desc_list[i],
                                 skt_info_.dump_args_list[i]);
  const SuperKernelTaskInfo &skt_info = davinci_model_->GetSuperKernelTaskInfo();
  for (size_t i = 0; i < skt_info.op_desc_list.size(); i++) {
    davinci_model_->SaveDumpTask(skt_info.last_task_id, skt_info.last_stream_id, skt_info.op_desc_list[i],
                                 skt_info.dump_args_list[i]);
  }
  return SUCCESS;
 }
@@ -164,9 +163,10 @@ void KernelTaskInfo::UpdateSKTTaskId() {
      GELOGE(RT_FAILED, "Call rt api failed, ret: 0x%X", rt_ret);
      return;
    }
    skt_info_.last_task_id = task_id;
    skt_info_.last_stream_id = stream_id;
    skt_id_ = skt_info_.last_task_id;
    SuperKernelTaskInfo &skt_info = davinci_model_->GetSuperKernelTaskInfo();
    skt_info.last_task_id = task_id;
    skt_info.last_stream_id = stream_id;
    skt_id_ = skt_info.last_task_id;

    GELOGI("UpdateTaskId:UpdateSKTTaskId [%u],stream id [%u]", task_id, stream_id);
  }
@@ -191,23 +191,25 @@ Status KernelTaskInfo::SKTFinalize() {
  UpdateSKTTaskId();
  GE_CHK_STATUS_RET(SaveSKTDumpInfo(), "skt save dump info failed");
  GELOGI("SuperKernel Distribute [skt_id:%u]", skt_id_);
  skt_info_.kernel_list.clear();
  skt_info_.arg_list.clear();
  skt_info_.dump_flag_list.clear();
  skt_info_.op_desc_list.clear();
  skt_info_.dump_args_list.clear();
  skt_info_.last_stream = nullptr;
  skt_info_.last_block_dim = 0;
  skt_info_.last_sm_desc = sm_desc_;
  skt_info_.last_group_key = kInvalidGroupKey;
  skt_info_.last_dump_flag = RT_KERNEL_DEFAULT;
  skt_info_.last_dump_args = 0;
  skt_info_.last_op = nullptr;
  SuperKernelTaskInfo &skt_info = davinci_model_->GetSuperKernelTaskInfo();
  skt_info.kernel_list.clear();
  skt_info.arg_list.clear();
  skt_info.dump_flag_list.clear();
  skt_info.op_desc_list.clear();
  skt_info.dump_args_list.clear();
  skt_info.last_stream = nullptr;
  skt_info.last_block_dim = 0;
  skt_info.last_sm_desc = sm_desc_;
  skt_info.last_group_key = kInvalidGroupKey;
  skt_info.last_dump_flag = RT_KERNEL_DEFAULT;
  skt_info.last_dump_args = 0;
  skt_info.last_op = nullptr;
  return SUCCESS;
 }

 uint32_t KernelTaskInfo::GetDumpFlag() {
  for (auto flag : skt_info_.dump_flag_list) {
  const SuperKernelTaskInfo &skt_info = davinci_model_->GetSuperKernelTaskInfo();
  for (auto flag : skt_info.dump_flag_list) {
    if (flag == RT_KERNEL_DUMPFLAG) {
      return RT_KERNEL_DUMPFLAG;
    }
@@ -216,19 +218,20 @@ uint32_t KernelTaskInfo::GetDumpFlag() {
 }

 Status KernelTaskInfo::SuperKernelLaunch() {
  if (skt_info_.kernel_list.empty()) {
  SuperKernelTaskInfo &skt_info = davinci_model_->GetSuperKernelTaskInfo();
  if (skt_info.kernel_list.empty()) {
    GELOGI("SuperKernelLaunch: Skt_kernel_list has no task, just return");
    return SUCCESS;
  }
  rtError_t rt_ret;
  auto &skt_kernel_list = skt_info_.kernel_list;
  auto &skt_arg_list = skt_info_.arg_list;
  auto &skt_kernel_list = skt_info.kernel_list;
  auto &skt_arg_list = skt_info.arg_list;
  GELOGI("SuperKernelLaunch: Skt_kernel_list size[%zu] skt_arg_list[%zu]", skt_kernel_list.size(), skt_arg_list.size());
  if (skt_kernel_list.size() == kSKTSingleSize && skt_arg_list.size() == kSKTSingleSize) {
    rt_ret = rtKernelLaunchWithFlag(skt_info_.kernel_list[0], static_cast<uint32_t>(skt_info_.last_block_dim),
                                    skt_info_.arg_list[0], skt_info_.last_args_size,
                                    static_cast<rtSmDesc_t *>(skt_info_.last_sm_desc), skt_info_.last_stream,
                                    skt_info_.last_dump_flag);
    rt_ret = rtKernelLaunchWithFlag(skt_info.kernel_list[0], static_cast<uint32_t>(skt_info.last_block_dim),
                                    skt_info.arg_list[0], skt_info.last_args_size,
                                    static_cast<rtSmDesc_t *>(skt_info.last_sm_desc), skt_info.last_stream,
                                    skt_info.last_dump_flag);
    if (rt_ret != RT_ERROR_NONE) {
      GELOGE(RT_FAILED, "SuperKernelLaunch: Call rt api failed, ret: 0x%X", rt_ret);
      return RT_ERROR_TO_GE_STATUS(rt_ret);
@@ -247,14 +250,14 @@ Status KernelTaskInfo::SuperKernelLaunch() {
  }
  // Call the fuse API
  std::unique_ptr<skt::SuperKernel> superKernel = nullptr;
  ge_ret = factory->FuseKernels(skt_kernel_list, skt_arg_list, skt_info_.last_block_dim, superKernel);
  ge_ret = factory->FuseKernels(skt_kernel_list, skt_arg_list, skt_info.last_block_dim, superKernel);
  if (ge_ret != SUCCESS) {
    GELOGE(ge_ret, "SuperKernelLaunch: fuse call failed");
    return ge_ret;
  }
  // Launch a super kernel
  skt_dump_flag_ = GetDumpFlag();
  ge_ret = superKernel->Launch(skt_info_.last_stream, skt_dump_flag_);
  ge_ret = superKernel->Launch(skt_info.last_stream, skt_dump_flag_);
  if (ge_ret != SUCCESS) {
    GELOGE(ge_ret, "SuperKernelLaunch: launch failed");
    return ge_ret;
@@ -269,23 +272,26 @@ Status KernelTaskInfo::SuperKernelLaunch() {
 }

 Status KernelTaskInfo::SaveSuperKernelInfo() {
  skt_info_.kernel_list.push_back(stub_func_);
  skt_info_.arg_list.push_back(args_);
  skt_info_.last_stream = stream_;
  skt_info_.last_block_dim = block_dim_;
  skt_info_.last_args_size = args_size_;
  skt_info_.last_sm_desc = sm_desc_;
  skt_info_.last_dump_flag = dump_flag_;
  skt_info_.dump_flag_list.push_back(dump_flag_);
  skt_info_.op_desc_list.push_back(op_desc_);
  skt_info_.dump_args_list.push_back(reinterpret_cast<uintptr_t>(skt_dump_args_));
  skt_info_.last_group_key = group_key_;
  skt_info_.last_dump_args = reinterpret_cast<uintptr_t>(skt_dump_args_);
  skt_info_.last_op = op_desc_;
  SuperKernelTaskInfo &skt_info = davinci_model_->GetSuperKernelTaskInfo();
  skt_info.kernel_list.push_back(stub_func_);
  skt_info.arg_list.push_back(args_);
  skt_info.last_stream = stream_;
  skt_info.last_block_dim = block_dim_;
  skt_info.last_args_size = args_size_;
  skt_info.last_sm_desc = sm_desc_;
  skt_info.last_dump_flag = dump_flag_;
  skt_info.dump_flag_list.push_back(dump_flag_);
  skt_info.op_desc_list.push_back(op_desc_);
  skt_info.dump_args_list.push_back(reinterpret_cast<uintptr_t>(skt_dump_args_));
  skt_info.last_group_key = group_key_;
  skt_info.last_dump_args = reinterpret_cast<uintptr_t>(skt_dump_args_);
  skt_info.last_op = op_desc_;
  // last node in a stream, just launch
  if (IsMarkedLastNode()) {
    return SuperKernelLaunch();
  }

  GELOGI("Save Current task [block_dim:%u, size:%zu].", block_dim_, skt_info.kernel_list.size());
  return SUCCESS;
 }

@@ -322,8 +328,9 @@ bool KernelTaskInfo::IsMarkedFirstNode() {
 // then may be saved to skt task list; else
 // call skt launch those saved tasks before
 bool KernelTaskInfo::FirstCallSKTLaunchCheck() {
  return ((block_dim_ != skt_info_.last_block_dim) || (stream_ != skt_info_.last_stream) ||
          (has_group_key_ && (group_key_ != skt_info_.last_group_key)));
  const SuperKernelTaskInfo &skt_info = davinci_model_->GetSuperKernelTaskInfo();
  return ((block_dim_ != skt_info.last_block_dim) || (stream_ != skt_info.last_stream) ||
          (has_group_key_ && (group_key_ != skt_info.last_group_key)));
 }

 // current task has group_id or has n ATTR_N_BATCH_SPLIT then save it to skt task list; else
@@ -362,7 +369,6 @@ Status KernelTaskInfo::SuperKernelDistribute() {
      GELOGE(ret, "Call SuperKernelLaunch failed!");
      return ret;
    }
    GELOGI("Save Current task [block_dim:%u, size:%zu].", block_dim_, skt_info_.kernel_list.size());
  }
  return SUCCESS;
 }
@@ -391,10 +397,11 @@ Status KernelTaskInfo::Distribute() {
    call_save_dump_ = true;
  } else {
    /* default: not skt launch */
    const SuperKernelTaskInfo &skt_info = davinci_model_->GetSuperKernelTaskInfo();
    GELOGD(
        "KernelTaskInfo Distribute Start, sktenable:%d taskid:%u sktid:%u last_sktid:%u stubfunc_name:%s "
        "stubfunc:%p blockdim:%u stream:%p",
        call_skt, task_id_, skt_id_, skt_info_.last_task_id, stub_func_name_.c_str(), stub_func_, block_dim_, stream_);
        call_skt, task_id_, skt_id_, skt_info.last_task_id, stub_func_name_.c_str(), stub_func_, block_dim_, stream_);
    // l1 fusion enable and env flag open (kCloseSkt for skt debug)
    bool open_dump = false;
    auto all_dump_model = davinci_model_->GetDumpProperties().GetAllDumpModel();
@@ -422,23 +429,30 @@ Status KernelTaskInfo::Distribute() {
      "KernelTaskInfo Distribute Success. sktenable:%d taskid:%d sktid:%d stubfunc_name:%s stubfunc:%p "
      "blockdim:%d stream:%p",
      call_skt, task_id_, skt_id_, stub_func_name_.c_str(), stub_func_, block_dim_, stream_);
  op_desc_.reset(); // Not hold OpDesc after distribute.
  return SUCCESS;
 }

 void KernelTaskInfo::SetIoAddrs(const OpDescPtr &op_desc) {
  const RuntimeParam &rts_param = davinci_model_->GetRuntimeParam();
  vector<void *> input_data_addrs = ModelUtils::GetInputDataAddrs(rts_param, op_desc);
  vector<void *> output_data_addrs = ModelUtils::GetOutputDataAddrs(rts_param, op_desc);

  io_addrs_.insert(io_addrs_.end(), input_data_addrs.begin(), input_data_addrs.end());
  io_addrs_.insert(io_addrs_.end(), output_data_addrs.begin(), output_data_addrs.end());
  if (kernel_type_ == ccKernelType::TE) {
    vector<void *> workspace_data_addrs = ModelUtils::GetWorkspaceDataAddrs(rts_param, op_desc);
    io_addrs_.insert(io_addrs_.end(), workspace_data_addrs.begin(), workspace_data_addrs.end());
  }
 }

 Status KernelTaskInfo::UpdateArgs() {
  GELOGI("KernelTaskInfo::UpdateArgs in.");
  const RuntimeParam &rts_param = davinci_model_->GetRuntimeParam();
  vector<void *> input_data_addrs = ModelUtils::GetInputDataAddrs(rts_param, op_desc_);
  vector<void *> output_data_addrs = ModelUtils::GetOutputDataAddrs(rts_param, op_desc_);

  vector<void *> io_addrs;
  io_addrs.insert(io_addrs.end(), input_data_addrs.begin(), input_data_addrs.end());
  io_addrs.insert(io_addrs.end(), output_data_addrs.begin(), output_data_addrs.end());
  if (kernel_type_ == ccKernelType::TE) {
    vector<void *> workspace_data_addrs = ModelUtils::GetWorkspaceDataAddrs(rts_param, op_desc_);
    io_addrs.insert(io_addrs.end(), workspace_data_addrs.begin(), workspace_data_addrs.end());
    davinci_model_->SetTotalIOAddrs(io_addrs);
    davinci_model_->SetTotalIOAddrs(io_addrs_);
  } else if (kernel_type_ == ccKernelType::AI_CPU || kernel_type_ == ccKernelType::CUST_AI_CPU) {
    vector<void *> io_addrs = io_addrs_;
    davinci_model_->UpdateKnownZeroCopyAddr(io_addrs);
    uintptr_t io_addr = reinterpret_cast<uintptr_t>(args_addr.get()) + sizeof(aicpu::AicpuParamHead);
    auto addrs_size = sizeof(uint64_t) * io_addrs.size();
@@ -789,7 +803,6 @@ Status KernelTaskInfo::InitCceTask(const domi::KernelDef &kernel_def) {
      GELOGE(FAILED, "flowtable is null.");
      return FAILED;
    }
    flowtable_size_ = flowtable.size();
  }

  // get smDesc stored in model
@@ -854,14 +867,14 @@ Status KernelTaskInfo::InitAicpuTask(uint32_t op_index, const domi::KernelDef &k
  GELOGI("Do InitAicpuTask");
  so_name_ = kernel_def.so_name();
  kernel_name_ = kernel_def.kernel_name();
  GELOGI("node[%s] test so name %s, kernel name %s", op_desc_->GetName().c_str(), so_name_.c_str(),
         kernel_name_.c_str());

  OpDescPtr op_desc = davinci_model_->GetOpByIndex(op_index);
  if (op_desc == nullptr) {
    GELOGE(INTERNAL_ERROR, "index is out of range, index: %u", op_index);
    return INTERNAL_ERROR;
  }
  GELOGI("node[%s] test so name %s, kernel name %s", op_desc->GetName().c_str(), so_name_.c_str(),
         kernel_name_.c_str());

  if (kernel_type_ == ccKernelType::CUST_AI_CPU) {
    bool loaded = false;
@@ -885,8 +898,8 @@ Status KernelTaskInfo::InitAicpuTask(uint32_t op_index, const domi::KernelDef &k
    GELOGE(init_ret, "Init aicpu task ext info failed, ext_info size=%zu", ext_info.size());
    return init_ret;
  }
  GELOGI("Node[%s] type[%s] kernel_ext_info size=%zu, aicpu_ext_info_addr_=%p", op_desc_->GetName().c_str(),
         op_desc_->GetType().c_str(), ext_info.size(), aicpu_ext_info_addr_);
  GELOGI("Node[%s] type[%s] kernel_ext_info size=%zu, aicpu_ext_info_addr_=%p", op_desc->GetName().c_str(),
         op_desc->GetType().c_str(), ext_info.size(), aicpu_ext_info_addr_);

  aicpu_param_head->extInfoAddr = reinterpret_cast<uintptr_t>(aicpu_ext_info_addr_);
  aicpu_param_head->extInfoLength = static_cast<uintptr_t>(ext_info.size());
--- a/ge/graph/load/new_model_manager/task_info/kernel_task_info.h
+++ b/ge/graph/load/new_model_manager/task_info/kernel_task_info.h
@@ -38,7 +38,6 @@ class KernelTaskInfo : public TaskInfo {
        flowtable_(nullptr),
        block_dim_(0),
        args_size_(0),
        flowtable_size_(0),
        task_id_(0),
        stream_id_(0),
        so_name_(""),
@@ -128,6 +127,7 @@ class KernelTaskInfo : public TaskInfo {

  Status SuperKernelDistribute();
  bool IsL1FusionOp(const OpDescPtr &op_desc);
  void SetIoAddrs(const OpDescPtr &op_desc);

  // For super kernel
  Status SaveSKTDumpInfo();
@@ -148,7 +148,6 @@ class KernelTaskInfo : public TaskInfo {
  void *flowtable_;
  uint32_t block_dim_;
  uint32_t args_size_;
  uint32_t flowtable_size_;
  uint32_t task_id_;
  uint32_t stream_id_;
  std::string so_name_;
@@ -156,7 +155,8 @@ class KernelTaskInfo : public TaskInfo {
  ccKernelType kernel_type_;
  uint32_t dump_flag_;
  void *dump_args_;
  OpDescPtr op_desc_;
  OpDescPtr op_desc_;   // Clear after distribute.
  vector<void *> io_addrs_;
  DavinciModel *davinci_model_;
  uint32_t args_offset_ = 0;
  uint32_t hybrid_args_offset_ = 0;
@@ -186,25 +186,6 @@ class KernelTaskInfo : public TaskInfo {
    void *output_addrs = nullptr;
    void *attr_handle = nullptr;
  } custom_info_;

  // For super kernel
  static struct SuperKernelTaskInfo {
    uint32_t last_block_dim;
    uint32_t last_args_size;
    uint32_t last_task_id;
    uint32_t last_stream_id;
    void *last_stream;
    void *last_sm_desc;
    std::vector<void *> kernel_list;
    std::vector<void *> arg_list;
    std::vector<uint32_t> dump_flag_list;
    std::vector<OpDescPtr> op_desc_list;
    std::vector<uintptr_t> dump_args_list;
    uint32_t last_dump_flag;
    int64_t last_group_key;
    uintptr_t last_dump_args;
    OpDescPtr last_op;
  } skt_info_;
 };
 }  // namespace ge
 #endif  // GE_GRAPH_LOAD_NEW_MODEL_MANAGER_TASK_INFO_KERNEL_TASK_INFO_H_
--- a/ge/graph/load/new_model_manager/task_info/memcpy_async_task_info.cc
+++ b/ge/graph/load/new_model_manager/task_info/memcpy_async_task_info.cc
@@ -30,14 +30,13 @@ Status MemcpyAsyncTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *da
    return ret;
  }

  memcpy_async_ = task_def.memcpy_async();
  count_ = memcpy_async_.count();
  kind_ = memcpy_async_.kind();
  dst_max_ = memcpy_async_.dst_max();
  OpDescPtr op_desc = davinci_model_->GetOpByIndex(memcpy_async_.op_index());
  op_desc_ = op_desc;
  const domi::MemcpyAsyncDef &memcpy_async = task_def.memcpy_async();
  count_ = memcpy_async.count();
  kind_ = memcpy_async.kind();
  dst_max_ = memcpy_async.dst_max();
  OpDescPtr op_desc = davinci_model_->GetOpByIndex(memcpy_async.op_index());
  if (op_desc == nullptr) {
    GELOGE(INTERNAL_ERROR, "Task op index:%u out of range", memcpy_async_.op_index());
    GELOGE(INTERNAL_ERROR, "Task op index:%u out of range", memcpy_async.op_index());
    return INTERNAL_ERROR;
  }

@@ -46,13 +45,14 @@ Status MemcpyAsyncTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *da
    dst_ = reinterpret_cast<uint8_t *>(reinterpret_cast<uintptr_t>(src_) + sizeof(void *));
    // for zero copy
    kind_ = RT_MEMCPY_ADDR_DEVICE_TO_DEVICE;
    GE_CHK_STATUS_RET(SetIoAddrs(op_desc, memcpy_async), "Set addr failed");
    GELOGI("MemcpyAsyncTaskInfo op name %s, src_ %p, dst_ %p, args_offset %u.",
           op_desc->GetName().c_str(), src_, dst_, args_offset_);
    return SUCCESS;
  }

  const RuntimeParam &rts_param = davinci_model_->GetRuntimeParam();
  ret = ModelUtils::GetRtAddress(rts_param, memcpy_async_.src(), src_);
  ret = ModelUtils::GetRtAddress(rts_param, memcpy_async.src(), src_);
  if (ret != SUCCESS) {
    return ret;
  }
@@ -61,23 +61,24 @@ Status MemcpyAsyncTaskInfo::Init(const domi::TaskDef &task_def, DavinciModel *da
  vector<int64_t> memory_type_list;
  (void)AttrUtils::GetListInt(op_desc, ATTR_NAME_OUTPUT_MEM_TYPE_LIST, memory_type_list);
  if (!memory_type_list.empty() && memory_type_list[0] == RT_MEMORY_TS_4G) {  // TS Feature, Just one.
    uint64_t mem_offset = memcpy_async_.dst() - rts_param.logic_mem_base;
    dst_ = static_cast<uint8_t *>(rts_param.ts_mem_mall->Acquire(mem_offset, memcpy_async_.dst_max()));
    uint64_t mem_offset = memcpy_async.dst() - rts_param.logic_mem_base;
    dst_ = static_cast<uint8_t *>(rts_param.ts_mem_mall->Acquire(mem_offset, memcpy_async.dst_max()));
    if (dst_ == nullptr) {
      return FAILED;
    }
  } else {
    ret = ModelUtils::GetRtAddress(rts_param, memcpy_async_.dst(), dst_);
    ret = ModelUtils::GetRtAddress(rts_param, memcpy_async.dst(), dst_);
    if (ret != SUCCESS) {
      return ret;
    }
  }

  GELOGI("MemcpyAsyncTaskInfo Init Success, logic[0x%lx, 0x%lx], src:%p, dst:%p, max:%lu, count:%lu",
         memcpy_async_.src(), memcpy_async_.dst(), src_, dst_, dst_max_, count_);

  davinci_model_->DisableZeroCopy(src_);
  davinci_model_->DisableZeroCopy(dst_);
  GE_CHK_STATUS_RET(SetIoAddrs(op_desc, memcpy_async), "Set addr failed");

  GELOGI("MemcpyAsyncTaskInfo Init Success, logic[0x%lx, 0x%lx], src:%p, dst:%p, max:%lu, count:%lu",
         memcpy_async.src(), memcpy_async.dst(), src_, dst_, dst_max_, count_);
  return SUCCESS;
 }

@@ -115,29 +116,33 @@ Status MemcpyAsyncTaskInfo::CalculateArgs(const domi::TaskDef &task_def, Davinci
  return SUCCESS;
 }

 Status MemcpyAsyncTaskInfo::UpdateArgs() {
  GELOGI("MemcpyAsyncTaskInfo::UpdateArgs in.");
  GE_CHECK_NOTNULL(davinci_model_);
  Status ret = ModelUtils::GetRtAddress(davinci_model_->GetRuntimeParam(), memcpy_async_.src(), src_);
  if (ret != SUCCESS) {
    return ret;
  }

  ret = ModelUtils::GetRtAddress(davinci_model_->GetRuntimeParam(), memcpy_async_.dst(), dst_);
 Status MemcpyAsyncTaskInfo::SetIoAddrs(const OpDescPtr &op_desc, const domi::MemcpyAsyncDef &memcpy_async) {
  uint8_t *src = nullptr;
  Status ret = ModelUtils::GetRtAddress(davinci_model_->GetRuntimeParam(), memcpy_async_.src(), src);
  if (ret != SUCCESS) {
    return ret;
  }
  io_addrs_.emplace_back(reinterpret_cast<void *>(src));

  vector<void *> io_addrs;
  io_addrs.emplace_back(reinterpret_cast<void *>(src_));
  if (op_desc_->HasAttr(ATTR_DYNAMIC_SHAPE_FIXED_ADDR)) {
  if (op_desc->HasAttr(ATTR_DYNAMIC_SHAPE_FIXED_ADDR)) {
    void *fixed_addr = davinci_model_->GetCurrentFixedAddr(fixed_addr_offset_);
    io_addrs.emplace_back(fixed_addr);
    io_addrs_.emplace_back(fixed_addr);
  } else {
    io_addrs.emplace_back(reinterpret_cast<void *>(dst_));
    uint8_t *dst = nullptr;
    ret = ModelUtils::GetRtAddress(davinci_model_->GetRuntimeParam(), memcpy_async_.dst(), dst);
    if (ret != SUCCESS) {
      return ret;
    }
    io_addrs_.emplace_back(reinterpret_cast<void *>(dst_));
  }
  davinci_model_->SetTotalIOAddrs(io_addrs);

  return SUCCESS;
 }

 Status MemcpyAsyncTaskInfo::UpdateArgs() {
  GELOGI("MemcpyAsyncTaskInfo::UpdateArgs in.");
  GE_CHECK_NOTNULL(davinci_model_);
  davinci_model_->SetTotalIOAddrs(io_addrs_);
  GELOGI("MemcpyAsyncTaskInfo::UpdateArgs success.");
  return SUCCESS;
 }
--- a/ge/graph/load/new_model_manager/task_info/memcpy_async_task_info.h
+++ b/ge/graph/load/new_model_manager/task_info/memcpy_async_task_info.h
@@ -39,16 +39,17 @@ class MemcpyAsyncTaskInfo : public TaskInfo {
  Status CalculateArgs(const domi::TaskDef &task_def, DavinciModel *davinci_model) override;

 private:
  Status SetIoAddrs(const OpDescPtr &op_desc, const domi::MemcpyAsyncDef &memcpy_async);

  uint8_t *dst_;
  uint64_t dst_max_;
  uint8_t *src_;
  uint64_t count_;
  uint32_t kind_;
  OpDescPtr op_desc_;
  vector<void *> io_addrs_;
  int64_t fixed_addr_offset_;
  DavinciModel *davinci_model_ = nullptr;
  uint32_t args_offset_ = 0;
  domi::MemcpyAsyncDef memcpy_async_;
 };
 }  // namespace ge
 #endif  // GE_GRAPH_LOAD_NEW_MODEL_MANAGER_TASK_INFO_MEMCPY_ASYNC_TASK_INFO_H_