multihead_matmul_op.cc 28.1 KB
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/* Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
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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
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.  See
the License for the specific language governing permissions and
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limitations under the License. */

#include "paddle/fluid/inference/tensorrt/convert/op_converter.h"
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#include "paddle/fluid/inference/tensorrt/plugin/qkv_to_context_plugin.h"
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namespace paddle {
namespace inference {
namespace tensorrt {

class MultiheadMatMulOpConverter : public OpConverter {
 public:
  void operator()(const framework::proto::OpDesc& op,
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                  const framework::Scope& scope,
                  bool test_mode) override {
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    VLOG(3) << "convert a fluid multihead_mamul op to a corresponding tensorrt "
               "network structure";
    framework::OpDesc op_desc(op, nullptr);
    // Declare inputs
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    auto* input = engine_->GetITensor(op_desc.Input("Input").front());
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    auto input_dims = input->getDimensions();
    bool bias_qk_attr =
        (op_desc.Inputs().find("BiasQK") == op_desc.Inputs().end()) ? false
                                                                    : true;
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    // fc weights and fc bias
    auto weight_name = op_desc.Input("W").front();
    auto bias_name = op_desc.Input("Bias").front();

    auto* weight_v = scope.FindVar(weight_name);
    auto* weight_t = weight_v->GetMutable<framework::LoDTensor>();

    auto* bias_v = scope.FindVar(bias_name);
    auto* bias_t = bias_v->GetMutable<framework::LoDTensor>();

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    float* weight_data = nullptr;
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    bool qkv2context_plugin_int8 = op_desc.HasAttr("qkv2context_plugin_int8");
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    float in_scale = 0.;

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    if (op_desc.HasAttr("Input_scale")) {
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      in_scale = PADDLE_GET_CONST(float, op_desc.GetAttr("Input_scale"));
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      engine_->SetTensorDynamicRange(input, in_scale);
    }
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    weight_data = const_cast<float*>(static_cast<const float*>(
        engine_->GetFp32TrtWeight(weight_name, *weight_t).get().values));
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    float* bias_data = const_cast<float*>(static_cast<const float*>(
        engine_->GetFp32TrtWeight(bias_name, *bias_t).get().values));
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    std::vector<float> weight_data_tmp;
    weight_data_tmp.reserve(weight_t->numel());
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    memcpy(
        weight_data_tmp.data(), weight_data, weight_t->numel() * sizeof(float));
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    // (hidden_in, 3, hidden_out)
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    const auto& weight_dims = weight_t->dims();
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    int hidden_in = weight_dims[0];   // channels_in
    int three = weight_dims[1];       // channels_out
    int hidden_out = weight_dims[2];  // channels_out
    int m = hidden_in;
    int n = three * hidden_out;
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    auto tranpose_weight = [](const float* src, float* dst, int m, int n) {
      for (int i = 0; i < m; i++) {
        for (int j = 0; j < n; j++) {
          dst[j * m + i] = src[i * n + j];
        }
      }
    };
    tranpose_weight(weight_data_tmp.data(), weight_data, m, n);
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    int head_number = PADDLE_GET_CONST(int, op_desc.GetAttr("head_number"));
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    nvinfer1::ILayer* layer = nullptr;
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    auto output_name = op_desc.Output("Out")[0];
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    bool flag_varseqlen = engine_->use_varseqlen() &&
                          engine_->tensorrt_transformer_posid() != "" &&
                          engine_->tensorrt_transformer_maskid() != "";
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    if (engine_->with_dynamic_shape()) {
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      if (flag_varseqlen) {
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        if (engine_->precision() == AnalysisConfig::Precision::kFloat32) {
          PADDLE_THROW(platform::errors::Fatal(
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              "use use_varseqlen must be int8 or half, not float32."));
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        }
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        nvinfer1::Weights weight{nvinfer1::DataType::kFLOAT,
                                 static_cast<void*>(weight_data),
                                 static_cast<int32_t>(weight_t->numel())};
        nvinfer1::Weights bias{nvinfer1::DataType::kFLOAT,
                               static_cast<void*>(bias_data),
                               static_cast<int32_t>(bias_t->numel())};
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        auto max_seqlen_tensor = engine_->GetITensor("max_seqlen_tensor");
        auto pos_id_tensor = engine_->GetITensor("pos_id");
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        if (engine_->with_interleaved()) {
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          VLOG(4) << "fused multihead_matmul op: use_varseqlen and "
                     "with_interleaved";
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          if (!op_desc.HasAttr("Input_scale")) {
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            PADDLE_THROW(
                platform::errors::Fatal("use with_interleaved must be int8."));
          }
          nvinfer1::ILayer* fc_layer = nullptr;
          float dp_probs = 1.0 / 127.0;
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          nvinfer1::DimsHW nv_ksize(1, 1);
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          fc_layer = TRT_ENGINE_ADD_LAYER(
              engine_, Convolution, *input, n, nv_ksize, weight, bias);
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          fc_layer->setName(
              ("Multihead: Convolution/FullyConnected: (Output: " +
               output_name + ")")
                  .c_str());
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          PADDLE_ENFORCE_EQ(
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              op_desc.HasAttr("fc_out_threshold"),
              true,
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              platform::errors::InvalidArgument(
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                  "must have out_threshold in multihead layers in int8 mode"));
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          float out_scale =
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              PADDLE_GET_CONST(float, op_desc.GetAttr("fc_out_threshold"));
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          engine_->SetTensorDynamicRange(fc_layer->getOutput(0), out_scale);
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          if (qkv2context_plugin_int8) {
            dp_probs =
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                PADDLE_GET_CONST(float, op_desc.GetAttr("dp_probs")) / 127.0;
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          }
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          auto creator = GetPluginRegistry()->getPluginCreator(
              "CustomQKVToContextPluginDynamic", "3");
          assert(creator != nullptr);
          std::vector<nvinfer1::PluginField> fields{
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              {"hidden_size",
               &hidden_out,
               nvinfer1::PluginFieldType::kINT32,
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               1},
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              {"num_heads",
               &head_number,
               nvinfer1::PluginFieldType::kINT32,
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               1}};
          if (qkv2context_plugin_int8) {
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            fields.push_back({"dq_probs",
                              &dp_probs,
                              nvinfer1::PluginFieldType::kFLOAT32,
                              1});
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          }
          nvinfer1::PluginFieldCollection* plugin_collection =
              static_cast<nvinfer1::PluginFieldCollection*>(malloc(
                  sizeof(*plugin_collection) +
                  fields.size() *
                      sizeof(nvinfer1::PluginField)));  // remember to free
          plugin_collection->nbFields = static_cast<int>(fields.size());
          plugin_collection->fields = fields.data();
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          auto plugin = creator->createPlugin("CustomQKVToContextPluginDynamic",
                                              plugin_collection);
          free(plugin_collection);
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          std::vector<nvinfer1::ITensor*> plugin_inputs;
          plugin_inputs.emplace_back(fc_layer->getOutput(0));
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          plugin_inputs.emplace_back(pos_id_tensor);
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          plugin_inputs.emplace_back(
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              max_seqlen_tensor);  // max_seqlen, eval_placeholder_3
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          auto plugin_layer = engine_->network()->addPluginV2(
              plugin_inputs.data(), plugin_inputs.size(), *plugin);
          layer = plugin_layer;
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        } else {
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          int head_size = hidden_out / head_number;
          // [3, head_number, head_size, hidden_in] -> [head_number, 3,
          // head_size,
          // hidden_in]
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          auto transpose_weight_v2 = [](const float* src,
                                        float* dst,
                                        int three,
                                        int head_number,
                                        int head_size,
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                                        int hidden_in) {
            const int HH = head_size * hidden_in;
            for (int i = 0; i < three; ++i) {
              for (int n = 0; n < head_number; ++n) {
                for (int hh = 0; hh < HH; ++hh) {
                  dst[n * three * HH + i * HH + hh] =
                      src[i * head_number * HH + n * HH + hh];
                }
              }
            }
          };
          // [3, head_number, head_size] -> [head_number, 3, head_size]
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          auto transpose_bias_v2 =
              [](const float* src, float* dst, int N, int H) {
                for (int i = 0; i < 3; ++i) {
                  for (int n = 0; n < N; ++n) {
                    for (int h = 0; h < H; ++h) {
                      dst[n * 3 * H + i * H + h] = src[i * N * H + n * H + h];
                    }
                  }
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                }
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              };
          memcpy(weight_data_tmp.data(),
                 weight_data,
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                 weight_t->numel() * sizeof(float));
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          transpose_weight_v2(weight_data_tmp.data(),
                              weight_data,
                              three,
                              head_number,
                              head_size,
                              hidden_in);
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          std::vector<float> bias_data_tmp;
          bias_data_tmp.reserve(bias_t->numel());
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          memcpy(
              bias_data_tmp.data(), bias_data, bias_t->numel() * sizeof(float));
          transpose_bias_v2(
              bias_data_tmp.data(), bias_data, head_number, head_size);
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          nvinfer1::ILayer* fc_layer = nullptr;
          float dp_probs = 1.0 / 127.0;
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          if (op_desc.HasAttr("Input_scale")) {
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            nvinfer1::DimsHW nv_ksize(1, 1);
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            fc_layer = TRT_ENGINE_ADD_LAYER(
                engine_, Convolution, *input, n, nv_ksize, weight, bias);
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          } else {
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            fc_layer = TRT_ENGINE_ADD_LAYER(
                engine_, FullyConnected, *input, n, weight, bias);
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          }

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          if (op_desc.HasAttr("fc_out_threshold")) {
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            PADDLE_ENFORCE_EQ(op_desc.HasAttr("fc_out_threshold"),
                              true,
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                              platform::errors::InvalidArgument(
                                  "must have out threshold in multihead layers "
                                  "in int8 mode"));
            float out_scale =
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                PADDLE_GET_CONST(float, op_desc.GetAttr("fc_out_threshold"));
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            engine_->SetTensorDynamicRange(fc_layer->getOutput(0), out_scale);
            if (qkv2context_plugin_int8) {
              dp_probs =
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                  PADDLE_GET_CONST(float, op_desc.GetAttr("dp_probs")) / 127.0;
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            }
          }
          auto creator = GetPluginRegistry()->getPluginCreator(
              "CustomQKVToContextPluginDynamic", "2");
          assert(creator != nullptr);
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          int type = static_cast<int>(nvinfer1::DataType::kHALF);
          if (qkv2context_plugin_int8 &&
              (engine_->precision() == AnalysisConfig::Precision::kInt8)) {
            type = static_cast<int>(nvinfer1::DataType::kINT8);
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          }
          bool has_mask = true;
          int var_seqlen = 1;
          std::vector<nvinfer1::PluginField> fields{
              {"type_id", &type, nvinfer1::PluginFieldType::kINT32, 1},
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              {"hidden_size",
               &hidden_out,
               nvinfer1::PluginFieldType::kINT32,
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               1},
              {"num_heads", &head_number, nvinfer1::PluginFieldType::kINT32, 1},
              {"has_mask", &has_mask, nvinfer1::PluginFieldType::kINT32, 1},
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              {"var_seqlen",
               &var_seqlen,
               nvinfer1::PluginFieldType::kINT32,
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               1}};
          if (qkv2context_plugin_int8) {
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            fields.push_back({"dq_probs",
                              &dp_probs,
                              nvinfer1::PluginFieldType::kFLOAT32,
                              1});
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          }
          nvinfer1::PluginFieldCollection* plugin_collection =
              static_cast<nvinfer1::PluginFieldCollection*>(malloc(
                  sizeof(*plugin_collection) +
                  fields.size() *
                      sizeof(nvinfer1::PluginField)));  // remember to free
          plugin_collection->nbFields = static_cast<int>(fields.size());
          plugin_collection->fields = fields.data();

          auto plugin = creator->createPlugin("CustomQKVToContextPluginDynamic",
                                              plugin_collection);
          free(plugin_collection);

          std::vector<nvinfer1::ITensor*> plugin_inputs;
          plugin_inputs.emplace_back(fc_layer->getOutput(0));
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          plugin_inputs.emplace_back(engine_->GetITensor("qkv_plugin_mask"));
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          plugin_inputs.emplace_back(pos_id_tensor);
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          plugin_inputs.emplace_back(
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              max_seqlen_tensor);  // max_seqlen, eval_placeholder_3
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          auto plugin_layer = engine_->network()->addPluginV2(
              plugin_inputs.data(), plugin_inputs.size(), *plugin);
          layer = plugin_layer;
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        }
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      } else {
        if (input_dims.d[1] <= 384 && !bias_qk_attr &&
            engine_->precision() != AnalysisConfig::Precision::kFloat32) {
          /*
            * input_dims.d[0]: batch(-1)
            * input_dims.d[1]: length:256
            * input_dims.d[2]: hidden_size:768
            input
              |[b,256,768]
              |
            shuffle                 weight   bias
              |[b,256,768,1,1]      |         |
              |_____________________|_________|
              |
              fc
              |[b,256,2304,1,1]
              |
            shuffle                 mask(fake)  pos   max_length
              |[b*256,2304,1,1]       |         |        |
              |                       |         |        |
              |_______________________|_________|________|
              |
              MHA
              |[b*256,768]
              |
            shuffle
              |[b, 256, 768]
              |
              out
          */

          nvinfer1::Weights weight{nvinfer1::DataType::kFLOAT,
                                   static_cast<void*>(weight_data),
                                   static_cast<int32_t>(weight_t->numel())};
          nvinfer1::Weights bias{nvinfer1::DataType::kFLOAT,
                                 static_cast<void*>(bias_data),
                                 static_cast<int32_t>(bias_t->numel())};

          /*** transpose the weight and bias ***/
          int head_size = hidden_out / head_number;
          // [3, head_number, head_size, hidden_in] -> [head_number, 3,
          // head_size, hidden_in]
          auto transpose_weight_v2 = [](const float* src,
                                        float* dst,
                                        int three,
                                        int head_number,
                                        int head_size,
                                        int hidden_in) {
            const int HH = head_size * hidden_in;
            for (int i = 0; i < three; ++i) {
              for (int n = 0; n < head_number; ++n) {
                for (int hh = 0; hh < HH; ++hh) {
                  dst[n * three * HH + i * HH + hh] =
                      src[i * head_number * HH + n * HH + hh];
                }
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              }
            }
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          };
          // [3, head_number, head_size] -> [head_number, 3, head_size]
          auto transpose_bias_v2 =
              [](const float* src, float* dst, int N, int H) {
                for (int i = 0; i < 3; ++i) {
                  for (int n = 0; n < N; ++n) {
                    for (int h = 0; h < H; ++h) {
                      dst[n * 3 * H + i * H + h] = src[i * N * H + n * H + h];
                    }
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                  }
                }
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              };
          memcpy(weight_data_tmp.data(),
                 weight_data,
                 weight_t->numel() * sizeof(float));
          transpose_weight_v2(weight_data_tmp.data(),
                              weight_data,
                              three,
                              head_number,
                              head_size,
                              hidden_in);

          std::vector<float> bias_data_tmp;
          bias_data_tmp.reserve(bias_t->numel());
          memcpy(
              bias_data_tmp.data(), bias_data, bias_t->numel() * sizeof(float));
          transpose_bias_v2(
              bias_data_tmp.data(), bias_data, head_number, head_size);

          // add shuffle for FullyConnected layer
          std::vector<nvinfer1::ITensor*> reshape_before_fc_shape_tensor;
          nvinfer1::ITensor* input_shape_tensor = Shape(input);
          for (int i = 0; i < 5; i++) {
            reshape_before_fc_shape_tensor.push_back(Add1DConstantLayer(1));
          }
          for (int i = 0; i < 3; i++) {
            reshape_before_fc_shape_tensor[i] =
                GetEleTensorOfShape(input_shape_tensor, i);
          }
          auto* reshape_before_fc_layer =
              TRT_ENGINE_ADD_LAYER(engine_, Shuffle, *input);
          reshape_before_fc_layer->setInput(
              1, *Concat(reshape_before_fc_shape_tensor));
          reshape_before_fc_layer->setName(
              ("shuffle_before_fc_multihead_matmul(Output: " + output_name +
               ")")
                  .c_str());

          // add fc layer
          nvinfer1::ILayer* fc_layer = nullptr;
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          fc_layer =
              TRT_ENGINE_ADD_LAYER(engine_,
                                   FullyConnected,
                                   *reshape_before_fc_layer->getOutput(0),
                                   n,
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                                   weight,
                                   bias);

          // add shuffle for CustomQKVToContextPluginDynamic layer
          auto* reshape_after_fc_layer =
              TRT_ENGINE_ADD_LAYER(engine_, Shuffle, *fc_layer->getOutput(0));
          std::vector<nvinfer1::ITensor*> mha_input_tensor_shape;
          mha_input_tensor_shape.push_back(Add1DConstantLayer(-1));
          mha_input_tensor_shape.push_back(
              Add1DConstantLayer(hidden_out * 3));  // Q,K,V
          mha_input_tensor_shape.push_back(Add1DConstantLayer(1));
          mha_input_tensor_shape.push_back(Add1DConstantLayer(1));
          reshape_after_fc_layer->setInput(1, *Concat(mha_input_tensor_shape));
          reshape_after_fc_layer->setName(
              ("shuffle_after_fc_multihead_matmul(Output: " + output_name + ")")
                  .c_str());

          // add mha_plugin
          auto creator = GetPluginRegistry()->getPluginCreator(
              "CustomQKVToContextPluginDynamic", "2");
          assert(creator != nullptr);
          // set the attributes of mha_plugin
          int type = static_cast<int>(nvinfer1::DataType::kHALF);
          int var_seqlen = 1;
          bool has_mask = true;
          std::vector<nvinfer1::PluginField> fields{
              {"hidden_size",
               &hidden_out,
               nvinfer1::PluginFieldType::kINT32,
               1},
              {"num_heads", &head_number, nvinfer1::PluginFieldType::kINT32, 1},
              {"type_id", &type, nvinfer1::PluginFieldType::kINT32, 1},
              {"has_mask", &has_mask, nvinfer1::PluginFieldType::kINT32, 1},
              {"var_seqlen",
               &var_seqlen,
               nvinfer1::PluginFieldType::kINT32,
               1}};
          nvinfer1::PluginFieldCollection* plugin_collection =
              static_cast<nvinfer1::PluginFieldCollection*>(malloc(
                  sizeof(*plugin_collection) +
                  fields.size() *
                      sizeof(nvinfer1::PluginField)));  // remember to free
          plugin_collection->nbFields = static_cast<int>(fields.size());
          plugin_collection->fields = fields.data();
          auto plugin = creator->createPlugin("CustomQKVToContextPluginDynamic",
                                              plugin_collection);
          free(plugin_collection);
          // set inputs
          std::vector<nvinfer1::ITensor*> plugin_inputs;
          // input_0 for plugin
          plugin_inputs.emplace_back(reshape_after_fc_layer->getOutput(0));
          // input_1(fake) for plugin
          std::vector<int> mask = {1};
          nvinfer1::ITensor* mask_tensor = Add1DConstantLayer(mask);
          plugin_inputs.emplace_back(mask_tensor);
          // input_2 for plugin
          std::vector<int> pos_id = {0};
          int max_batch = 500;
          for (int i = 1; i < max_batch; i++) {
            pos_id.push_back(i);
          }
          nvinfer1::ITensor* fake_pos_id_tensor = Add1DConstantLayer(pos_id);
          nvinfer1::ITensor* length_tensor =
              GetEleTensorOfShape(input_shape_tensor, 1);
          auto pos_id_layer =
              TRT_ENGINE_ADD_LAYER(engine_,
                                   ElementWise,
                                   *fake_pos_id_tensor,
                                   *length_tensor,
                                   nvinfer1::ElementWiseOperation::kPROD);
          // size = batch + 1;
          nvinfer1::ITensor* batch_tensor =
              GetEleTensorOfShape(input_shape_tensor, 0);
          std::vector<int> const_data = {1};
          nvinfer1::ITensor* const_tensor = Add1DConstantLayer(const_data);
          auto size_layer =
              TRT_ENGINE_ADD_LAYER(engine_,
                                   ElementWise,
                                   *batch_tensor,
                                   *const_tensor,
                                   nvinfer1::ElementWiseOperation::kSUM);
          // get size(batch + 1) data from pos_id_tensor
          nvinfer1::Dims start;
          nvinfer1::Dims stride;
          nvinfer1::Dims size;

          start.nbDims = 1;
          stride.nbDims = 1;
          size.nbDims = 1;

          start.d[0] = 0;
          stride.d[0] = 1;
          size.d[0] = 1;

          auto* slice_pos_layer = TRT_ENGINE_ADD_LAYER(
              engine_, Slice, *pos_id_layer->getOutput(0), start, size, stride);
          slice_pos_layer->setInput(2, *size_layer->getOutput(0));
          plugin_inputs.emplace_back(slice_pos_layer->getOutput(0));

          // input_3 for plugin
          std::vector<int> data(500, 1);
          nvinfer1::ITensor* fake_max_seqlen_tensor = Add1DConstantLayer(data);
          auto* slice_max_layer = TRT_ENGINE_ADD_LAYER(
              engine_, Slice, *fake_max_seqlen_tensor, start, size, stride);
          slice_max_layer->setInput(2, *length_tensor);
          plugin_inputs.emplace_back(slice_max_layer->getOutput(0));
          // plugin_layer
          auto plugin_layer = engine_->network()->addPluginV2(
              plugin_inputs.data(), plugin_inputs.size(), *plugin);

          // add shuffle
          auto* reshape_after_mha_layer = TRT_ENGINE_ADD_LAYER(
              engine_, Shuffle, *plugin_layer->getOutput(0));
          std::vector<nvinfer1::ITensor*> reshape_tensor;
          reshape_tensor.push_back(batch_tensor);
          reshape_tensor.push_back(length_tensor);
          reshape_tensor.push_back(Add1DConstantLayer(-1));
          reshape_after_mha_layer->setInput(1, *Concat(reshape_tensor));
          reshape_after_mha_layer->setName(
              ("shuffle_last_multihead_matmul(Output: " + output_name + ")")
                  .c_str());
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          // return
          layer = reshape_after_mha_layer;
        } else {
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          PADDLE_ENFORCE_EQ(
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              input->getDimensions().nbDims,
              3,
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              platform::errors::InvalidArgument(
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                  "The Input dim of the MultiheadMatMul should be 3, "
                  "but it's (%d) now.",
                  input->getDimensions().nbDims));
          // transpose weight_data from m * n to  n * m

          TensorRTEngine::Weight weight{nvinfer1::DataType::kFLOAT,
                                        static_cast<void*>(weight_data),
                                        static_cast<size_t>(weight_t->numel())};
          weight.dims.assign({n, m});

          TensorRTEngine::Weight bias{nvinfer1::DataType::kFLOAT,
                                      static_cast<void*>(bias_data),
                                      static_cast<size_t>(bias_t->numel())};

          // add shuffle before fc
          std::vector<nvinfer1::ITensor*> reshape_before_fc_shape_tensor;
          nvinfer1::ITensor* input_shape_tensor = Shape(input);

          for (int i = 0; i < 5; i++) {
            reshape_before_fc_shape_tensor.push_back(Add1DConstantLayer(1));
          }
          for (int i = 0; i < 3; i++) {
            reshape_before_fc_shape_tensor[i] =
                GetEleTensorOfShape(input_shape_tensor, i);
          }
          auto* reshape_before_fc_layer =
              TRT_ENGINE_ADD_LAYER(engine_, Shuffle, *input);
          if (op_desc.HasAttr("Input_scale")) {
            engine_->SetTensorDynamicRange(
                reshape_before_fc_layer->getOutput(0), in_scale);
          }
          reshape_before_fc_layer->setInput(
              1, *Concat(reshape_before_fc_shape_tensor));
          reshape_before_fc_layer->setName(
              ("shuffle_before_multihead_mamul(Output: " + output_name + ")")
                  .c_str());

          // add layer fc
          nvinfer1::ILayer* fc_layer = nullptr;
          if (op_desc.HasAttr("Input_scale")) {
            nvinfer1::DimsHW nv_ksize(1, 1);
            fc_layer =
                TRT_ENGINE_ADD_LAYER(engine_,
                                     Convolution,
                                     *reshape_before_fc_layer->getOutput(0),
                                     n,
                                     nv_ksize,
                                     weight.get(),
                                     bias.get());
          } else {
            fc_layer =
                TRT_ENGINE_ADD_LAYER(engine_,
                                     FullyConnected,
                                     *reshape_before_fc_layer->getOutput(0),
                                     n,
                                     weight.get(),
                                     bias.get());
          }

          if (op_desc.HasAttr("fc_out_threshold")) {
            PADDLE_ENFORCE_EQ(op_desc.HasAttr("fc_out_threshold"),
                              true,
                              platform::errors::InvalidArgument(
                                  "must have out threshold in multihead layers "
                                  "in int8 mode"));
            float out_scale =
                PADDLE_GET_CONST(float, op_desc.GetAttr("fc_out_threshold"));
            engine_->SetTensorDynamicRange(fc_layer->getOutput(0), out_scale);
          }
          fc_layer->setName(
              ("multihead_mamul_fc(Output: " + output_name + ")").c_str());
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          // no need to add shuffle after fc, just change it in
          // QkvToContextPluginDynamic
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          // add qkv to context
          int head_size = hidden_out / head_number;
          float scale = PADDLE_GET_CONST(float, op_desc.GetAttr("alpha"));
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          std::vector<nvinfer1::ITensor*> plugin_inputs;
          plugin_inputs.push_back(fc_layer->getOutput(0));
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          auto inputs = op_desc.Inputs();
          bool hasBiasQK =
              (inputs.find("BiasQK") == inputs.end()) ? false : true;
          nvinfer1::ITensor* input_bias_qk = nullptr;
          if (hasBiasQK) {
            input_bias_qk =
                engine_->GetITensor(op_desc.Input("BiasQK").front());
          } else {
            // fake input will be updated in qkv_plugin
            input_bias_qk = fc_layer->getOutput(0);
          }
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          plugin_inputs.push_back(input_bias_qk);
          bool with_fp16 =
              engine_->WithFp16() && !engine_->disable_trt_plugin_fp16();
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          if (engine_->precision() == AnalysisConfig::Precision::kInt8) {
            with_fp16 = true;
          }
          plugin::DynamicPluginTensorRT* plugin =
              new plugin::QkvToContextPluginDynamic(
                  hidden_in, head_number, head_size, scale, with_fp16);
          layer = engine_->AddDynamicPlugin(plugin_inputs.data(), 2, plugin);
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        }
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      }
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    } else {
      PADDLE_THROW(platform::errors::Fatal(
          "You are running the Ernie(Bert) model in static shape mode, which "
          "is not supported for the time being.\n"
          "You can use the config.SetTRTDynamicShapeInfo(...) interface to set "
          "the shape information to run the dynamic shape mode."));
    }
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    RreplenishLayerAndOutput(
        layer, "multihead_matmul", {output_name}, test_mode);
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  }
};

}  // namespace tensorrt
}  // namespace inference
}  // namespace paddle

REGISTER_TRT_OP_CONVERTER(multihead_matmul, MultiheadMatMulOpConverter);