precision_profiler.h 15.6 KB
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// Copyright (c) 2019 PaddlePaddle Authors. All Rights Reserved.
//
// 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.

/*
 * This file implements BasicProfile, a profiler that helps to profile the basic
 * CPU execution. It can display the min, max, average lantency of the execution
 * of each kernel.
 */
#pragma once
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#include <cmath>
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#include <string>
#include <vector>
#include "lite/core/program.h"
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#include "lite/fluid/float16.h"
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#ifdef LITE_WITH_OPENCL
#include "lite/backends/opencl/cl_image_converter.h"
#include "lite/backends/opencl/cl_include.h"
#include "lite/kernels/opencl/image_helper.h"
#endif

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namespace paddle {
namespace lite {
namespace profile {

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template <typename dtype>
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static bool write_tensorfile(const Tensor* tensor, const std::string& locate) {
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  if (locate.find('/') != std::string::npos) {
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    return false;
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  }
  FILE* fp = fopen(locate.c_str(), "w");
  if (fp == nullptr) {
    LOG(ERROR) << "file open field " << locate;
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    return false;
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  } else {
    const dtype* data = tensor->data<dtype>();
    for (int i = 0; i < tensor->numel(); ++i) {
      fprintf(fp, "[%d] %f \n", i, static_cast<float>(data[i]));
    }
  }
  fclose(fp);
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  return true;
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}

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static bool write_precision_summary_tofile(const std::string& string,
                                           const std::string& log_dir = "") {
  if (log_dir == "") {
    LOG(INFO) << "The `log_dir` of precision summary file is not set. log_dir:"
              << log_dir;
    return false;
  }
  FILE* fp = fopen(log_dir.c_str(), "a");
  if (fp == nullptr) {
    LOG(INFO) << "Open precision summary file:" << log_dir << "failed.";
    return false;
  } else {
    fprintf(fp, "%s\n", string.c_str());
  }
  fclose(fp);
  return true;
}

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class PrecisionProfiler {
 public:
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  // TODO(ysh329): need to remove `explicit PrecisionProfiler`
  // keep this method only for arm/math/conditional
  explicit PrecisionProfiler(const Instruction* inst) {
    std::string inst_precison_str = GetInstPrecision(inst);
  }

  PrecisionProfiler() {}

  std::string GetSummaryHeader() {
    using std::setw;
    using std::left;
    using std::fixed;
    STL::stringstream ss;
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    ss << "\n\n========================================= "
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       << "Detailed Precision Profiler Summary "
       << "=========================================" << std::endl;
    ss << setw(45) << left << "operator:(kernel_info)"
       << " " << setw(70) << left << "output_tensor_name:(tensor_info)"
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       << " " << setw(15) << left << "dims"
       << " " << setw(15) << left << "mean"
       << " " << setw(15) << left << "std_deviation"
       << " " << setw(15) << left << "ave_grow_rate*" << std::endl;
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    // write to file with path: `log_dir`
    if (log_dir_ != "") {
      FILE* fp = fopen(log_dir_.c_str(), "a");
      std::string header_str{ss.str()};
      fprintf(fp, "%s\n", header_str.c_str());
      fclose(fp);
    }
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    return ss.str();
  }

  template <typename T>
  double compute_mean(const T* in, const size_t length) {
    double sum = 0.;
    for (size_t i = 0; i < length; ++i) {
      sum += in[i];
    }
    return sum / length;
  }

  template <typename T>
  double compute_standard_deviation(const T* in,
                                    const size_t length,
                                    bool has_mean = false,
                                    double mean = 10000) {
    if (!has_mean) {
      mean = compute_mean<T>(in, length);
    }

    double variance = 0.;
    for (size_t i = 0; i < length; ++i) {
      variance += pow((in[i] - mean), 2);
    }
    variance /= length;
    return sqrt(variance);
  }

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  template <typename T>
  double compute_average_grow_rate(const T* in, const size_t length) {
    const double eps = 1e-5;
    double ave_grow_rate = 0.0f;
    for (size_t i = 1; i < length; ++i) {
      ave_grow_rate += (in[i] - in[i - 1]) / (in[i - 1] + eps);
    }
    ave_grow_rate /= length;
    return ave_grow_rate;
  }

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  // check if output tensor unused
  bool is_unused(const Tensor* in) {
    if (!in->data<int8_t>()) {
      return true;
    }
    return false;
  }

  void compute_tensor_precision_info(const Tensor* in,
                                     TargetType target_type,
                                     PrecisionType precision_type,
                                     DataLayoutType layout_type,
                                     double* mean,
                                     double* std_dev,
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                                     double* ave_grow_rate,
                                     std::string name = "inst",
                                     bool write_result_to_file = false) {
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    std::string unsupported_error_log =
        "Unsupported precision profile for kernel registered on" +
        TargetToStr(target_type) + "/" + PrecisionToStr(precision_type) + "/" +
        DataLayoutToStr(layout_type);

    if (target_type == TARGET(kARM) || target_type == TARGET(kHost) ||
        target_type == TARGET(kX86)) {
      switch (precision_type) {
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        case PRECISION(kFloat): {
          auto ptr = in->data<float>();
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          *mean = compute_mean<float>(ptr, in->numel());
          *std_dev =
              compute_standard_deviation<float>(ptr, in->numel(), true, *mean);
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          *ave_grow_rate = compute_average_grow_rate<float>(ptr, in->numel());
          write_result_to_file&& write_tensorfile<float>(in, name);
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          return;
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        }
        case PRECISION(kAny): {
          auto ptr = in->data<float>();
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          *mean = compute_mean<float>(ptr, in->numel());
          *std_dev =
              compute_standard_deviation<float>(ptr, in->numel(), true, *mean);
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          *ave_grow_rate = compute_average_grow_rate<float>(ptr, in->numel());
          write_result_to_file&& write_tensorfile<float>(in, name);
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          return;
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        }
        case PRECISION(kInt8): {
          auto ptr = in->data<int8_t>();
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          *mean = compute_mean<int8_t>(ptr, in->numel());
          *std_dev =
              compute_standard_deviation<int8_t>(ptr, in->numel(), true, *mean);
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          *ave_grow_rate = compute_average_grow_rate<int8_t>(ptr, in->numel());
          write_result_to_file&& write_tensorfile<int8_t>(in, name);
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          return;
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        }
        case PRECISION(kInt32): {
          auto ptr = in->data<int32_t>();
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          *mean = compute_mean<int32_t>(ptr, in->numel());
          *std_dev = compute_standard_deviation<int32_t>(
              ptr, in->numel(), true, *mean);
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          *ave_grow_rate = compute_average_grow_rate<int32_t>(ptr, in->numel());
          write_result_to_file&& write_tensorfile<int32_t>(in, name);
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          return;
        }
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        case PRECISION(kInt64): {
          auto ptr = in->data<int64_t>();
          *mean = compute_mean<int64_t>(ptr, in->numel());
          *std_dev = compute_standard_deviation<int64_t>(
              ptr, in->numel(), true, *mean);
          return;
        }
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        default:
          *mean = -333333333333;
          *std_dev = -33333333333;
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          *ave_grow_rate = -33333333333;
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          LOG(ERROR) << unsupported_error_log;
          return;
      }
#ifdef LITE_WITH_OPENCL
    } else if (target_type == TARGET(kOpenCL)) {
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      CLRuntime::Global()->command_queue().finish();
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      switch (layout_type) {
        case DATALAYOUT(kImageDefault): {
          paddle::lite::CLImageConverterDefault default_convertor;
          auto image_shape = default_convertor.InitImageDimInfoWith(in->dims());
          size_t im_w = image_shape[0];
          size_t im_h = image_shape[1];
          VLOG(1) << "image shape(W,H) of " << name << ": " << im_w << " "
                  << im_h;
          std::vector<uint16_t> in_data_v(im_w * im_h * 4);
          std::vector<float> real_out_v(in->numel());
          const size_t cl_image2d_row_pitch{0};
          const size_t cl_image2d_slice_pitch{0};
          TargetWrapperCL::ImgcpySync(in_data_v.data(),
                                      in->data<uint16_t, cl::Image2D>(),
                                      im_w,
                                      im_h,
                                      cl_image2d_row_pitch,
                                      cl_image2d_slice_pitch,
                                      IoDirection::DtoH);
          default_convertor.ImageToNCHW(
              in_data_v.data(), real_out_v.data(), image_shape, in->dims());
          CHECK(real_out_v.size() == in->numel());
          *mean = compute_mean<float>(real_out_v.data(), real_out_v.size());
          *std_dev = compute_standard_deviation<float>(
              real_out_v.data(), in->numel(), true, *mean);
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          *ave_grow_rate = compute_average_grow_rate<float>(real_out_v.data(),
                                                            real_out_v.size());
          write_result_to_file&& write_tensorfile<float>(in, name);
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          return;
        }
        case DATALAYOUT(kNCHW): {
          std::vector<float> in_data_v(in->numel(), 0);
          TargetWrapperCL::MemcpySync(in_data_v.data(),
                                      in->data<float>(),
                                      in->numel() * sizeof(float),
                                      IoDirection::DtoH);
          VLOG(1) << name << ":" << in->numel();
          *mean = compute_mean<float>(in_data_v.data(), in->numel());
          *std_dev = compute_standard_deviation<float>(
              in_data_v.data(), in->numel(), true, *mean);
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          *ave_grow_rate =
              compute_average_grow_rate<float>(in_data_v.data(), in->numel());
          write_result_to_file&& write_tensorfile<float>(in, name);
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          return;
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        }
        default:
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          *mean = -222222222222;
          *std_dev = -22222222222;
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          *ave_grow_rate = -22222222222;
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          LOG(ERROR) << unsupported_error_log;
          return;
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      }
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#endif
    } else {
      *mean = -111111111111;
      *std_dev = -11111111111;
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      *ave_grow_rate = -11111111111;
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      LOG(ERROR) << unsupported_error_log;
      return;
    }
  }

  std::string GetInstPrecision(const Instruction* inst = nullptr) {
    using std::setw;
    using std::left;
    using std::fixed;
    STL::stringstream ss;
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    bool write_result_to_file = false;
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    VLOG(1) << ">> Running kernel: " << inst->op()->op_info()->Repr()
            << " registered on " << TargetToStr(inst->kernel()->target()) << "/"
            << PrecisionToStr(inst->kernel()->precision()) << "/"
            << DataLayoutToStr(inst->kernel()->layout());

    std::string kernel_repr = inst->op()->op_info()->Repr();
    std::string kernel_place = TargetToStr(inst->kernel()->target()) + "/" +
                               PrecisionToStr(inst->kernel()->precision()) +
                               "/" + DataLayoutToStr(inst->kernel()->layout());
    std::string op_name = inst->op()->op_info()->Type();

    if (inst->op()->op_info()->Type() != "fetch") {
      auto op = const_cast<lite::OpLite*>(inst->op());
      auto kernel = inst->kernel();
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      auto op_scope = op->scope();
      auto out_names = op->op_info()->output_names();
      for (auto& out_name : out_names) {
        std::string out_arg_name;
        op->op_info()->GetOutputArgname(out_name, &out_arg_name);
        auto type = kernel->GetOutputDeclType(out_arg_name);
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        if (type->IsTensor()) {
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          const Tensor* tout =
              op_scope->FindVar(out_name)->GetMutable<Tensor>();
          double mean = -999999;
          double std_dev = -100000;
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          double ave_grow_rate = 99999;
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          std::string mean_str{"unused"};
          std::string std_dev_str{"unused"};
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          std::string ave_grow_rate_str{"unused"};
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          if (!is_unused(tout)) {
            compute_tensor_precision_info(tout,
                                          type->target(),
                                          type->precision(),
                                          type->layout(),
                                          &mean,
                                          &std_dev,
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                                          &ave_grow_rate,
                                          out_name,
                                          write_result_to_file);
            mean_str = std::to_string(mean);
            std_dev_str = std::to_string(std_dev);
            ave_grow_rate_str = std::to_string(ave_grow_rate);
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          }
          std::string kernel_info = op_name + ":" + kernel_place;
          std::string output_arg_info = out_name + ":" +
                                        TargetToStr(type->target()) + "/" +
                                        PrecisionToStr(type->precision()) +
                                        "/" + DataLayoutToStr(type->layout());

          ss << setw(45) << left << kernel_info << " " << setw(70) << left
             << output_arg_info << " " << setw(15) << left << tout->dims()
             << " " << setw(15) << left << mean_str << " " << setw(15) << left
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             << std_dev_str << " " << setw(15) << left << ave_grow_rate_str
             << std::endl;
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        } else if (type->IsTensorList()) {
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          auto touts =
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              op_scope->FindVar(out_name)->GetMutable<std::vector<Tensor>>();
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          for (auto t : *touts) {
            const Tensor* tout = &t;
            double mean = -999999;
            double std_dev = -100000;
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            double ave_grow_rate = 99999;
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            std::string mean_str{"unused"};
            std::string std_dev_str{"unused"};
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            std::string ave_grow_rate_str{"unused"};
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            if (!is_unused(tout)) {
              compute_tensor_precision_info(tout,
                                            type->target(),
                                            type->precision(),
                                            type->layout(),
                                            &mean,
                                            &std_dev,
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                                            &ave_grow_rate,
                                            out_name,
                                            write_result_to_file);
              mean_str = std::to_string(mean);
              std_dev_str = std::to_string(std_dev);
              ave_grow_rate_str = std::to_string(ave_grow_rate);
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            }
            std::string kernel_info = op_name + ":" + kernel_place;
            std::string output_arg_info = out_name + ":" +
                                          TargetToStr(type->target()) + "/" +
                                          PrecisionToStr(type->precision()) +
                                          "/" + DataLayoutToStr(type->layout());

            ss << setw(45) << left << kernel_info << " " << setw(70) << left
               << output_arg_info << " " << setw(15) << left << tout->dims()
               << " " << setw(15) << left << mean_str << " " << setw(15) << left
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               << std_dev_str << " " << setw(15) << left << ave_grow_rate_str
               << std::endl;
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          }
        }
      }
    }
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    write_precision_summary_tofile(ss.str(), log_dir_);
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    return ss.str();
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  }
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 private:
  std::string log_dir_{"/storage/emulated/0/precision.log"};
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};

}  // namespace profile
}  // namespace lite
}  // namespace paddle

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// TODO(ysh329): need to remove.
// keep this method only for arm/math/conditional_block_compute
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#define LITE_PRECISION_PROFILE(inst) \
  { auto a = paddle::lite::profile::PrecisionProfiler(&inst); }