models/mobilenet-v1.cc

// Copyright 2019 Google LLC
//
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree.

#include <xnnpack.h>

#include <algorithm>
#include <functional>
#include <iostream>
#include <limits>
#include <random>

#include "models/models.h"

namespace models {

ExecutionPlan MobileNetV1(pthreadpool_t threadpool) {
  alignas(16) static float v0[150528];
  alignas(16) static float v1[401408];
  alignas(16) static float v2[401408];
  alignas(16) static float v3[802816];
  alignas(16) static float v4[200704];
  alignas(16) static float v5[401408];
  alignas(16) static float v6[401408];
  alignas(16) static float v7[401408];
  alignas(16) static float v8[100352];
  alignas(16) static float v9[200704];
  alignas(16) static float v10[200704];
  alignas(16) static float v11[200704];
  alignas(16) static float v12[50176];
  alignas(16) static float v13[100352];
  alignas(16) static float v14[100352];
  alignas(16) static float v15[100352];
  alignas(16) static float v16[100352];
  alignas(16) static float v17[100352];
  alignas(16) static float v18[100352];
  alignas(16) static float v19[100352];
  alignas(16) static float v20[100352];
  alignas(16) static float v21[100352];
  alignas(16) static float v22[100352];
  alignas(16) static float v23[100352];
  alignas(16) static float v24[25088];
  alignas(16) static float v25[50176];
  alignas(16) static float v26[50176];
  alignas(16) static float v27[50176];
  alignas(16) static float v28[1024];
  alignas(16) static float v29[1001];
  alignas(16) static float w30[864];
  alignas(16) static float w31[32];
  alignas(16) static float w32[288];
  alignas(16) static float w33[32];
  alignas(16) static float w34[2048];
  alignas(16) static float w35[64];
  alignas(16) static float w36[576];
  alignas(16) static float w37[64];
  alignas(16) static float w38[8192];
  alignas(16) static float w39[128];
  alignas(16) static float w40[1152];
  alignas(16) static float w41[128];
  alignas(16) static float w42[16384];
  alignas(16) static float w43[128];
  alignas(16) static float w44[1152];
  alignas(16) static float w45[128];
  alignas(16) static float w46[32768];
  alignas(16) static float w47[256];
  alignas(16) static float w48[2304];
  alignas(16) static float w49[256];
  alignas(16) static float w50[65536];
  alignas(16) static float w51[256];
  alignas(16) static float w52[2304];
  alignas(16) static float w53[256];
  alignas(16) static float w54[131072];
  alignas(16) static float w55[512];
  alignas(16) static float w56[4608];
  alignas(16) static float w57[512];
  alignas(16) static float w58[262144];
  alignas(16) static float w59[512];
  alignas(16) static float w60[4608];
  alignas(16) static float w61[512];
  alignas(16) static float w62[262144];
  alignas(16) static float w63[512];
  alignas(16) static float w64[4608];
  alignas(16) static float w65[512];
  alignas(16) static float w66[262144];
  alignas(16) static float w67[512];
  alignas(16) static float w68[4608];
  alignas(16) static float w69[512];
  alignas(16) static float w70[262144];
  alignas(16) static float w71[512];
  alignas(16) static float w72[4608];
  alignas(16) static float w73[512];
  alignas(16) static float w74[262144];
  alignas(16) static float w75[512];
  alignas(16) static float w76[4608];
  alignas(16) static float w77[512];
  alignas(16) static float w78[524288];
  alignas(16) static float w79[1024];
  alignas(16) static float w80[9216];
  alignas(16) static float w81[1024];
  alignas(16) static float w82[1048576];
  alignas(16) static float w83[1024];
  alignas(16) static float w84[1025024];
  alignas(16) static float w85[1001];

  std::random_device random_device;
  auto rng = std::mt19937(random_device());
  auto f32rng = std::bind(std::uniform_real_distribution<float>(-1.0f, +1.0f), rng);
  std::generate(v0, v0 + 150528, std::ref(f32rng));
  std::generate(w30, w30 + 864, std::ref(f32rng));
  std::generate(w31, w31 + 32, std::ref(f32rng));
  std::generate(w32, w32 + 288, std::ref(f32rng));
  std::generate(w33, w33 + 32, std::ref(f32rng));
  std::generate(w34, w34 + 2048, std::ref(f32rng));
  std::generate(w35, w35 + 64, std::ref(f32rng));
  std::generate(w36, w36 + 576, std::ref(f32rng));
  std::generate(w37, w37 + 64, std::ref(f32rng));
  std::generate(w38, w38 + 8192, std::ref(f32rng));
  std::generate(w39, w39 + 128, std::ref(f32rng));
  std::generate(w40, w40 + 1152, std::ref(f32rng));
  std::generate(w41, w41 + 128, std::ref(f32rng));
  std::generate(w42, w42 + 16384, std::ref(f32rng));
  std::generate(w43, w43 + 128, std::ref(f32rng));
  std::generate(w44, w44 + 1152, std::ref(f32rng));
  std::generate(w45, w45 + 128, std::ref(f32rng));
  std::generate(w46, w46 + 32768, std::ref(f32rng));
  std::generate(w47, w47 + 256, std::ref(f32rng));
  std::generate(w48, w48 + 2304, std::ref(f32rng));
  std::generate(w49, w49 + 256, std::ref(f32rng));
  std::generate(w50, w50 + 65536, std::ref(f32rng));
  std::generate(w51, w51 + 256, std::ref(f32rng));
  std::generate(w52, w52 + 2304, std::ref(f32rng));
  std::generate(w53, w53 + 256, std::ref(f32rng));
  std::generate(w54, w54 + 131072, std::ref(f32rng));
  std::generate(w55, w55 + 512, std::ref(f32rng));
  std::generate(w56, w56 + 4608, std::ref(f32rng));
  std::generate(w57, w57 + 512, std::ref(f32rng));
  std::generate(w58, w58 + 262144, std::ref(f32rng));
  std::generate(w59, w59 + 512, std::ref(f32rng));
  std::generate(w60, w60 + 4608, std::ref(f32rng));
  std::generate(w61, w61 + 512, std::ref(f32rng));
  std::generate(w62, w62 + 262144, std::ref(f32rng));
  std::generate(w63, w63 + 512, std::ref(f32rng));
  std::generate(w64, w64 + 4608, std::ref(f32rng));
  std::generate(w65, w65 + 512, std::ref(f32rng));
  std::generate(w66, w66 + 262144, std::ref(f32rng));
  std::generate(w67, w67 + 512, std::ref(f32rng));
  std::generate(w68, w68 + 4608, std::ref(f32rng));
  std::generate(w69, w69 + 512, std::ref(f32rng));
  std::generate(w70, w70 + 262144, std::ref(f32rng));
  std::generate(w71, w71 + 512, std::ref(f32rng));
  std::generate(w72, w72 + 4608, std::ref(f32rng));
  std::generate(w73, w73 + 512, std::ref(f32rng));
  std::generate(w74, w74 + 262144, std::ref(f32rng));
  std::generate(w75, w75 + 512, std::ref(f32rng));
  std::generate(w76, w76 + 4608, std::ref(f32rng));
  std::generate(w77, w77 + 512, std::ref(f32rng));
  std::generate(w78, w78 + 524288, std::ref(f32rng));
  std::generate(w79, w79 + 1024, std::ref(f32rng));
  std::generate(w80, w80 + 9216, std::ref(f32rng));
  std::generate(w81, w81 + 1024, std::ref(f32rng));
  std::generate(w82, w82 + 1048576, std::ref(f32rng));
  std::generate(w83, w83 + 1024, std::ref(f32rng));
  std::generate(w84, w84 + 1025024, std::ref(f32rng));
  std::generate(w85, w85 + 1001, std::ref(f32rng));

  ExecutionPlan operators;
  xnn_status status;

  xnn_operator_t op0 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 0 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    2 /* subsampling height */, 2 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    3 /* input channels per group */,
    32 /* output_channels_per_group */,
    3 /* input pixel stride */,
    32 /* output pixel stride */,
    w30, w31,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op0);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #0" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op0, xnn_delete_operator);

  xnn_operator_t op1 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    1 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 1 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    32 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    32 /* input pixel stride */,
    32 /* output pixel stride */,
    w32, w33,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op1);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #1" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op1, xnn_delete_operator);

  xnn_operator_t op2 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    32 /* input channels per group */,
    64 /* output_channels_per_group */,
    32 /* input pixel stride */,
    64 /* output pixel stride */,
    w34, w35,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op2);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #2" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op2, xnn_delete_operator);

  xnn_operator_t op3 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 0 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    2 /* subsampling height */, 2 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    64 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    64 /* input pixel stride */,
    64 /* output pixel stride */,
    w36, w37,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op3);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #3" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op3, xnn_delete_operator);

  xnn_operator_t op4 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    64 /* input channels per group */,
    128 /* output_channels_per_group */,
    64 /* input pixel stride */,
    128 /* output pixel stride */,
    w38, w39,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op4);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #4" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op4, xnn_delete_operator);

  xnn_operator_t op5 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    1 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 1 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    128 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    128 /* input pixel stride */,
    128 /* output pixel stride */,
    w40, w41,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op5);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #5" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op5, xnn_delete_operator);

  xnn_operator_t op6 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    128 /* input channels per group */,
    128 /* output_channels_per_group */,
    128 /* input pixel stride */,
    128 /* output pixel stride */,
    w42, w43,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op6);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #6" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op6, xnn_delete_operator);

  xnn_operator_t op7 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 0 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    2 /* subsampling height */, 2 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    128 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    128 /* input pixel stride */,
    128 /* output pixel stride */,
    w44, w45,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op7);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #7" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op7, xnn_delete_operator);

  xnn_operator_t op8 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    128 /* input channels per group */,
    256 /* output_channels_per_group */,
    128 /* input pixel stride */,
    256 /* output pixel stride */,
    w46, w47,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op8);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #8" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op8, xnn_delete_operator);

  xnn_operator_t op9 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    1 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 1 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    256 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    256 /* input pixel stride */,
    256 /* output pixel stride */,
    w48, w49,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op9);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #9" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op9, xnn_delete_operator);

  xnn_operator_t op10 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    256 /* input channels per group */,
    256 /* output_channels_per_group */,
    256 /* input pixel stride */,
    256 /* output pixel stride */,
    w50, w51,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op10);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #10" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op10, xnn_delete_operator);

  xnn_operator_t op11 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 0 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    2 /* subsampling height */, 2 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    256 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    256 /* input pixel stride */,
    256 /* output pixel stride */,
    w52, w53,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op11);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #11" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op11, xnn_delete_operator);

  xnn_operator_t op12 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    256 /* input channels per group */,
    512 /* output_channels_per_group */,
    256 /* input pixel stride */,
    512 /* output pixel stride */,
    w54, w55,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op12);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #12" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op12, xnn_delete_operator);

  xnn_operator_t op13 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    1 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 1 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    512 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w56, w57,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op13);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #13" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op13, xnn_delete_operator);

  xnn_operator_t op14 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    512 /* input channels per group */,
    512 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w58, w59,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op14);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #14" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op14, xnn_delete_operator);

  xnn_operator_t op15 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    1 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 1 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    512 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w60, w61,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op15);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #15" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op15, xnn_delete_operator);

  xnn_operator_t op16 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    512 /* input channels per group */,
    512 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w62, w63,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op16);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #16" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op16, xnn_delete_operator);

  xnn_operator_t op17 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    1 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 1 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    512 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w64, w65,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op17);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #17" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op17, xnn_delete_operator);

  xnn_operator_t op18 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    512 /* input channels per group */,
    512 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w66, w67,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op18);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #18" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op18, xnn_delete_operator);

  xnn_operator_t op19 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    1 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 1 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    512 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w68, w69,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op19);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #19" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op19, xnn_delete_operator);

  xnn_operator_t op20 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    512 /* input channels per group */,
    512 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w70, w71,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op20);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #20" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op20, xnn_delete_operator);

  xnn_operator_t op21 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    1 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 1 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    512 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w72, w73,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op21);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #21" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op21, xnn_delete_operator);

  xnn_operator_t op22 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    512 /* input channels per group */,
    512 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w74, w75,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op22);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #22" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op22, xnn_delete_operator);

  xnn_operator_t op23 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 0 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    2 /* subsampling height */, 2 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    512 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    512 /* input pixel stride */,
    512 /* output pixel stride */,
    w76, w77,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op23);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #23" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op23, xnn_delete_operator);

  xnn_operator_t op24 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    512 /* input channels per group */,
    1024 /* output_channels_per_group */,
    512 /* input pixel stride */,
    1024 /* output pixel stride */,
    w78, w79,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op24);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #24" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op24, xnn_delete_operator);

  xnn_operator_t op25 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    1 /* top padding */, 1 /* right padding */,
    1 /* bottom padding */, 1 /* left padding */,
    3 /* kernel height */, 3 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1024 /* groups */,
    1 /* input channels per group */,
    1 /* output_channels_per_group */,
    1024 /* input pixel stride */,
    1024 /* output pixel stride */,
    w80, w81,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op25);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #25" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op25, xnn_delete_operator);

  xnn_operator_t op26 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    1024 /* input channels per group */,
    1024 /* output_channels_per_group */,
    1024 /* input pixel stride */,
    1024 /* output pixel stride */,
    w82, w83,
    0.0f /* output min */, 6.0f /* output max */,
    0 /* flags */,
    &op26);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #26" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op26, xnn_delete_operator);

  xnn_operator_t op27 = nullptr;
  status = xnn_create_global_average_pooling_nwc_f32(
    1024 /* channels */, 1024 /* input stride */, 1024 /* output stride */,
    -std::numeric_limits<float>::infinity(), std::numeric_limits<float>::infinity(),
    0 /* flags */,
    &op27);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #27" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op27, xnn_delete_operator);

  xnn_operator_t op28 = nullptr;
  status = xnn_create_convolution2d_nhwc_f32(
    0 /* top padding */, 0 /* right padding */,
    0 /* bottom padding */, 0 /* left padding */,
    1 /* kernel height */, 1 /* kernel width */,
    1 /* subsampling height */, 1 /* subsampling width */,
    1 /* dilation_height */, 1 /* dilation_width */,
    1 /* groups */,
    1024 /* input channels per group */,
    1001 /* output_channels_per_group */,
    1024 /* input pixel stride */,
    1001 /* output pixel stride */,
    w84, w85,
    -std::numeric_limits<float>::infinity() /* output min */, std::numeric_limits<float>::infinity() /* output max */,
    0 /* flags */,
    &op28);
  if (status != xnn_status_success) {
    std::cerr << "failed to create operation #28" << std::endl;
    return ExecutionPlan();
  }
  operators.emplace_back(op28, xnn_delete_operator);



  status = xnn_setup_convolution2d_nhwc_f32(
    op0,
    1 /* batch size */, 224 /* input height */, 224 /* input width */,
    &v0[0] /* input */, &v1[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #0" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op1,
    1 /* batch size */, 112 /* input height */, 112 /* input width */,
    &v1[0] /* input */, &v2[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #1" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op2,
    1 /* batch size */, 112 /* input height */, 112 /* input width */,
    &v2[0] /* input */, &v3[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #2" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op3,
    1 /* batch size */, 112 /* input height */, 112 /* input width */,
    &v3[0] /* input */, &v4[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #3" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op4,
    1 /* batch size */, 56 /* input height */, 56 /* input width */,
    &v4[0] /* input */, &v5[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #4" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op5,
    1 /* batch size */, 56 /* input height */, 56 /* input width */,
    &v5[0] /* input */, &v6[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #5" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op6,
    1 /* batch size */, 56 /* input height */, 56 /* input width */,
    &v6[0] /* input */, &v7[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #6" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op7,
    1 /* batch size */, 56 /* input height */, 56 /* input width */,
    &v7[0] /* input */, &v8[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #7" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op8,
    1 /* batch size */, 28 /* input height */, 28 /* input width */,
    &v8[0] /* input */, &v9[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #8" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op9,
    1 /* batch size */, 28 /* input height */, 28 /* input width */,
    &v9[0] /* input */, &v10[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #9" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op10,
    1 /* batch size */, 28 /* input height */, 28 /* input width */,
    &v10[0] /* input */, &v11[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #10" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op11,
    1 /* batch size */, 28 /* input height */, 28 /* input width */,
    &v11[0] /* input */, &v12[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #11" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op12,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v12[0] /* input */, &v13[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #12" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op13,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v13[0] /* input */, &v14[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #13" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op14,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v14[0] /* input */, &v15[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #14" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op15,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v15[0] /* input */, &v16[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #15" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op16,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v16[0] /* input */, &v17[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #16" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op17,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v17[0] /* input */, &v18[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #17" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op18,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v18[0] /* input */, &v19[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #18" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op19,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v19[0] /* input */, &v20[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #19" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op20,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v20[0] /* input */, &v21[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #20" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op21,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v21[0] /* input */, &v22[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #21" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op22,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v22[0] /* input */, &v23[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #22" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op23,
    1 /* batch size */, 14 /* input height */, 14 /* input width */,
    &v23[0] /* input */, &v24[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #23" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op24,
    1 /* batch size */, 7 /* input height */, 7 /* input width */,
    &v24[0] /* input */, &v25[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #24" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op25,
    1 /* batch size */, 7 /* input height */, 7 /* input width */,
    &v25[0] /* input */, &v26[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #25" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op26,
    1 /* batch size */, 7 /* input height */, 7 /* input width */,
    &v26[0] /* input */, &v27[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #26" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_global_average_pooling_nwc_f32(
    op27,
    1 /* batch size */, 49 /* width */,
    &v27[0] /* input */, &v28[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #27" << std::endl;
    return ExecutionPlan();
  }

  status = xnn_setup_convolution2d_nhwc_f32(
    op28,
    1 /* batch size */, 1 /* input height */, 1 /* input width */,
    &v28[0] /* input */, &v29[0] /* output */,
    threadpool /* threadpool */);
  if (status != xnn_status_success) {
    std::cerr << "failed to setup operation #28" << std::endl;
    return ExecutionPlan();
  }

  #pragma clang diagnostic push
  #pragma clang diagnostic ignored "-Wpessimizing-move"
  return operators;
  #pragma clang diagnostic pop
}

}  // namespace models