// Copyright 2020 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 #include #include #include #include #include #include #include "models/models.h" namespace models { ExecutionPlan QS8MobileNetV2(pthreadpool_t threadpool) { alignas(16) static std::array v0; alignas(16) static std::array v1; alignas(16) static std::array v2; alignas(16) static std::array v3; alignas(16) static std::array v4; alignas(16) static std::array v5; alignas(16) static std::array v6; alignas(16) static std::array v7; alignas(16) static std::array v8; alignas(16) static std::array v9; alignas(16) static std::array v10; alignas(16) static std::array v11; alignas(16) static std::array v12; alignas(16) static std::array v13; alignas(16) static std::array v14; alignas(16) static std::array v15; alignas(16) static std::array v16; alignas(16) static std::array v17; alignas(16) static std::array v18; alignas(16) static std::array v19; alignas(16) static std::array v20; alignas(16) static std::array v21; alignas(16) static std::array v22; alignas(16) static std::array v23; alignas(16) static std::array v24; alignas(16) static std::array v25; alignas(16) static std::array v26; alignas(16) static std::array v27; alignas(16) static std::array v28; alignas(16) static std::array v29; alignas(16) static std::array v30; alignas(16) static std::array v31; alignas(16) static std::array v32; alignas(16) static std::array v33; alignas(16) static std::array v34; alignas(16) static std::array v35; alignas(16) static std::array v36; alignas(16) static std::array v37; alignas(16) static std::array v38; alignas(16) static std::array v39; alignas(16) static std::array v40; alignas(16) static std::array v41; alignas(16) static std::array v42; alignas(16) static std::array v43; alignas(16) static std::array v44; alignas(16) static std::array v45; alignas(16) static std::array v46; alignas(16) static std::array v47; alignas(16) static std::array v48; alignas(16) static std::array v49; alignas(16) static std::array v50; alignas(16) static std::array v51; alignas(16) static std::array v52; alignas(16) static std::array v53; alignas(16) static std::array v54; alignas(16) static std::array v55; alignas(16) static std::array v56; alignas(16) static std::array v57; alignas(16) static std::array v58; alignas(16) static std::array v59; alignas(16) static std::array v60; alignas(16) static std::array v61; alignas(16) static std::array v62; alignas(16) static std::array v63; alignas(16) static std::array v64; alignas(16) static std::array w65; alignas(16) static std::array w66; alignas(16) static std::array w67; alignas(16) static std::array w68; alignas(16) static std::array w69; alignas(16) static std::array w70; alignas(16) static std::array w71; alignas(16) static std::array w72; alignas(16) static std::array w73; alignas(16) static std::array w74; alignas(16) static std::array w75; alignas(16) static std::array w76; alignas(16) static std::array w77; alignas(16) static std::array w78; alignas(16) static std::array w79; alignas(16) static std::array w80; alignas(16) static std::array w81; alignas(16) static std::array w82; alignas(16) static std::array w83; alignas(16) static std::array w84; alignas(16) static std::array w85; alignas(16) static std::array w86; alignas(16) static std::array w87; alignas(16) static std::array w88; alignas(16) static std::array w89; alignas(16) static std::array w90; alignas(16) static std::array w91; alignas(16) static std::array w92; alignas(16) static std::array w93; alignas(16) static std::array w94; alignas(16) static std::array w95; alignas(16) static std::array w96; alignas(16) static std::array w97; alignas(16) static std::array w98; alignas(16) static std::array w99; alignas(16) static std::array w100; alignas(16) static std::array w101; alignas(16) static std::array w102; alignas(16) static std::array w103; alignas(16) static std::array w104; alignas(16) static std::array w105; alignas(16) static std::array w106; alignas(16) static std::array w107; alignas(16) static std::array w108; alignas(16) static std::array w109; alignas(16) static std::array w110; alignas(16) static std::array w111; alignas(16) static std::array w112; alignas(16) static std::array w113; alignas(16) static std::array w114; alignas(16) static std::array w115; alignas(16) static std::array w116; alignas(16) static std::array w117; alignas(16) static std::array w118; alignas(16) static std::array w119; alignas(16) static std::array w120; alignas(16) static std::array w121; alignas(16) static std::array w122; alignas(16) static std::array w123; alignas(16) static std::array w124; alignas(16) static std::array w125; alignas(16) static std::array w126; alignas(16) static std::array w127; alignas(16) static std::array w128; alignas(16) static std::array w129; alignas(16) static std::array w130; alignas(16) static std::array w131; alignas(16) static std::array w132; alignas(16) static std::array w133; alignas(16) static std::array w134; alignas(16) static std::array w135; alignas(16) static std::array w136; alignas(16) static std::array w137; alignas(16) static std::array w138; alignas(16) static std::array w139; alignas(16) static std::array w140; alignas(16) static std::array w141; alignas(16) static std::array w142; alignas(16) static std::array w143; alignas(16) static std::array w144; alignas(16) static std::array w145; alignas(16) static std::array w146; alignas(16) static std::array w147; alignas(16) static std::array w148; alignas(16) static std::array w149; alignas(16) static std::array w150; alignas(16) static std::array w151; alignas(16) static std::array w152; alignas(16) static std::array w153; alignas(16) static std::array w154; alignas(16) static std::array w155; alignas(16) static std::array w156; alignas(16) static std::array w157; alignas(16) static std::array w158; alignas(16) static std::array w159; alignas(16) static std::array w160; alignas(16) static std::array w161; alignas(16) static std::array w162; alignas(16) static std::array w163; alignas(16) static std::array w164; alignas(16) static std::array w165; alignas(16) static std::array w166; alignas(16) static std::array w167; alignas(16) static std::array w168; alignas(16) static std::array w169; alignas(16) static std::array w170; std::random_device random_device; auto rng = std::mt19937(random_device()); auto i8rng = std::bind(std::uniform_int_distribution(-127, 127), std::ref(rng)); auto i32rng = std::bind(std::uniform_int_distribution(-10000, 10000), std::ref(rng)); std::generate(v0.begin(), v0.end(), std::ref(i8rng)); std::generate(v1.begin(), v1.end(), std::ref(i8rng)); std::generate(v2.begin(), v2.end(), std::ref(i8rng)); std::generate(v3.begin(), v3.end(), std::ref(i8rng)); std::generate(v4.begin(), v4.end(), std::ref(i8rng)); std::generate(v5.begin(), v5.end(), std::ref(i8rng)); std::generate(v6.begin(), v6.end(), std::ref(i8rng)); std::generate(v7.begin(), v7.end(), std::ref(i8rng)); std::generate(v8.begin(), v8.end(), std::ref(i8rng)); std::generate(v9.begin(), v9.end(), std::ref(i8rng)); std::generate(v10.begin(), v10.end(), std::ref(i8rng)); std::generate(v11.begin(), v11.end(), std::ref(i8rng)); std::generate(v12.begin(), v12.end(), std::ref(i8rng)); std::generate(v13.begin(), v13.end(), std::ref(i8rng)); std::generate(v14.begin(), v14.end(), std::ref(i8rng)); std::generate(v15.begin(), v15.end(), std::ref(i8rng)); std::generate(v16.begin(), v16.end(), std::ref(i8rng)); std::generate(v17.begin(), v17.end(), std::ref(i8rng)); std::generate(v18.begin(), v18.end(), std::ref(i8rng)); std::generate(v19.begin(), v19.end(), std::ref(i8rng)); std::generate(v20.begin(), v20.end(), std::ref(i8rng)); std::generate(v21.begin(), v21.end(), std::ref(i8rng)); std::generate(v22.begin(), v22.end(), std::ref(i8rng)); std::generate(v23.begin(), v23.end(), std::ref(i8rng)); std::generate(v24.begin(), v24.end(), std::ref(i8rng)); std::generate(v25.begin(), v25.end(), std::ref(i8rng)); std::generate(v26.begin(), v26.end(), std::ref(i8rng)); std::generate(v27.begin(), v27.end(), std::ref(i8rng)); std::generate(v28.begin(), v28.end(), std::ref(i8rng)); std::generate(v29.begin(), v29.end(), std::ref(i8rng)); std::generate(v30.begin(), v30.end(), std::ref(i8rng)); std::generate(v31.begin(), v31.end(), std::ref(i8rng)); std::generate(v32.begin(), v32.end(), std::ref(i8rng)); std::generate(v33.begin(), v33.end(), std::ref(i8rng)); std::generate(v34.begin(), v34.end(), std::ref(i8rng)); std::generate(v35.begin(), v35.end(), std::ref(i8rng)); std::generate(v36.begin(), v36.end(), std::ref(i8rng)); std::generate(v37.begin(), v37.end(), std::ref(i8rng)); std::generate(v38.begin(), v38.end(), std::ref(i8rng)); std::generate(v39.begin(), v39.end(), std::ref(i8rng)); std::generate(v40.begin(), v40.end(), std::ref(i8rng)); std::generate(v41.begin(), v41.end(), std::ref(i8rng)); std::generate(v42.begin(), v42.end(), std::ref(i8rng)); std::generate(v43.begin(), v43.end(), std::ref(i8rng)); std::generate(v44.begin(), v44.end(), std::ref(i8rng)); std::generate(v45.begin(), v45.end(), std::ref(i8rng)); std::generate(v46.begin(), v46.end(), std::ref(i8rng)); std::generate(v47.begin(), v47.end(), std::ref(i8rng)); std::generate(v48.begin(), v48.end(), std::ref(i8rng)); std::generate(v49.begin(), v49.end(), std::ref(i8rng)); std::generate(v50.begin(), v50.end(), std::ref(i8rng)); std::generate(v51.begin(), v51.end(), std::ref(i8rng)); std::generate(v52.begin(), v52.end(), std::ref(i8rng)); std::generate(v53.begin(), v53.end(), std::ref(i8rng)); std::generate(v54.begin(), v54.end(), std::ref(i8rng)); std::generate(v55.begin(), v55.end(), std::ref(i8rng)); std::generate(v56.begin(), v56.end(), std::ref(i8rng)); std::generate(v57.begin(), v57.end(), std::ref(i8rng)); std::generate(v58.begin(), v58.end(), std::ref(i8rng)); std::generate(v59.begin(), v59.end(), std::ref(i8rng)); std::generate(v60.begin(), v60.end(), std::ref(i8rng)); std::generate(v61.begin(), v61.end(), std::ref(i8rng)); std::generate(v62.begin(), v62.end(), std::ref(i8rng)); std::generate(v63.begin(), v63.end(), std::ref(i8rng)); std::generate(v64.begin(), v64.end(), std::ref(i8rng)); std::generate(w65.begin(), w65.end(), std::ref(i8rng)); std::generate(w66.begin(), w66.end(), std::ref(i32rng)); std::generate(w67.begin(), w67.end(), std::ref(i8rng)); std::generate(w68.begin(), w68.end(), std::ref(i32rng)); std::generate(w69.begin(), w69.end(), std::ref(i8rng)); std::generate(w70.begin(), w70.end(), std::ref(i32rng)); std::generate(w71.begin(), w71.end(), std::ref(i8rng)); std::generate(w72.begin(), w72.end(), std::ref(i32rng)); std::generate(w73.begin(), w73.end(), std::ref(i8rng)); std::generate(w74.begin(), w74.end(), std::ref(i32rng)); std::generate(w75.begin(), w75.end(), std::ref(i8rng)); std::generate(w76.begin(), w76.end(), std::ref(i32rng)); std::generate(w77.begin(), w77.end(), std::ref(i8rng)); std::generate(w78.begin(), w78.end(), std::ref(i32rng)); std::generate(w79.begin(), w79.end(), std::ref(i8rng)); std::generate(w80.begin(), w80.end(), std::ref(i32rng)); std::generate(w81.begin(), w81.end(), std::ref(i8rng)); std::generate(w82.begin(), w82.end(), std::ref(i32rng)); std::generate(w83.begin(), w83.end(), std::ref(i8rng)); std::generate(w84.begin(), w84.end(), std::ref(i32rng)); std::generate(w85.begin(), w85.end(), std::ref(i8rng)); std::generate(w86.begin(), w86.end(), std::ref(i32rng)); std::generate(w87.begin(), w87.end(), std::ref(i8rng)); std::generate(w88.begin(), w88.end(), std::ref(i32rng)); std::generate(w89.begin(), w89.end(), std::ref(i8rng)); std::generate(w90.begin(), w90.end(), std::ref(i32rng)); std::generate(w91.begin(), w91.end(), std::ref(i8rng)); std::generate(w92.begin(), w92.end(), std::ref(i32rng)); std::generate(w93.begin(), w93.end(), std::ref(i8rng)); std::generate(w94.begin(), w94.end(), std::ref(i32rng)); std::generate(w95.begin(), w95.end(), std::ref(i8rng)); std::generate(w96.begin(), w96.end(), std::ref(i32rng)); std::generate(w97.begin(), w97.end(), std::ref(i8rng)); std::generate(w98.begin(), w98.end(), std::ref(i32rng)); std::generate(w99.begin(), w99.end(), std::ref(i8rng)); std::generate(w100.begin(), w100.end(), std::ref(i32rng)); std::generate(w101.begin(), w101.end(), std::ref(i8rng)); std::generate(w102.begin(), w102.end(), std::ref(i32rng)); std::generate(w103.begin(), w103.end(), std::ref(i8rng)); std::generate(w104.begin(), w104.end(), std::ref(i32rng)); std::generate(w105.begin(), w105.end(), std::ref(i8rng)); std::generate(w106.begin(), w106.end(), std::ref(i32rng)); std::generate(w107.begin(), w107.end(), std::ref(i8rng)); std::generate(w108.begin(), w108.end(), std::ref(i32rng)); std::generate(w109.begin(), w109.end(), std::ref(i8rng)); std::generate(w110.begin(), w110.end(), std::ref(i32rng)); std::generate(w111.begin(), w111.end(), std::ref(i8rng)); std::generate(w112.begin(), w112.end(), std::ref(i32rng)); std::generate(w113.begin(), w113.end(), std::ref(i8rng)); std::generate(w114.begin(), w114.end(), std::ref(i32rng)); std::generate(w115.begin(), w115.end(), std::ref(i8rng)); std::generate(w116.begin(), w116.end(), std::ref(i32rng)); std::generate(w117.begin(), w117.end(), std::ref(i8rng)); std::generate(w118.begin(), w118.end(), std::ref(i32rng)); std::generate(w119.begin(), w119.end(), std::ref(i8rng)); std::generate(w120.begin(), w120.end(), std::ref(i32rng)); std::generate(w121.begin(), w121.end(), std::ref(i8rng)); std::generate(w122.begin(), w122.end(), std::ref(i32rng)); std::generate(w123.begin(), w123.end(), std::ref(i8rng)); std::generate(w124.begin(), w124.end(), std::ref(i32rng)); std::generate(w125.begin(), w125.end(), std::ref(i8rng)); std::generate(w126.begin(), w126.end(), std::ref(i32rng)); std::generate(w127.begin(), w127.end(), std::ref(i8rng)); std::generate(w128.begin(), w128.end(), std::ref(i32rng)); std::generate(w129.begin(), w129.end(), std::ref(i8rng)); std::generate(w130.begin(), w130.end(), std::ref(i32rng)); std::generate(w131.begin(), w131.end(), std::ref(i8rng)); std::generate(w132.begin(), w132.end(), std::ref(i32rng)); std::generate(w133.begin(), w133.end(), std::ref(i8rng)); std::generate(w134.begin(), w134.end(), std::ref(i32rng)); std::generate(w135.begin(), w135.end(), std::ref(i8rng)); std::generate(w136.begin(), w136.end(), std::ref(i32rng)); std::generate(w137.begin(), w137.end(), std::ref(i8rng)); std::generate(w138.begin(), w138.end(), std::ref(i32rng)); std::generate(w139.begin(), w139.end(), std::ref(i8rng)); std::generate(w140.begin(), w140.end(), std::ref(i32rng)); std::generate(w141.begin(), w141.end(), std::ref(i8rng)); std::generate(w142.begin(), w142.end(), std::ref(i32rng)); std::generate(w143.begin(), w143.end(), std::ref(i8rng)); std::generate(w144.begin(), w144.end(), std::ref(i32rng)); std::generate(w145.begin(), w145.end(), std::ref(i8rng)); std::generate(w146.begin(), w146.end(), std::ref(i32rng)); std::generate(w147.begin(), w147.end(), std::ref(i8rng)); std::generate(w148.begin(), w148.end(), std::ref(i32rng)); std::generate(w149.begin(), w149.end(), std::ref(i8rng)); std::generate(w150.begin(), w150.end(), std::ref(i32rng)); std::generate(w151.begin(), w151.end(), std::ref(i8rng)); std::generate(w152.begin(), w152.end(), std::ref(i32rng)); std::generate(w153.begin(), w153.end(), std::ref(i8rng)); std::generate(w154.begin(), w154.end(), std::ref(i32rng)); std::generate(w155.begin(), w155.end(), std::ref(i8rng)); std::generate(w156.begin(), w156.end(), std::ref(i32rng)); std::generate(w157.begin(), w157.end(), std::ref(i8rng)); std::generate(w158.begin(), w158.end(), std::ref(i32rng)); std::generate(w159.begin(), w159.end(), std::ref(i8rng)); std::generate(w160.begin(), w160.end(), std::ref(i32rng)); std::generate(w161.begin(), w161.end(), std::ref(i8rng)); std::generate(w162.begin(), w162.end(), std::ref(i32rng)); std::generate(w163.begin(), w163.end(), std::ref(i8rng)); std::generate(w164.begin(), w164.end(), std::ref(i32rng)); std::generate(w165.begin(), w165.end(), std::ref(i8rng)); std::generate(w166.begin(), w166.end(), std::ref(i32rng)); std::generate(w167.begin(), w167.end(), std::ref(i8rng)); std::generate(w168.begin(), w168.end(), std::ref(i32rng)); std::generate(w169.begin(), w169.end(), std::ref(i8rng)); std::generate(w170.begin(), w170.end(), std::ref(i32rng)); ExecutionPlan operators; xnn_status status; xnn_operator_t op0 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w65.data(), w66.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w67.data(), w68.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 16 /* output_channels_per_group */, 32 /* input pixel stride */, 16 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w69.data(), w70.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 16 /* input channels per group */, 96 /* output_channels_per_group */, 16 /* input pixel stride */, 96 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w71.data(), w72.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 96 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 96 /* input pixel stride */, 96 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w73.data(), w74.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 96 /* input channels per group */, 24 /* output_channels_per_group */, 96 /* input pixel stride */, 24 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w75.data(), w76.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 24 /* input channels per group */, 144 /* output_channels_per_group */, 24 /* input pixel stride */, 144 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w77.data(), w78.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 144 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 144 /* input pixel stride */, 144 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w79.data(), w80.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 144 /* input channels per group */, 24 /* output_channels_per_group */, 144 /* input pixel stride */, 24 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w81.data(), w82.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 24 /* input channels per group */, 144 /* output_channels_per_group */, 24 /* input pixel stride */, 144 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w83.data(), w84.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 144 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 144 /* input pixel stride */, 144 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w85.data(), w86.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 144 /* input channels per group */, 32 /* output_channels_per_group */, 144 /* input pixel stride */, 32 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w87.data(), w88.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 192 /* output_channels_per_group */, 32 /* input pixel stride */, 192 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w89.data(), w90.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 192 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 192 /* input pixel stride */, 192 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w91.data(), w92.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 192 /* input channels per group */, 32 /* output_channels_per_group */, 192 /* input pixel stride */, 32 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w93.data(), w94.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 192 /* output_channels_per_group */, 32 /* input pixel stride */, 192 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w95.data(), w96.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 192 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 192 /* input pixel stride */, 192 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w97.data(), w98.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 192 /* input channels per group */, 32 /* output_channels_per_group */, 192 /* input pixel stride */, 32 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w99.data(), w100.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 192 /* output_channels_per_group */, 32 /* input pixel stride */, 192 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w101.data(), w102.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 192 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 192 /* input pixel stride */, 192 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w103.data(), w104.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 192 /* input channels per group */, 64 /* output_channels_per_group */, 192 /* input pixel stride */, 64 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w105.data(), w106.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 384 /* output_channels_per_group */, 64 /* input pixel stride */, 384 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w107.data(), w108.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 384 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 384 /* input pixel stride */, 384 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w109.data(), w110.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_qs8( 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 */, 384 /* input channels per group */, 64 /* output_channels_per_group */, 384 /* input pixel stride */, 64 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w111.data(), w112.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* output max */, 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_qs8( 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 */, 384 /* output_channels_per_group */, 64 /* input pixel stride */, 384 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w113.data(), w114.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* 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); xnn_operator_t op29 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 384 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 384 /* input pixel stride */, 384 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w115.data(), w116.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op29); if (status != xnn_status_success) { std::cerr << "failed to create operation #29" << std::endl; return ExecutionPlan(); } operators.emplace_back(op29, xnn_delete_operator); xnn_operator_t op30 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 384 /* input channels per group */, 64 /* output_channels_per_group */, 384 /* input pixel stride */, 64 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w117.data(), w118.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op30); if (status != xnn_status_success) { std::cerr << "failed to create operation #30" << std::endl; return ExecutionPlan(); } operators.emplace_back(op30, xnn_delete_operator); xnn_operator_t op31 = nullptr; status = xnn_create_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op31); if (status != xnn_status_success) { std::cerr << "failed to create operation #31" << std::endl; return ExecutionPlan(); } operators.emplace_back(op31, xnn_delete_operator); xnn_operator_t op32 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 384 /* output_channels_per_group */, 64 /* input pixel stride */, 384 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w119.data(), w120.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op32); if (status != xnn_status_success) { std::cerr << "failed to create operation #32" << std::endl; return ExecutionPlan(); } operators.emplace_back(op32, xnn_delete_operator); xnn_operator_t op33 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 384 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 384 /* input pixel stride */, 384 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w121.data(), w122.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op33); if (status != xnn_status_success) { std::cerr << "failed to create operation #33" << std::endl; return ExecutionPlan(); } operators.emplace_back(op33, xnn_delete_operator); xnn_operator_t op34 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 384 /* input channels per group */, 64 /* output_channels_per_group */, 384 /* input pixel stride */, 64 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w123.data(), w124.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op34); if (status != xnn_status_success) { std::cerr << "failed to create operation #34" << std::endl; return ExecutionPlan(); } operators.emplace_back(op34, xnn_delete_operator); xnn_operator_t op35 = nullptr; status = xnn_create_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op35); if (status != xnn_status_success) { std::cerr << "failed to create operation #35" << std::endl; return ExecutionPlan(); } operators.emplace_back(op35, xnn_delete_operator); xnn_operator_t op36 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 384 /* output_channels_per_group */, 64 /* input pixel stride */, 384 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w125.data(), w126.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op36); if (status != xnn_status_success) { std::cerr << "failed to create operation #36" << std::endl; return ExecutionPlan(); } operators.emplace_back(op36, xnn_delete_operator); xnn_operator_t op37 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 384 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 384 /* input pixel stride */, 384 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w127.data(), w128.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op37); if (status != xnn_status_success) { std::cerr << "failed to create operation #37" << std::endl; return ExecutionPlan(); } operators.emplace_back(op37, xnn_delete_operator); xnn_operator_t op38 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 384 /* input channels per group */, 96 /* output_channels_per_group */, 384 /* input pixel stride */, 96 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w129.data(), w130.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op38); if (status != xnn_status_success) { std::cerr << "failed to create operation #38" << std::endl; return ExecutionPlan(); } operators.emplace_back(op38, xnn_delete_operator); xnn_operator_t op39 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 96 /* input channels per group */, 576 /* output_channels_per_group */, 96 /* input pixel stride */, 576 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w131.data(), w132.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op39); if (status != xnn_status_success) { std::cerr << "failed to create operation #39" << std::endl; return ExecutionPlan(); } operators.emplace_back(op39, xnn_delete_operator); xnn_operator_t op40 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 576 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 576 /* input pixel stride */, 576 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w133.data(), w134.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op40); if (status != xnn_status_success) { std::cerr << "failed to create operation #40" << std::endl; return ExecutionPlan(); } operators.emplace_back(op40, xnn_delete_operator); xnn_operator_t op41 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 576 /* input channels per group */, 96 /* output_channels_per_group */, 576 /* input pixel stride */, 96 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w135.data(), w136.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op41); if (status != xnn_status_success) { std::cerr << "failed to create operation #41" << std::endl; return ExecutionPlan(); } operators.emplace_back(op41, xnn_delete_operator); xnn_operator_t op42 = nullptr; status = xnn_create_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op42); if (status != xnn_status_success) { std::cerr << "failed to create operation #42" << std::endl; return ExecutionPlan(); } operators.emplace_back(op42, xnn_delete_operator); xnn_operator_t op43 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 96 /* input channels per group */, 576 /* output_channels_per_group */, 96 /* input pixel stride */, 576 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w137.data(), w138.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op43); if (status != xnn_status_success) { std::cerr << "failed to create operation #43" << std::endl; return ExecutionPlan(); } operators.emplace_back(op43, xnn_delete_operator); xnn_operator_t op44 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 576 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 576 /* input pixel stride */, 576 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w139.data(), w140.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op44); if (status != xnn_status_success) { std::cerr << "failed to create operation #44" << std::endl; return ExecutionPlan(); } operators.emplace_back(op44, xnn_delete_operator); xnn_operator_t op45 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 576 /* input channels per group */, 96 /* output_channels_per_group */, 576 /* input pixel stride */, 96 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w141.data(), w142.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op45); if (status != xnn_status_success) { std::cerr << "failed to create operation #45" << std::endl; return ExecutionPlan(); } operators.emplace_back(op45, xnn_delete_operator); xnn_operator_t op46 = nullptr; status = xnn_create_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op46); if (status != xnn_status_success) { std::cerr << "failed to create operation #46" << std::endl; return ExecutionPlan(); } operators.emplace_back(op46, xnn_delete_operator); xnn_operator_t op47 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 96 /* input channels per group */, 576 /* output_channels_per_group */, 96 /* input pixel stride */, 576 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w143.data(), w144.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op47); if (status != xnn_status_success) { std::cerr << "failed to create operation #47" << std::endl; return ExecutionPlan(); } operators.emplace_back(op47, xnn_delete_operator); xnn_operator_t op48 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 576 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 576 /* input pixel stride */, 576 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w145.data(), w146.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op48); if (status != xnn_status_success) { std::cerr << "failed to create operation #48" << std::endl; return ExecutionPlan(); } operators.emplace_back(op48, xnn_delete_operator); xnn_operator_t op49 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 576 /* input channels per group */, 160 /* output_channels_per_group */, 576 /* input pixel stride */, 160 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w147.data(), w148.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op49); if (status != xnn_status_success) { std::cerr << "failed to create operation #49" << std::endl; return ExecutionPlan(); } operators.emplace_back(op49, xnn_delete_operator); xnn_operator_t op50 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 160 /* input channels per group */, 960 /* output_channels_per_group */, 160 /* input pixel stride */, 960 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w149.data(), w150.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op50); if (status != xnn_status_success) { std::cerr << "failed to create operation #50" << std::endl; return ExecutionPlan(); } operators.emplace_back(op50, xnn_delete_operator); xnn_operator_t op51 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 960 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 960 /* input pixel stride */, 960 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w151.data(), w152.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op51); if (status != xnn_status_success) { std::cerr << "failed to create operation #51" << std::endl; return ExecutionPlan(); } operators.emplace_back(op51, xnn_delete_operator); xnn_operator_t op52 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 960 /* input channels per group */, 160 /* output_channels_per_group */, 960 /* input pixel stride */, 160 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w153.data(), w154.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op52); if (status != xnn_status_success) { std::cerr << "failed to create operation #52" << std::endl; return ExecutionPlan(); } operators.emplace_back(op52, xnn_delete_operator); xnn_operator_t op53 = nullptr; status = xnn_create_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op53); if (status != xnn_status_success) { std::cerr << "failed to create operation #53" << std::endl; return ExecutionPlan(); } operators.emplace_back(op53, xnn_delete_operator); xnn_operator_t op54 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 160 /* input channels per group */, 960 /* output_channels_per_group */, 160 /* input pixel stride */, 960 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w155.data(), w156.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op54); if (status != xnn_status_success) { std::cerr << "failed to create operation #54" << std::endl; return ExecutionPlan(); } operators.emplace_back(op54, xnn_delete_operator); xnn_operator_t op55 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 960 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 960 /* input pixel stride */, 960 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w157.data(), w158.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op55); if (status != xnn_status_success) { std::cerr << "failed to create operation #55" << std::endl; return ExecutionPlan(); } operators.emplace_back(op55, xnn_delete_operator); xnn_operator_t op56 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 960 /* input channels per group */, 160 /* output_channels_per_group */, 960 /* input pixel stride */, 160 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w159.data(), w160.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op56); if (status != xnn_status_success) { std::cerr << "failed to create operation #56" << std::endl; return ExecutionPlan(); } operators.emplace_back(op56, xnn_delete_operator); xnn_operator_t op57 = nullptr; status = xnn_create_add_nd_qs8( -1 /* input1 zero point */, 0.5f /* input1 scale */, -1 /* input2 zero point */, 0.5f /* input2 scale */, -1 /* output zero point */, 1.0f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op57); if (status != xnn_status_success) { std::cerr << "failed to create operation #57" << std::endl; return ExecutionPlan(); } operators.emplace_back(op57, xnn_delete_operator); xnn_operator_t op58 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 160 /* input channels per group */, 960 /* output_channels_per_group */, 160 /* input pixel stride */, 960 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w161.data(), w162.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op58); if (status != xnn_status_success) { std::cerr << "failed to create operation #58" << std::endl; return ExecutionPlan(); } operators.emplace_back(op58, xnn_delete_operator); xnn_operator_t op59 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 960 /* groups */, 1 /* input channels per group */, 1 /* output_channels_per_group */, 960 /* input pixel stride */, 960 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w163.data(), w164.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op59); if (status != xnn_status_success) { std::cerr << "failed to create operation #59" << std::endl; return ExecutionPlan(); } operators.emplace_back(op59, xnn_delete_operator); xnn_operator_t op60 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 960 /* input channels per group */, 320 /* output_channels_per_group */, 960 /* input pixel stride */, 320 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w165.data(), w166.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op60); if (status != xnn_status_success) { std::cerr << "failed to create operation #60" << std::endl; return ExecutionPlan(); } operators.emplace_back(op60, xnn_delete_operator); xnn_operator_t op61 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 320 /* input channels per group */, 1280 /* output_channels_per_group */, 320 /* input pixel stride */, 1280 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w167.data(), w168.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op61); if (status != xnn_status_success) { std::cerr << "failed to create operation #61" << std::endl; return ExecutionPlan(); } operators.emplace_back(op61, xnn_delete_operator); xnn_operator_t op62 = nullptr; status = xnn_create_global_average_pooling_nwc_qs8( 1280 /* channels */, 1280 /* input stride */, 1280 /* output stride */, -1 /* input zero point */, 0.5f /* input scale */, -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op62); if (status != xnn_status_success) { std::cerr << "failed to create operation #62" << std::endl; return ExecutionPlan(); } operators.emplace_back(op62, xnn_delete_operator); xnn_operator_t op63 = nullptr; status = xnn_create_convolution2d_nhwc_qs8( 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 */, 1280 /* input channels per group */, 1001 /* output_channels_per_group */, 1280 /* input pixel stride */, 1001 /* output pixel stride */, -1 /* input zero point */, 0.5f /* input scale */, 0.5f /* kernel scale */, w169.data(), w170.data(), -1 /* output zero point */, 0.5f /* output scale */, -126 /* output min */, 126 /* output max */, 0 /* flags */, &op63); if (status != xnn_status_success) { std::cerr << "failed to create operation #63" << std::endl; return ExecutionPlan(); } operators.emplace_back(op63, xnn_delete_operator); status = xnn_setup_convolution2d_nhwc_qs8( op0, 1 /* batch size */, 224 /* input height */, 224 /* input width */, v0.data() /* input */, v1.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #0" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op1, 1 /* batch size */, 112 /* input height */, 112 /* input width */, v1.data() /* input */, v2.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #1" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op2, 1 /* batch size */, 112 /* input height */, 112 /* input width */, v2.data() /* input */, v3.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #2" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op3, 1 /* batch size */, 112 /* input height */, 112 /* input width */, v3.data() /* input */, v4.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #3" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op4, 1 /* batch size */, 112 /* input height */, 112 /* input width */, v4.data() /* input */, v5.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #4" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op5, 1 /* batch size */, 56 /* input height */, 56 /* input width */, v5.data() /* input */, v6.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #5" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op6, 1 /* batch size */, 56 /* input height */, 56 /* input width */, v6.data() /* input */, v7.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #6" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op7, 1 /* batch size */, 56 /* input height */, 56 /* input width */, v7.data() /* input */, v8.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #7" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op8, 1 /* batch size */, 56 /* input height */, 56 /* input width */, v8.data() /* input */, v9.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #8" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 56, 56, 24 }; const size_t b_shape[] = { 1, 56, 56, 24 }; status = xnn_setup_add_nd_qs8( op9, 4, a_shape, 4, b_shape, v9.data() /* a */, v6.data() /* b */, v10.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #9" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op10, 1 /* batch size */, 56 /* input height */, 56 /* input width */, v10.data() /* input */, v11.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #10" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op11, 1 /* batch size */, 56 /* input height */, 56 /* input width */, v11.data() /* input */, v12.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #11" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op12, 1 /* batch size */, 28 /* input height */, 28 /* input width */, v12.data() /* input */, v13.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #12" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op13, 1 /* batch size */, 28 /* input height */, 28 /* input width */, v13.data() /* input */, v14.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #13" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op14, 1 /* batch size */, 28 /* input height */, 28 /* input width */, v14.data() /* input */, v15.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #14" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op15, 1 /* batch size */, 28 /* input height */, 28 /* input width */, v15.data() /* input */, v16.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #15" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 28, 28, 32 }; const size_t b_shape[] = { 1, 28, 28, 32 }; status = xnn_setup_add_nd_qs8( op16, 4, a_shape, 4, b_shape, v16.data() /* a */, v13.data() /* b */, v17.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #16" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op17, 1 /* batch size */, 28 /* input height */, 28 /* input width */, v17.data() /* input */, v18.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #17" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op18, 1 /* batch size */, 28 /* input height */, 28 /* input width */, v18.data() /* input */, v19.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #18" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op19, 1 /* batch size */, 28 /* input height */, 28 /* input width */, v19.data() /* input */, v20.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #19" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 28, 28, 32 }; const size_t b_shape[] = { 1, 28, 28, 32 }; status = xnn_setup_add_nd_qs8( op20, 4, a_shape, 4, b_shape, v20.data() /* a */, v17.data() /* b */, v21.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #20" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op21, 1 /* batch size */, 28 /* input height */, 28 /* input width */, v21.data() /* input */, v22.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #21" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op22, 1 /* batch size */, 28 /* input height */, 28 /* input width */, v22.data() /* input */, v23.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #22" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op23, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v23.data() /* input */, v24.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #23" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op24, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v24.data() /* input */, v25.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #24" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op25, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v25.data() /* input */, v26.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #25" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op26, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v26.data() /* input */, v27.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #26" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 14, 14, 64 }; const size_t b_shape[] = { 1, 14, 14, 64 }; status = xnn_setup_add_nd_qs8( op27, 4, a_shape, 4, b_shape, v27.data() /* a */, v24.data() /* b */, v28.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #27" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op28, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v28.data() /* input */, v29.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #28" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op29, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v29.data() /* input */, v30.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #29" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op30, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v30.data() /* input */, v31.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #30" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 14, 14, 64 }; const size_t b_shape[] = { 1, 14, 14, 64 }; status = xnn_setup_add_nd_qs8( op31, 4, a_shape, 4, b_shape, v31.data() /* a */, v28.data() /* b */, v32.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #31" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op32, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v32.data() /* input */, v33.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #32" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op33, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v33.data() /* input */, v34.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #33" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op34, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v34.data() /* input */, v35.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #34" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 14, 14, 64 }; const size_t b_shape[] = { 1, 14, 14, 64 }; status = xnn_setup_add_nd_qs8( op35, 4, a_shape, 4, b_shape, v35.data() /* a */, v32.data() /* b */, v36.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #35" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op36, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v36.data() /* input */, v37.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #36" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op37, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v37.data() /* input */, v38.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #37" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op38, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v38.data() /* input */, v39.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #38" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op39, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v39.data() /* input */, v40.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #39" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op40, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v40.data() /* input */, v41.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #40" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op41, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v41.data() /* input */, v42.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #41" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 14, 14, 96 }; const size_t b_shape[] = { 1, 14, 14, 96 }; status = xnn_setup_add_nd_qs8( op42, 4, a_shape, 4, b_shape, v42.data() /* a */, v39.data() /* b */, v43.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #42" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op43, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v43.data() /* input */, v44.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #43" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op44, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v44.data() /* input */, v45.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #44" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op45, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v45.data() /* input */, v46.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #45" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 14, 14, 96 }; const size_t b_shape[] = { 1, 14, 14, 96 }; status = xnn_setup_add_nd_qs8( op46, 4, a_shape, 4, b_shape, v46.data() /* a */, v43.data() /* b */, v47.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #46" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op47, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v47.data() /* input */, v48.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #47" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op48, 1 /* batch size */, 14 /* input height */, 14 /* input width */, v48.data() /* input */, v49.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #48" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op49, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v49.data() /* input */, v50.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #49" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op50, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v50.data() /* input */, v51.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #50" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op51, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v51.data() /* input */, v52.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #51" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op52, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v52.data() /* input */, v53.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #52" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 7, 7, 160 }; const size_t b_shape[] = { 1, 7, 7, 160 }; status = xnn_setup_add_nd_qs8( op53, 4, a_shape, 4, b_shape, v53.data() /* a */, v50.data() /* b */, v54.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #53" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op54, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v54.data() /* input */, v55.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #54" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op55, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v55.data() /* input */, v56.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #55" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op56, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v56.data() /* input */, v57.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #56" << std::endl; return ExecutionPlan(); } { const size_t a_shape[] = { 1, 7, 7, 160 }; const size_t b_shape[] = { 1, 7, 7, 160 }; status = xnn_setup_add_nd_qs8( op57, 4, a_shape, 4, b_shape, v57.data() /* a */, v54.data() /* b */, v58.data() /* output */, threadpool /* threadpool */); } if (status != xnn_status_success) { std::cerr << "failed to setup operation #57" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op58, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v58.data() /* input */, v59.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #58" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op59, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v59.data() /* input */, v60.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #59" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op60, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v60.data() /* input */, v61.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #60" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op61, 1 /* batch size */, 7 /* input height */, 7 /* input width */, v61.data() /* input */, v62.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #61" << std::endl; return ExecutionPlan(); } status = xnn_setup_global_average_pooling_nwc_qs8( op62, 1 /* batch size */, 49 /* width */, v62.data() /* input */, v63.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #62" << std::endl; return ExecutionPlan(); } status = xnn_setup_convolution2d_nhwc_qs8( op63, 1 /* batch size */, 1 /* input height */, 1 /* input width */, v63.data() /* input */, v64.data() /* output */, threadpool /* threadpool */); if (status != xnn_status_success) { std::cerr << "failed to setup operation #63" << std::endl; return ExecutionPlan(); } #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wpessimizing-move" return operators; #pragma clang diagnostic pop } } // namespace models