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MegEngine/dnn/test/cuda/benchmark.cpp

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  1. #include "test/cuda/fixture.h"

  2. 

  3. #include "megdnn/oprs.h"

  4. #include "test/common/benchmarker.h"

  5. #include "test/common/tensor.h"

  6. #include "test/common/timer.h"

  7. #include "test/common/workspace_wrapper.h"

  8. #include "test/cuda/utils.h"

  9. 

  10. namespace megdnn {

  11. namespace test {

  12. 

  13. #if MEGDNN_WITH_BENCHMARK

  14. 

  15. TEST_F(CUDA, BENCHMARK_CONVOLUTION_8X8X32) {

  16.     require_compute_capability(6, 1);

  17.     using Param = param::Convolution;

  18.     auto run_1x1 = [&](size_t N, size_t OC, size_t IC, size_t H, size_t W) {

  19.         Benchmarker<Convolution> benchmarker(handle_cuda());

  20.         Param param_base;

  21.         Param param_float = param_base, param_int = param_base;

  22.         param_int.format = Param::Format::NHWC;

  23.         TensorShape src_float{N, IC, H, W}, filter_float{OC, IC, 1, 1};

  24.         TensorShape src_int{N, H, W, IC}, filter_int{OC, 1, 1, IC};

  25.         benchmarker.set_display(false);

  26.         auto time_in_ms_float = benchmarker.set_param(param_float)

  27.                                         .set_dtype(0, dtype::Float32())

  28.                                         .set_dtype(1, dtype::Float32())

  29.                                         .set_dtype(2, dtype::Float32())

  30.                                         .execs({src_float, filter_float, {}});

  31.         auto time_in_ms_int = benchmarker.set_param(param_int)

  32.                                       .set_dtype(0, dtype::Int8())

  33.                                       .set_dtype(1, dtype::Int8())

  34.                                       .set_dtype(2, dtype::Int32())

  35.                                       .execs({src_int, filter_int, {}});

  36.         std::cout << "1x1: N=" << N << " OC=" << OC << " IC=" << IC << " H=" << H

  37.                   << " W=" << W << " time_float=" << time_in_ms_float << "ms"

  38.                   << " time_int=" << time_in_ms_int << "ms" << std::endl;

  39.     };

  40.     auto run_chanwise = [&](size_t N, size_t C, size_t H, size_t W, size_t F) {

  41.         size_t P = F / 2;

  42.         Benchmarker<Convolution> benchmarker(handle_cuda());

  43.         Param param_base;

  44.         param_base.pad_h = param_base.pad_w = P;

  45.         param_base.sparse = Param::Sparse::GROUP;

  46.         Param param_float = param_base;

  47.         Param param_int = param_base;

  48.         param_int.format = Param::Format::NHWC;

  49.         TensorShape src_float{N, C, H, W}, filter_float{C, 1, 1, F, F};

  50.         TensorShape src_int{N, H, W, C}, filter_int{C, 1, F, F, 1};

  51.         benchmarker.set_display(false);

  52.         auto time_in_ms_float = benchmarker.set_param(param_float)

  53.                                         .set_dtype(0, dtype::Float32())

  54.                                         .set_dtype(1, dtype::Float32())

  55.                                         .set_dtype(2, dtype::Float32())

  56.                                         .execs({src_float, filter_float, {}});

  57.         auto time_in_ms_int = benchmarker.set_param(param_int)

  58.                                       .set_dtype(0, dtype::Int8())

  59.                                       .set_dtype(1, dtype::Int8())

  60.                                       .set_dtype(2, dtype::Int32())

  61.                                       .execs({src_int, filter_int, {}});

  62.         std::cout << "chanwise: N=" << N << " C=" << C << " H=" << H << " W=" << W

  63.                   << " F=" << F << " time_float=" << time_in_ms_float << "ms"

  64.                   << " time_int=" << time_in_ms_int << "ms" << std::endl;

  65.     };

  66.     run_chanwise(1, 384, 56, 56, 3);

  67.     run_1x1(1, 32, 32, 56, 56);

  68.     run_1x1(1, 256, 256, 7, 7);

  69. }

  70. 

  71. TEST_F(CUDA, BENCHMARK_REDUCE) {

  72.     auto run = [&](size_t A, size_t B, size_t C) {

  73.         Tensor<> src(handle_cuda(), TensorLayout({A, B, C}, dtype::Float32())),

  74.                 dst(handle_cuda(), TensorLayout({A, 1, C}, dtype::Float32()));

  75.         auto opr = handle_cuda()->create_operator<Reduce>();

  76.         opr->param().axis = 1;

  77.         WorkspaceWrapper workspace(

  78.                 handle_cuda(), opr->get_workspace_in_bytes(src.layout(), dst.layout()));

  79.         opr->exec(src.tensornd(), dst.tensornd(), workspace.workspace());

  80.         Timer timer;

  81.         megcoreSynchronize(handle_cuda()->megcore_computing_handle());

  82.         timer.start();

  83.         for (size_t i = 0; i < 10; ++i)

  84.             opr->exec(src.tensornd(), dst.tensornd(), workspace.workspace());

  85.         megcoreSynchronize(handle_cuda()->megcore_computing_handle());

  86.         timer.stop();

  87.         float time_in_us = timer.get_time_in_us();

  88.         std::cout << "src = " << A << "x" << B << "x" << C << std::endl

  89.                   << "time = " << time_in_us / 1e3 << "ms" << std::endl;

  90.     };

  91.     run(65536, 64, 1);

  92.     run(1, 268435455, 1);

  93.     run(256, 1048575, 1);

  94.     run(1, 1048575, 256);

  95.     run(256, 4095, 256);

  96. }

  97. 

  98. TEST_F(CUDA, BENCHMARK_BATCHED_MATRIX_MUL) {

  99.     auto run = [&](size_t b, size_t m, size_t n, size_t k) {

  100.         Tensor<> A(handle_cuda(), TensorLayout({b, m, k}, dtype::Float32()));

  101.         Tensor<> B(handle_cuda(), TensorLayout({b, k, n}, dtype::Float32()));

  102.         Tensor<> C(handle_cuda(), TensorLayout({b, m, n}, dtype::Float32()));

  103.         auto opr = handle_cuda()->create_operator<BatchedMatrixMul>();

  104.         WorkspaceWrapper workspace(

  105.                 handle_cuda(),

  106.                 opr->get_workspace_in_bytes(A.layout(), B.layout(), C.layout()));

  107.         opr->exec(A.tensornd(), B.tensornd(), C.tensornd(), workspace.workspace());

  108.         Timer timer;

  109.         megcoreSynchronize(handle_cuda()->megcore_computing_handle());

  110.         timer.start();

  111.         opr->exec(A.tensornd(), B.tensornd(), C.tensornd(), workspace.workspace());

  112.         megcoreSynchronize(handle_cuda()->megcore_computing_handle());

  113.         timer.stop();

  114.         float time_in_s = timer.get_time_in_us() / 1e6;

  115.         float flo = b * m * n * k * 2;

  116.         float gflops = flo / time_in_s / 1e9;

  117.         std::cout << "time_in_s = " << time_in_s << '\n'

  118.                   << "flo = " << flo << '\n'

  119.                   << "gflops = " << gflops << std::endl;

  120.     };

  121.     run(256, 256, 256, 256);

  122. }

  123. 

  124. TEST_F(CUDA, BENCHMARK_MATRIX_MUL) {

  125.     auto run = [&](size_t m, size_t n, size_t k) {

  126.         Tensor<> A(handle_cuda(), TensorLayout({m, k}, dtype::Float32()));

  127.         Tensor<> B(handle_cuda(), TensorLayout({k, n}, dtype::Float32()));

  128.         Tensor<> C(handle_cuda(), TensorLayout({m, n}, dtype::Float32()));

  129.         auto opr = handle_cuda()->create_operator<MatrixMul>();

  130.         WorkspaceWrapper workspace(

  131.                 handle_cuda(),

  132.                 opr->get_workspace_in_bytes(A.layout(), B.layout(), C.layout()));

  133.         opr->exec(A.tensornd(), B.tensornd(), C.tensornd(), workspace.workspace());

  134.         Timer timer;

  135.         megcoreSynchronize(handle_cuda()->megcore_computing_handle());

  136.         timer.start();

  137.         opr->exec(A.tensornd(), B.tensornd(), C.tensornd(), workspace.workspace());

  138.         megcoreSynchronize(handle_cuda()->megcore_computing_handle());

  139.         timer.stop();

  140.         float time_in_s = timer.get_time_in_us() / 1e6;

  141.         float flo = m * n * k * 2;

  142.         float gflops = flo / time_in_s / 1e9;

  143.         std::cout << "time_in_s = " << time_in_s << '\n'

  144.                   << "flo = " << flo << '\n'

  145.                   << "gflops = " << gflops << std::endl;

  146.     };

  147.     run(4096, 4096, 4096);

  148. }

  149. 

  150. TEST_F(CUDA, BENCHMARK_LOCAL) {

  151.     auto run = [&](size_t N, size_t IC, size_t IH, size_t IW, size_t OC, size_t OH,

  152.                    size_t OW, size_t FH, size_t FW) {

  153.         Tensor<> src(handle_cuda(), TensorLayout({N, IC, IH, IW}, dtype::Float32()));

  154.         Tensor<> filter(

  155.                 handle_cuda(),

  156.                 TensorLayout({OH, OW, IC, FH, FW, OC}, dtype::Float32()));

  157.         Tensor<> dst(handle_cuda(), TensorLayout({N, OC, OH, OW}, dtype::Float32()));

  158.         auto opr = handle_cuda()->create_operator<Local>();

  159.         WorkspaceWrapper workspace(

  160.                 handle_cuda(), opr->get_workspace_in_bytes(

  161.                                        src.layout(), filter.layout(), dst.layout()));

  162.         opr->exec(

  163.                 src.tensornd(), filter.tensornd(), dst.tensornd(),

  164.                 workspace.workspace());

  165.         Timer timer;

  166.         megcoreSynchronize(handle_cuda()->megcore_computing_handle());

  167.         timer.start();

  168.         opr->exec(

  169.                 src.tensornd(), filter.tensornd(), dst.tensornd(),

  170.                 workspace.workspace());

  171.         megcoreSynchronize(handle_cuda()->megcore_computing_handle());

  172.         timer.stop();

  173.         float time_in_us = timer.get_time_in_us();

  174.         std::cout << "time = " << time_in_us << "us" << std::endl;

  175.     };

  176.     run(32, 64, 7, 7, 64, 5, 5, 3, 3);

  177. }

  178. #endif

  179. 

  180. }  // namespace test

  181. }  // namespace megdnn

  182. 

  183. // vim: syntax=cpp.doxygen