blob: 629e4c6a1bdaab7789cfb4cacfc34ea8a107331d [file] [log] [blame]
// Copyright 2019 Google LLC
//
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree.
#include <algorithm>
#include <cmath>
#include <functional>
#include <random>
#include <vector>
#include <xnnpack.h>
#include <benchmark/benchmark.h>
#include "bench/utils.h"
#include "models/models.h"
static void End2EndBenchmark(
benchmark::State& state,
models::ExecutionPlanFactory model_factory)
{
if (xnn_initialize(nullptr /* allocator */) != xnn_status_success) {
state.SkipWithError("failed to initialize XNNPACK");
return;
}
const size_t num_threads = state.range(0);
std::unique_ptr<pthreadpool, decltype(&pthreadpool_destroy)> threadpool(
pthreadpool_create(num_threads), pthreadpool_destroy);
auto execution_plan = model_factory(threadpool.get());
if (execution_plan.empty()) {
state.SkipWithError("failed to create a model");
return;
}
for (auto _ : state) {
for (const std::unique_ptr<xnn_operator, decltype(&xnn_delete_operator)>& op : execution_plan) {
xnn_status status = xnn_run_operator(op.get(), threadpool.get());
if (status != xnn_status_success) {
state.SkipWithError("failed to run a model");
return;
}
}
}
const uint64_t cpu_frequency = benchmark::utils::GetCurrentCpuFrequency();
if (cpu_frequency != 0) {
state.counters["cpufreq"] = cpu_frequency;
}
}
static void FP32MobileNetV1(benchmark::State& state) {
End2EndBenchmark(state, models::FP32MobileNetV1);
}
static void FP32MobileNetV2(benchmark::State& state) {
End2EndBenchmark(state, models::FP32MobileNetV2);
}
static void FP32MobileNetV3Large(benchmark::State& state) {
End2EndBenchmark(state, models::FP32MobileNetV3Large);
}
static void FP32MobileNetV3Small(benchmark::State& state) {
End2EndBenchmark(state, models::FP32MobileNetV3Small);
}
static void FP32Sparse80MobileNetV1(benchmark::State& state) {
End2EndBenchmark(state, [](pthreadpool_t threadpool) {
return models::FP32SparseMobileNetV1(0.8f, threadpool);
});
}
static void FP32Sparse80MobileNetV2(benchmark::State& state) {
End2EndBenchmark(state, [](pthreadpool_t threadpool) {
return models::FP32SparseMobileNetV2(0.8f, threadpool);
});
}
static void FP32Sparse80MobileNetV3Large(benchmark::State& state) {
End2EndBenchmark(state, [](pthreadpool_t threadpool) {
return models::FP32SparseMobileNetV3Large(0.8f, threadpool);
});
}
static void FP32Sparse80MobileNetV3Small(benchmark::State& state) {
End2EndBenchmark(state, [](pthreadpool_t threadpool) {
return models::FP32SparseMobileNetV3Small(0.8f, threadpool);
});
}
static void FP16MobileNetV1(benchmark::State& state) {
End2EndBenchmark(state, models::FP16MobileNetV1);
}
static void FP16MobileNetV2(benchmark::State& state) {
End2EndBenchmark(state, models::FP16MobileNetV2);
}
static void FP16MobileNetV3Large(benchmark::State& state) {
End2EndBenchmark(state, models::FP16MobileNetV3Large);
}
static void FP16MobileNetV3Small(benchmark::State& state) {
End2EndBenchmark(state, models::FP16MobileNetV3Small);
}
static void QS8MobileNetV1(benchmark::State& state) {
End2EndBenchmark(state, models::QS8MobileNetV1);
}
static void QS8MobileNetV2(benchmark::State& state) {
End2EndBenchmark(state, models::QS8MobileNetV2);
}
static void QU8MobileNetV1(benchmark::State& state) {
End2EndBenchmark(state, models::QU8MobileNetV1);
}
BENCHMARK(FP32MobileNetV1)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP32MobileNetV2)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP32MobileNetV3Large)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP32MobileNetV3Small)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP32Sparse80MobileNetV1)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP32Sparse80MobileNetV2)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP32Sparse80MobileNetV3Large)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP32Sparse80MobileNetV3Small)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP16MobileNetV1)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP16MobileNetV2)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP16MobileNetV3Large)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(FP16MobileNetV3Small)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(QS8MobileNetV1)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(QS8MobileNetV2)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
BENCHMARK(QU8MobileNetV1)->Apply(benchmark::utils::MultiThreadingParameters)->Unit(benchmark::kMicrosecond)->UseRealTime();
#ifndef XNNPACK_BENCHMARK_NO_MAIN
BENCHMARK_MAIN();
#endif