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gerrit-public.fairphone.software / platform / external / XNNPACK / 773d27be270c2688f6b467525bb639916e4c0996 / . / test / global-average-pooling-nwc.cc
blob: a0183370082c99b32abaa2fc206949307f2936b1 [file] [log] [blame]
// Copyright (c) Facebook, Inc. and its affiliates.
// All rights reserved.
//
// 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 <cstddef>
#include <cstdint>
#include <gtest/gtest.h>
#include "global-average-pooling-operator-tester.h"
#include <xnnpack/params.h>
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_small_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_small_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_small_width_with_input_scale) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_scale(input_scale)
.TestNWCxQU8();
}
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_small_width_with_input_zero_point) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_zero_point(uint8_t(input_zero_point))
.TestNWCxQU8();
}
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_small_width_with_output_scale) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.output_scale(output_scale)
.TestNWCxQU8();
}
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_small_width_with_output_zero_point) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.output_zero_point(uint8_t(output_zero_point))
.TestNWCxQU8();
}
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_small_width_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmin(128)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_small_width_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmax(128)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_large_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_large_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_large_width_with_input_scale) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_scale(input_scale)
.TestNWCxQU8();
}
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_large_width_with_input_zero_point) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_zero_point(uint8_t(input_zero_point))
.TestNWCxQU8();
}
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_large_width_with_output_scale) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.output_scale(output_scale)
.TestNWCxQU8();
}
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_large_width_with_output_zero_point) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.output_zero_point(uint8_t(output_zero_point))
.TestNWCxQU8();
}
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_large_width_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmin(128)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, unit_batch_large_width_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmax(128)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, small_batch_small_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, small_batch_small_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, small_batch_small_width_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.output_stride(5 * channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, small_batch_large_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, small_batch_large_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_QU8, small_batch_large_width_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.qu8.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.output_stride(5 * channels)
.TestNWCxQU8();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, unit_batch_small_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, unit_batch_small_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, unit_batch_small_width_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmin(128)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, unit_batch_small_width_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmax(128)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, unit_batch_large_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, unit_batch_large_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, unit_batch_large_width_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmin(128)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, unit_batch_large_width_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmax(128)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, small_batch_small_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, small_batch_small_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, small_batch_small_width_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.output_stride(5 * channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, small_batch_large_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, small_batch_large_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F16, small_batch_large_width_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f16.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.output_stride(5 * channels)
.TestNWCxF16();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, unit_batch_small_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, unit_batch_small_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, unit_batch_small_width_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmin(128)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, unit_batch_small_width_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmax(128)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, unit_batch_large_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, unit_batch_large_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, unit_batch_large_width_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmin(128)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, unit_batch_large_width_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(1)
.width(width)
.channels(channels)
.qmax(128)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, small_batch_small_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, small_batch_small_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, small_batch_small_width_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = 1; width <= spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.output_stride(5 * channels)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, small_batch_large_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, small_batch_large_width_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.input_stride(5 * channels)
.TestNWCxF32();
}
}
}
TEST(GLOBAL_AVERAGE_POOLING_NWC_F32, small_batch_large_width_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
const uint32_t spatial_tile = std::max<uint32_t>(xnn_params.f32.gavgpool.mr, 1);
for (size_t channels = 1; channels <= 100; channels += 15) {
for (size_t width = spatial_tile; width <= 4 * spatial_tile; width++) {
GlobalAveragePoolingOperatorTester()
.batch_size(3)
.width(width)
.channels(channels)
.output_stride(5 * channels)
.TestNWCxF32();
}
}
}