// 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 #include #include #include "average-pooling-operator-tester.h" static std::pair SmallPoolSize(size_t max_elements) { const size_t small_side = size_t(std::floor(std::sqrt(double(max_elements)))); const size_t large_side = small_side + 1; if (small_side * large_side < max_elements) { return std::make_pair(small_side, large_side); } else { return std::make_pair(small_side - 1, large_side - 1); } } static std::pair LargePoolSize(size_t min_elements) { const size_t small_side = size_t(std::ceil(std::sqrt(double(min_elements)))); return std::make_pair(small_side, small_side + 1); } /**************************** AVGPOOL path, unipass ****************************/ TEST(AVERAGE_POOLING_NHWC_QU8, small_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestQU8(); } } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_input_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_scale(input_scale) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_scale(input_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_input_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_output_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_scale(output_scale) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_scale(output_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_output_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestQU8(); } } /**************************** AVGPOOL path, unipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestQU8(); } } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_input_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_scale(input_scale) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_scale(input_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_input_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_output_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_scale(output_scale) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_scale(output_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_output_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestQU8(); } } /**************************** AVGPOOL path, multipass ****************************/ TEST(AVERAGE_POOLING_NHWC_QU8, large_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.avgpool.primary_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestQU8(); } } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_input_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_scale(input_scale) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_scale(input_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_input_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_output_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_scale(output_scale) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_scale(output_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_output_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, large_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestQU8(); } } /**************************** AVGPOOL path, multipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.avgpool.primary_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestQU8(); } } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestQU8(); } } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_input_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_scale(input_scale) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_scale(input_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_input_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_output_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_scale(output_scale) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_scale(output_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_output_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestQU8(); } } /**************************** GAVGPOOL path, unipass ****************************/ TEST(AVERAGE_POOLING_NHWC_QU8, small_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With left padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_left(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_left(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); /* With right padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_right(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_right(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With top padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_top(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_top(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); /* With bottom padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_bottom(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_bottom(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_input_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_scale(input_scale) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_scale(input_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_input_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_output_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_scale(output_scale) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_scale(output_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_output_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, small_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestQU8(); } } /**************************** GAVGPOOL path, unipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With left padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_left(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_left(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); /* With right padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_right(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_right(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With top padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_top(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_top(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); /* With bottom padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_bottom(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_bottom(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_input_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_scale(input_scale) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_scale(input_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_input_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_output_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_scale(output_scale) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_scale(output_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_output_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_small_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.qu8.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestQU8(); } } /**************************** GAVGPOOL path, multipass ****************************/ TEST(AVERAGE_POOLING_NHWC_QU8, large_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_left = 1; padding_left <= 2; padding_left++) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } for (size_t padding_right = 1; padding_right <= 2; padding_right++) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_top = 1; padding_top <= 2; padding_top++) { AveragePoolingOperatorTester() .input_height(pooling_size.first - padding_top) .input_width(pooling_size.second) .padding_top(padding_top) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second - padding_top) .input_width(pooling_size.first) .padding_top(padding_top) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .input_height(pooling_size.first - padding_bottom) .input_width(pooling_size.second) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second - padding_bottom) .input_width(pooling_size.first) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_input_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_scale(input_scale) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_scale(input_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_input_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_output_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_scale(output_scale) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_scale(output_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_output_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, large_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestQU8(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestQU8(); } } /**************************** GAVGPOOL path, multipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_left = 1; padding_left <= 2; padding_left++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } for (size_t padding_right = 1; padding_right <= 2; padding_right++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_top = 1; padding_top <= 2; padding_top++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - padding_top) .input_width(pooling_size.second) .padding_top(padding_top) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - padding_top) .input_width(pooling_size.first) .padding_top(padding_top) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } for (size_t padding_bottom = 1; padding_bottom <= 2; padding_bottom++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - padding_bottom) .input_width(pooling_size.second) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - padding_bottom) .input_width(pooling_size.first) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_input_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (float input_scale = 0.01f; input_scale < 100.0f; input_scale *= 3.14159265f) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_scale(input_scale) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_scale(input_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_input_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t input_zero_point = 0; input_zero_point <= 255; input_zero_point += 51) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_zero_point(uint8_t(input_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_output_scale) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (float output_scale = 0.01f; output_scale < 100.0f; output_scale *= 3.14159265f) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_scale(output_scale) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_scale(output_scale) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_output_zero_point) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (int32_t output_zero_point = 0; output_zero_point <= 255; output_zero_point += 51) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_zero_point(uint8_t(output_zero_point)) .TestQU8(); } } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestQU8(); } } TEST(AVERAGE_POOLING_NHWC_QU8, batched_large_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.qu8.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestQU8(); } } /**************************** AVGPOOL path, setup ****************************/ TEST(AVERAGE_POOLING_NHWC_QU8, setup_increasing_batch) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .next_batch_size(5) .input_height(8) .input_width(8) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupQU8(); } TEST(AVERAGE_POOLING_NHWC_QU8, setup_decreasing_batch) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(5) .next_batch_size(2) .input_height(8) .input_width(8) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupQU8(); } TEST(AVERAGE_POOLING_NHWC_QU8, setup_changing_height) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_height(9) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_height(7) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupQU8(); } TEST(AVERAGE_POOLING_NHWC_QU8, setup_changing_width) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_width(9) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupQU8(); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_width(7) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupQU8(); } TEST(AVERAGE_POOLING_NHWC_QU8, setup_swap_height_and_width) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(9) .input_width(8) .next_input_height(8) .next_input_width(9) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupQU8(); } TEST(AVERAGE_POOLING_NHWC_QU8, setup_local_to_global) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(6) .input_width(5) .next_input_height(5) .next_input_width(3) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupQU8(); } TEST(AVERAGE_POOLING_NHWC_QU8, setup_global_to_local) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(5) .input_width(3) .next_input_height(6) .next_input_width(5) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupQU8(); } /**************************** AVGPOOL path, unipass ****************************/ TEST(AVERAGE_POOLING_NHWC_F16, small_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF16(); } } } } TEST(AVERAGE_POOLING_NHWC_F16, small_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } } TEST(AVERAGE_POOLING_NHWC_F16, small_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } } TEST(AVERAGE_POOLING_NHWC_F16, small_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } TEST(AVERAGE_POOLING_NHWC_F16, small_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF16(); } } /**************************** AVGPOOL path, unipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_F16, batched_small_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF16(); } } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF16(); } } /**************************** AVGPOOL path, multipass ****************************/ TEST(AVERAGE_POOLING_NHWC_F16, large_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.avgpool.primary_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, large_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF16(); } } } } TEST(AVERAGE_POOLING_NHWC_F16, large_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 1; padding_left <= 2; padding_left++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } for (size_t padding_right = 1; padding_right <= 2; padding_right++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } TEST(AVERAGE_POOLING_NHWC_F16, large_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } } TEST(AVERAGE_POOLING_NHWC_F16, large_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } TEST(AVERAGE_POOLING_NHWC_F16, large_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, large_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, large_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, large_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF16(); } } /**************************** AVGPOOL path, multipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_F16, batched_large_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.avgpool.primary_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF16(); } } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF16(); } } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF16(); } } /**************************** GAVGPOOL path, unipass ****************************/ TEST(AVERAGE_POOLING_NHWC_F16, small_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With left padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_left(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_left(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); /* With right padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_right(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_right(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With top padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_top(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_top(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); /* With bottom padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_bottom(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_bottom(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, small_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF16(); } } /**************************** GAVGPOOL path, unipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_F16, batched_small_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With left padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_left(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_left(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); /* With right padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_right(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_right(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With top padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_top(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_top(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); /* With bottom padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_bottom(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_bottom(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_small_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF16(); } } /**************************** GAVGPOOL path, multipass ****************************/ TEST(AVERAGE_POOLING_NHWC_F16, large_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, large_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_left = 1; padding_left <= 2; padding_left++) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } for (size_t padding_right = 1; padding_right <= 2; padding_right++) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } } TEST(AVERAGE_POOLING_NHWC_F16, large_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_top = 1; padding_top <= 2; padding_top++) { AveragePoolingOperatorTester() .input_height(pooling_size.first - padding_top) .input_width(pooling_size.second) .padding_top(padding_top) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second - padding_top) .input_width(pooling_size.first) .padding_top(padding_top) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } for (size_t padding_bottom = 1; padding_bottom <= 2; padding_bottom++) { AveragePoolingOperatorTester() .input_height(pooling_size.first - padding_bottom) .input_width(pooling_size.second) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second - padding_bottom) .input_width(pooling_size.first) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } } TEST(AVERAGE_POOLING_NHWC_F16, large_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, large_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, large_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, large_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF16(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF16(); } } /**************************** GAVGPOOL path, multipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_F16, batched_large_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_left = 1; padding_left <= 2; padding_left++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } for (size_t padding_right = 1; padding_right <= 2; padding_right++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - padding_top) .input_width(pooling_size.second) .padding_top(padding_top) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - padding_top) .input_width(pooling_size.first) .padding_top(padding_top) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } for (size_t padding_bottom = 1; padding_bottom <= 2; padding_bottom++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - padding_bottom) .input_width(pooling_size.second) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - padding_bottom) .input_width(pooling_size.first) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF16(); } } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF16(); } } TEST(AVERAGE_POOLING_NHWC_F16, batched_large_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF16(); } } /**************************** AVGPOOL path, setup ****************************/ TEST(AVERAGE_POOLING_NHWC_F16, setup_increasing_batch) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .next_batch_size(5) .input_height(8) .input_width(8) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF16(); } TEST(AVERAGE_POOLING_NHWC_F16, setup_decreasing_batch) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(5) .next_batch_size(2) .input_height(8) .input_width(8) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF16(); } TEST(AVERAGE_POOLING_NHWC_F16, setup_changing_height) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_height(9) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_height(7) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF16(); } TEST(AVERAGE_POOLING_NHWC_F16, setup_changing_width) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_width(9) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF16(); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_width(7) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF16(); } TEST(AVERAGE_POOLING_NHWC_F16, setup_swap_height_and_width) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(9) .input_width(8) .next_input_height(8) .next_input_width(9) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF16(); } TEST(AVERAGE_POOLING_NHWC_F16, setup_local_to_global) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(6) .input_width(5) .next_input_height(5) .next_input_width(3) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF16(); } TEST(AVERAGE_POOLING_NHWC_F16, setup_global_to_local) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(5) .input_width(3) .next_input_height(6) .next_input_width(5) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF16(); } /**************************** AVGPOOL path, unipass ****************************/ TEST(AVERAGE_POOLING_NHWC_F32, small_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF32(); } } } } TEST(AVERAGE_POOLING_NHWC_F32, small_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } } TEST(AVERAGE_POOLING_NHWC_F32, small_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } } TEST(AVERAGE_POOLING_NHWC_F32, small_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } TEST(AVERAGE_POOLING_NHWC_F32, small_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF32(); } } /**************************** AVGPOOL path, unipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_F32, batched_small_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF32(); } } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.avgpool.primary_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF32(); } } /**************************** AVGPOOL path, multipass ****************************/ TEST(AVERAGE_POOLING_NHWC_F32, large_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.avgpool.primary_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, large_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF32(); } } } } TEST(AVERAGE_POOLING_NHWC_F32, large_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 1; padding_left <= 2; padding_left++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } for (size_t padding_right = 1; padding_right <= 2; padding_right++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } TEST(AVERAGE_POOLING_NHWC_F32, large_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } } TEST(AVERAGE_POOLING_NHWC_F32, large_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } TEST(AVERAGE_POOLING_NHWC_F32, large_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, large_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, large_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, large_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF32(); } } /**************************** AVGPOOL path, multipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_F32, batched_large_pool) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.avgpool.primary_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_pool_with_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride_width = 1; stride_width <= 2; stride_width++) { for (size_t stride_height = 1; stride_height <= 2; stride_height++) { if (stride_width == 1 && stride_height == 1) { continue; } AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride_height(stride_height) .stride_width(stride_width) .channels(channels) .TestF32(); } } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_pool_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_left = 0; padding_left <= 1; padding_left++) { for (size_t padding_right = 0; padding_right <= 1; padding_right++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_left(padding_left) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_pool_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { for (size_t padding_bottom = 0; padding_bottom <= 1; padding_bottom++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .padding_top(padding_top) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_pool_with_tf_same_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t stride = 1; stride <= 2; stride++) { for (size_t input_height = pooling_size.first + 3; input_height <= pooling_size.first + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.second + 2) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_width = pooling_size.second + 2; input_width <= pooling_size.second + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_height = pooling_size.second + 3; input_height <= pooling_size.second + 4; input_height++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(input_height) .input_width(pooling_size.first + 2) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } for (size_t input_width = pooling_size.first + 2; input_width <= pooling_size.first + 3; input_width++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(input_width) .padding_tf_same(true) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .stride(stride) .channels(channels) .TestF32(); } } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_pool_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_pool_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_pool_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_pool_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first + 3) .input_width(pooling_size.second + 2) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second + 3) .input_width(pooling_size.first + 2) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF32(); } } /**************************** GAVGPOOL path, unipass ****************************/ TEST(AVERAGE_POOLING_NHWC_F32, small_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With left padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_left(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_left(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); /* With right padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_right(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_right(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With top padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_top(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_top(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); /* With bottom padding */ AveragePoolingOperatorTester() .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_bottom(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_bottom(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, small_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF32(); } } /**************************** GAVGPOOL path, unipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_F32, batched_small_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With left padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_left(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_left(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); /* With right padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - 1) .padding_right(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - 1) .padding_right(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { /* With top padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_top(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_top(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); /* With bottom padding */ AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - 1) .input_width(pooling_size.second) .padding_bottom(1) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - 1) .input_width(pooling_size.first) .padding_bottom(1) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_small_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = SmallPoolSize(xnn_params.f32.gavgpool.row_tile); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF32(); } } /**************************** GAVGPOOL path, multipass ****************************/ TEST(AVERAGE_POOLING_NHWC_F32, large_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, large_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_left = 1; padding_left <= 2; padding_left++) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } for (size_t padding_right = 1; padding_right <= 2; padding_right++) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } } TEST(AVERAGE_POOLING_NHWC_F32, large_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_top = 1; padding_top <= 2; padding_top++) { AveragePoolingOperatorTester() .input_height(pooling_size.first - padding_top) .input_width(pooling_size.second) .padding_top(padding_top) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second - padding_top) .input_width(pooling_size.first) .padding_top(padding_top) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } for (size_t padding_bottom = 1; padding_bottom <= 2; padding_bottom++) { AveragePoolingOperatorTester() .input_height(pooling_size.first - padding_bottom) .input_width(pooling_size.second) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second - padding_bottom) .input_width(pooling_size.first) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } } TEST(AVERAGE_POOLING_NHWC_F32, large_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, large_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, large_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, large_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF32(); AveragePoolingOperatorTester() .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF32(); } } /**************************** GAVGPOOL path, multipass, batched ****************************/ TEST(AVERAGE_POOLING_NHWC_F32, batched_large_image) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_image_with_width_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_left = 1; padding_left <= 2; padding_left++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - padding_left) .padding_left(padding_left) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } for (size_t padding_right = 1; padding_right <= 2; padding_right++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first - padding_right) .padding_right(padding_right) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_image_with_height_padding) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { for (size_t padding_top = 0; padding_top <= 1; padding_top++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - padding_top) .input_width(pooling_size.second) .padding_top(padding_top) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - padding_top) .input_width(pooling_size.first) .padding_top(padding_top) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } for (size_t padding_bottom = 1; padding_bottom <= 2; padding_bottom++) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first - padding_bottom) .input_width(pooling_size.second) .padding_bottom(padding_bottom) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second - padding_bottom) .input_width(pooling_size.first) .padding_bottom(padding_bottom) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .TestF32(); } } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_image_with_input_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .input_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_image_with_output_stride) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .output_pixel_stride(2 * channels + 3) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_image_with_qmin) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmin(128) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmin(128) .TestF32(); } } TEST(AVERAGE_POOLING_NHWC_F32, batched_large_image_with_qmax) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); const std::pair pooling_size = LargePoolSize(xnn_params.f32.gavgpool.row_tile * 2); for (size_t channels = 1; channels <= 100; channels += 15) { AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.first) .input_width(pooling_size.second) .pooling_height(pooling_size.first) .pooling_width(pooling_size.second) .channels(channels) .qmax(128) .TestF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(pooling_size.second) .input_width(pooling_size.first) .pooling_height(pooling_size.second) .pooling_width(pooling_size.first) .channels(channels) .qmax(128) .TestF32(); } } /**************************** AVGPOOL path, setup ****************************/ TEST(AVERAGE_POOLING_NHWC_F32, setup_increasing_batch) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .next_batch_size(5) .input_height(8) .input_width(8) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF32(); } TEST(AVERAGE_POOLING_NHWC_F32, setup_decreasing_batch) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(5) .next_batch_size(2) .input_height(8) .input_width(8) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF32(); } TEST(AVERAGE_POOLING_NHWC_F32, setup_changing_height) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_height(9) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_height(7) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF32(); } TEST(AVERAGE_POOLING_NHWC_F32, setup_changing_width) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_width(9) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF32(); AveragePoolingOperatorTester() .batch_size(2) .input_height(8) .input_width(8) .next_input_width(7) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF32(); } TEST(AVERAGE_POOLING_NHWC_F32, setup_swap_height_and_width) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(9) .input_width(8) .next_input_height(8) .next_input_width(9) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF32(); } TEST(AVERAGE_POOLING_NHWC_F32, setup_local_to_global) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(6) .input_width(5) .next_input_height(5) .next_input_width(3) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF32(); } TEST(AVERAGE_POOLING_NHWC_F32, setup_global_to_local) { ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */)); AveragePoolingOperatorTester() .batch_size(2) .input_height(5) .input_width(3) .next_input_height(6) .next_input_width(5) .pooling_height(5) .pooling_width(3) .channels(24) .TestSetupF32(); }