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android / platform / external / XNNPACK / refs/tags/android-mainline-11.0.0_r14 / . / test / deconvolution-nhwc.cc
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// 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 <gtest/gtest.h>
#include <xnnpack/params.h>
#include "deconvolution-operator-tester.h"
constexpr size_t kUnstridedInputHeight = 8;
constexpr size_t kUnstridedInputWidth = 7;
constexpr size_t kStridedInputHeight = 6;
constexpr size_t kStridedInputWidth = 5;
/**************************** Future GEMM path ****************************/
TEST(DECONVOLUTION_NHWC_Q8, 1x1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 1x1_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 1x1_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, input_width)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 1x1_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 1x1_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 1x1_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 1x1_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 1x1_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 1x1_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 1x1_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** Future GEMM path, grouped ****************************/
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, input_width)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(47)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_1x1_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** Future GEMM path, batched ****************************/
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, input_width)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_1x1_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** Future GEMM path, batched, grouped ****************************/
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, input_width)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(47)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_1x1_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** CONV path ****************************/
TEST(DECONVOLUTION_NHWC_Q8, 3x3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, Kx3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 1; kernel_height <= 4; kernel_height *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3xK) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 1; kernel_width <= 4; kernel_width *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 1; adjustment_height <= 2; adjustment_height++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_height(adjustment_height + 1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 1; adjustment_width <= 2; adjustment_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_width(adjustment_width + 1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, input_width)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_with_height_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_height = 2; dilation_height <= 3; dilation_height++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(dilation_height)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_with_width_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_width = 2; dilation_width <= 3; dilation_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(dilation_width)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_with_height_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(3)
.stride_height(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_with_width_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(3)
.stride_width(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** CONV path, grouped ****************************/
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_Kx3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 1; kernel_height <= 4; kernel_height *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3xK) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 1; kernel_width <= 4; kernel_width *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 1; adjustment_height <= 2; adjustment_height++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_height(adjustment_height + 1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 1; adjustment_width <= 2; adjustment_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_width(adjustment_width + 1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, input_width)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_with_height_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_height = 2; dilation_height <= 3; dilation_height++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(dilation_height)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_with_width_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_width = 2; dilation_width <= 3; dilation_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(dilation_width)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_with_height_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(3)
.stride_height(2)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_with_width_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(3)
.stride_width(2)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(47)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** CONV path, batched ****************************/
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_Kx3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 1; kernel_height <= 4; kernel_height *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3xK) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 1; kernel_width <= 4; kernel_width *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 1; adjustment_height <= 2; adjustment_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_height(adjustment_height + 1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 1; adjustment_width <= 2; adjustment_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_width(adjustment_width + 1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, input_width)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_with_height_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_height = 2; dilation_height <= 3; dilation_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(dilation_height)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_with_width_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_width = 2; dilation_width <= 3; dilation_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(dilation_width)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_with_height_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(3)
.stride_height(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_with_width_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(3)
.stride_width(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** CONV path, grouped, batched ****************************/
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_Kx3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 1; kernel_height <= 4; kernel_height *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3xK) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 1; kernel_width <= 4; kernel_width *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 1; adjustment_height <= 2; adjustment_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_height(adjustment_height + 1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 1; adjustment_width <= 2; adjustment_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_width(adjustment_width + 1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, input_width)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_with_height_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_height = 2; dilation_height <= 3; dilation_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(dilation_height)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_with_width_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_width = 2; dilation_width <= 3; dilation_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(dilation_width)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_with_height_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(3)
.stride_width(2)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_with_width_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(3)
.stride_width(2)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(47)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** CONV path, setup ****************************/
TEST(DECONVOLUTION_NHWC_Q8, 3x3_setup_changing_batch) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.next_batch_size(5)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_height(3)
.kernel_width(5)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_setup_changing_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.next_input_height(kUnstridedInputHeight + 3)
.kernel_height(3)
.kernel_width(5)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3_setup_changing_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.next_input_width(kUnstridedInputWidth + 3)
.kernel_height(3)
.kernel_width(5)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupQ8();
}
/**************************** SUBCONV2D path ****************************/
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, Kx3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 2; kernel_height <= 5; kernel_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.stride(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3xKs2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 2; kernel_width <= 5; kernel_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.stride(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3sSx1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_height = 2; stride_height <= 3; stride_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_height(stride_height)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s1xS) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_width = 2; stride_width <= 3; stride_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_width(stride_width)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 0; adjustment_height <= 1; adjustment_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 0; adjustment_width <= 1; adjustment_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kStridedInputHeight - 2; input_height <= kStridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kStridedInputWidth - 2; input_width <= kStridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** SUBCONV2D path, grouped ****************************/
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_Kx3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 2; kernel_height <= 5; kernel_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3xKs2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 2; kernel_width <= 5; kernel_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3sSx1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_height = 2; stride_height <= 3; stride_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_height(stride_height)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s1xS) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_width = 2; stride_width <= 3; stride_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_width(stride_width)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 0; adjustment_height <= 1; adjustment_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 0; adjustment_width <= 1; adjustment_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kStridedInputHeight - 2; input_height <= kStridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kStridedInputWidth - 2; input_width <= kStridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 14; input_channels <= 20; input_channels++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(37)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, grouped_3x3s2_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** SUBCONV2D path, batched ****************************/
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_Kx3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 2; kernel_height <= 5; kernel_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.stride(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3xKs2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 2; kernel_width <= 5; kernel_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.stride(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3sSx1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_height = 2; stride_height <= 3; stride_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_height(stride_height)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s1xS) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_width = 2; stride_width <= 3; stride_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_width(stride_width)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 0; adjustment_height <= 1; adjustment_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 0; adjustment_width <= 1; adjustment_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kStridedInputHeight - 2; input_height <= kStridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kStridedInputWidth - 2; input_width <= kStridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_3x3s2_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** SUBCONV2D path, grouped, batched ****************************/
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_Kx3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 2; kernel_height <= 5; kernel_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3xKs2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 2; kernel_width <= 5; kernel_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3sSx1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_height = 2; stride_height <= 3; stride_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_height(stride_height)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s1xS) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_width = 2; stride_width <= 3; stride_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_width(stride_width)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 0; adjustment_height <= 1; adjustment_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 0; adjustment_width <= 1; adjustment_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kStridedInputHeight - 2; input_height <= kStridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kStridedInputWidth - 2; input_width <= kStridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 14; input_channels <= 20; input_channels++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.q8.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(output_channels)
.iterations(1)
.TestQ8();
}
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.input_pixel_stride(37)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr + 3)
.output_pixel_stride(xnn_params.q8.gemm.nr * 2 + 13)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, batched_grouped_3x3s2_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.q8.gemm.nr * 2 + 3)
.iterations(3)
.TestQ8();
}
/**************************** SUBCONV2D path, setup ****************************/
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_setup_changing_batch) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.next_batch_size(5)
.input_size(kStridedInputHeight, kStridedInputWidth)
.kernel_height(3)
.kernel_width(5)
.stride(2)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_setup_changing_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.next_input_height(kStridedInputHeight + 3)
.kernel_height(3)
.kernel_width(5)
.stride(2)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupQ8();
}
TEST(DECONVOLUTION_NHWC_Q8, 3x3s2_setup_changing_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.next_input_width(kStridedInputWidth + 3)
.kernel_height(3)
.kernel_width(5)
.stride(2)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupQ8();
}
/**************************** Future GEMM path ****************************/
TEST(DECONVOLUTION_NHWC_F32, 1x1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 1x1_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 1x1_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, input_width)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 1x1_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 1x1_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 1x1_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 1x1_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 1x1_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 1x1_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 1x1_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** Future GEMM path, grouped ****************************/
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, input_width)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(47)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_1x1_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** Future GEMM path, batched ****************************/
TEST(DECONVOLUTION_NHWC_F32, batched_1x1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_1x1_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_1x1_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, input_width)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_1x1_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_1x1_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_1x1_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_1x1_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_1x1_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_1x1_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_1x1_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** Future GEMM path, batched, grouped ****************************/
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, input_width)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(47)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_1x1_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_size(1, 1)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** CONV path ****************************/
TEST(DECONVOLUTION_NHWC_F32, 3x3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, Kx3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 1; kernel_height <= 4; kernel_height *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3xK) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 1; kernel_width <= 4; kernel_width *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 1; adjustment_height <= 2; adjustment_height++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_height(adjustment_height + 1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 1; adjustment_width <= 2; adjustment_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_width(adjustment_width + 1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, input_width)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_with_height_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_height = 2; dilation_height <= 3; dilation_height++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(dilation_height)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_with_width_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_width = 2; dilation_width <= 3; dilation_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(dilation_width)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_with_height_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(3)
.stride_height(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_with_width_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(3)
.stride_width(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** CONV path, grouped ****************************/
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_Kx3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 1; kernel_height <= 4; kernel_height *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3xK) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 1; kernel_width <= 4; kernel_width *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 1; adjustment_height <= 2; adjustment_height++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_height(adjustment_height + 1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 1; adjustment_width <= 2; adjustment_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_width(adjustment_width + 1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, input_width)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_with_height_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_height = 2; dilation_height <= 3; dilation_height++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(dilation_height)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_with_width_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_width = 2; dilation_width <= 3; dilation_width++) {
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(dilation_width)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_with_height_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(3)
.stride_height(2)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_with_width_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(3)
.stride_width(2)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(47)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** CONV path, batched ****************************/
TEST(DECONVOLUTION_NHWC_F32, batched_3x3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_Kx3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 1; kernel_height <= 4; kernel_height *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3xK) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 1; kernel_width <= 4; kernel_width *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 1; adjustment_height <= 2; adjustment_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_height(adjustment_height + 1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 1; adjustment_width <= 2; adjustment_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_width(adjustment_width + 1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, input_width)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_with_height_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_height = 2; dilation_height <= 3; dilation_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(dilation_height)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_with_width_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_width = 2; dilation_width <= 3; dilation_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(dilation_width)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_with_height_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(3)
.stride_height(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_with_width_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(3)
.stride_width(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** CONV path, grouped, batched ****************************/
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_Kx3) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 1; kernel_height <= 4; kernel_height *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3xK) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 1; kernel_width <= 4; kernel_width *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 1; adjustment_height <= 2; adjustment_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_height(adjustment_height + 1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 1; adjustment_width <= 2; adjustment_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.stride_width(adjustment_width + 1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kUnstridedInputHeight - 2; input_height <= kUnstridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kUnstridedInputWidth - 2; input_width <= kUnstridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, input_width)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_with_height_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_height = 2; dilation_height <= 3; dilation_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(dilation_height)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_with_width_dilation) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t dilation_width = 2; dilation_width <= 3; dilation_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(dilation_width)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_with_height_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_height(3)
.stride_width(2)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_with_width_dilation_and_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.dilation_width(3)
.stride_width(2)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(47)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.groups(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** CONV path, setup ****************************/
TEST(DECONVOLUTION_NHWC_F32, 3x3_setup_changing_batch) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.next_batch_size(5)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.kernel_height(3)
.kernel_width(5)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_setup_changing_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.next_input_height(kUnstridedInputHeight + 3)
.kernel_height(3)
.kernel_width(5)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3_setup_changing_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kUnstridedInputHeight, kUnstridedInputWidth)
.next_input_width(kUnstridedInputWidth + 3)
.kernel_height(3)
.kernel_width(5)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupF32();
}
/**************************** SUBCONV2D path ****************************/
TEST(DECONVOLUTION_NHWC_F32, 3x3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, Kx3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 2; kernel_height <= 5; kernel_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.stride(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3xKs2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 2; kernel_width <= 5; kernel_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.stride(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3sSx1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_height = 2; stride_height <= 3; stride_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_height(stride_height)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s1xS) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_width = 2; stride_width <= 3; stride_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_width(stride_width)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 0; adjustment_height <= 1; adjustment_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 0; adjustment_width <= 1; adjustment_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kStridedInputHeight - 2; input_height <= kStridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kStridedInputWidth - 2; input_width <= kStridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** SUBCONV2D path, grouped ****************************/
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_Kx3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 2; kernel_height <= 5; kernel_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3xKs2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 2; kernel_width <= 5; kernel_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3sSx1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_height = 2; stride_height <= 3; stride_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_height(stride_height)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s1xS) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_width = 2; stride_width <= 3; stride_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_width(stride_width)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 0; adjustment_height <= 1; adjustment_height++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 0; adjustment_width <= 1; adjustment_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kStridedInputHeight - 2; input_height <= kStridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.input_size(input_height, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kStridedInputWidth - 2; input_width <= kStridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 14; input_channels <= 20; input_channels++) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(37)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, grouped_3x3s2_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** SUBCONV2D path, batched ****************************/
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_Kx3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 2; kernel_height <= 5; kernel_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.stride(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3xKs2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 2; kernel_width <= 5; kernel_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.stride(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3sSx1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_height = 2; stride_height <= 3; stride_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_height(stride_height)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s1xS) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_width = 2; stride_width <= 3; stride_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_width(stride_width)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 0; adjustment_height <= 1; adjustment_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 0; adjustment_width <= 1; adjustment_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kStridedInputHeight - 2; input_height <= kStridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kStridedInputWidth - 2; input_width <= kStridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(15)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 1; input_channels <= 16; input_channels *= 4) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(28)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_3x3s2_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.group_input_channels(23)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** SUBCONV2D path, grouped, batched ****************************/
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_Kx3s2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_height = 2; kernel_height <= 5; kernel_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.kernel_size(kernel_height, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3xKs2) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t kernel_width = 2; kernel_width <= 5; kernel_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.kernel_size(3, kernel_width)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3sSx1) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_height = 2; stride_height <= 3; stride_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_height(stride_height)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s1xS) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t stride_width = 2; stride_width <= 3; stride_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.padding_width(1)
.kernel_size(3, 3)
.stride_width(stride_width)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_varying_height_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_top = 0; padding_top <= 2; padding_top++) {
for (size_t padding_bottom = 0; padding_bottom <= 2; padding_bottom++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_width(1)
.padding_top(padding_top)
.padding_bottom(padding_bottom)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_varying_width_padding) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t padding_left = 0; padding_left <= 2; padding_left++) {
for (size_t padding_right = 0; padding_right <= 2; padding_right++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding_height(1)
.padding_left(padding_left)
.padding_right(padding_right)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_varying_height_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_height = 0; adjustment_height <= 1; adjustment_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_height(adjustment_height)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_varying_width_adjustment) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t adjustment_width = 0; adjustment_width <= 1; adjustment_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.adjustment_width(adjustment_width)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_varying_input_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_height = kStridedInputHeight - 2; input_height <= kStridedInputHeight + 2; input_height++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(input_height, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_varying_input_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_width = kStridedInputWidth - 2; input_width <= kStridedInputWidth + 2; input_width++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_varying_input_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t input_channels = 14; input_channels <= 20; input_channels++) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(input_channels)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_varying_output_channels) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
for (size_t output_channels = 1; output_channels <= xnn_params.f32.gemm.nr * 2; output_channels *= 2) {
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(output_channels)
.iterations(1)
.TestF32();
}
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_with_input_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.input_pixel_stride(37)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_with_output_stride) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr + 3)
.output_pixel_stride(xnn_params.f32.gemm.nr * 2 + 13)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_with_qmin) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmin(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_with_qmax) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.qmax(128)
.iterations(3)
.TestF32();
}
TEST(DECONVOLUTION_NHWC_F32, batched_grouped_3x3s2_without_bias) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.has_bias(false)
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.padding(1)
.kernel_size(3, 3)
.stride(2)
.groups(2)
.group_input_channels(17)
.group_output_channels(xnn_params.f32.gemm.nr * 2 + 3)
.iterations(3)
.TestF32();
}
/**************************** SUBCONV2D path, setup ****************************/
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_setup_changing_batch) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.next_batch_size(5)
.input_size(kStridedInputHeight, kStridedInputWidth)
.kernel_height(3)
.kernel_width(5)
.stride(2)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_setup_changing_height) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.next_input_height(kStridedInputHeight + 3)
.kernel_height(3)
.kernel_width(5)
.stride(2)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupF32();
}
TEST(DECONVOLUTION_NHWC_F32, 3x3s2_setup_changing_width) {
ASSERT_EQ(xnn_status_success, xnn_initialize(nullptr /* allocator */));
DeconvolutionOperatorTester()
.batch_size(2)
.input_size(kStridedInputHeight, kStridedInputWidth)
.next_input_width(kStridedInputWidth + 3)
.kernel_height(3)
.kernel_width(5)
.stride(2)
.groups(2)
.group_input_channels(15)
.group_output_channels(17)
.TestSetupF32();
}