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android13/external/XNNPACK/test/f16-vmulcaddc-minmax.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.
//
// Auto-generated file. Do not edit!
// Specification: test/f16-vmulcaddc-minmax.yaml
// Generator: tools/generate-vmulcaddc-test.py
#include <gtest/gtest.h>
#include <xnnpack/common.h>
#include <xnnpack/isa-checks.h>
#include <xnnpack/vmulcaddc.h>
#include "vmulcaddc-microkernel-tester.h"
#if XNN_ARCH_ARM64
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, channels_eq_8) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(8)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, channels_div_8) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t channels = 16; channels < 80; channels += 8) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, channels_lt_8) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t channels = 1; channels < 8; channels++) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, channels_gt_8) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t channels = 9; channels < 16; channels++) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, rows_lt_2) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows < 2; rows++) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, rows_div_2) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 4; rows <= 8; rows += 2) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, rows_gt_2) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 3; rows < 4; rows++) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, input_stride) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.input_stride(43)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, output_stride) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.output_stride(43)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, inplace) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.inplace(true)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, qmin) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.qmin(128)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__NEONFP16ARITH_2X, qmax) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.qmax(128)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
#endif // XNN_ARCH_ARM64
#if XNN_ARCH_ARM64
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, channels_eq_16) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(16)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, channels_div_16) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t channels = 32; channels < 160; channels += 16) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, channels_lt_16) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t channels = 1; channels < 16; channels++) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, channels_gt_16) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t channels = 17; channels < 32; channels++) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, rows_lt_2) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows < 2; rows++) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, rows_div_2) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 4; rows <= 8; rows += 2) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, rows_gt_2) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 3; rows < 4; rows++) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, input_stride) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.input_stride(83)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, output_stride) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.output_stride(83)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, inplace) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.inplace(true)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, qmin) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.qmin(128)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__NEONFP16ARITH_2X, qmax) {
TEST_REQUIRES_ARM_NEON_FP16_ARITH;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.qmax(128)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__neonfp16arith_2x, xnn_init_f16_minmax_neon_params);
}
}
}
#endif // XNN_ARCH_ARM64
#if XNN_ARCH_X86 || XNN_ARCH_X86_64
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, channels_eq_8) {
TEST_REQUIRES_X86_FMA3;
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(8)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, channels_div_8) {
TEST_REQUIRES_X86_FMA3;
for (size_t channels = 16; channels < 80; channels += 8) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, channels_lt_8) {
TEST_REQUIRES_X86_FMA3;
for (size_t channels = 1; channels < 8; channels++) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, channels_gt_8) {
TEST_REQUIRES_X86_FMA3;
for (size_t channels = 9; channels < 16; channels++) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, rows_lt_2) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows < 2; rows++) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, rows_div_2) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 4; rows <= 8; rows += 2) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, rows_gt_2) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 3; rows < 4; rows++) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, input_stride) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.input_stride(43)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, output_stride) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.output_stride(43)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, inplace) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.inplace(true)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, qmin) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.qmin(128)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C8__FMA3_2X, qmax) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 40; channels += 7) {
VMulCAddCMicrokernelTester()
.channel_tile(8)
.channels(channels)
.rows(rows)
.qmax(128)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c8__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
#endif // XNN_ARCH_X86 || XNN_ARCH_X86_64
#if XNN_ARCH_X86 || XNN_ARCH_X86_64
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, channels_eq_16) {
TEST_REQUIRES_X86_FMA3;
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(16)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, channels_div_16) {
TEST_REQUIRES_X86_FMA3;
for (size_t channels = 32; channels < 160; channels += 16) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, channels_lt_16) {
TEST_REQUIRES_X86_FMA3;
for (size_t channels = 1; channels < 16; channels++) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, channels_gt_16) {
TEST_REQUIRES_X86_FMA3;
for (size_t channels = 17; channels < 32; channels++) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(2)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, rows_lt_2) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows < 2; rows++) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, rows_div_2) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 4; rows <= 8; rows += 2) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, rows_gt_2) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 3; rows < 4; rows++) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, input_stride) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.input_stride(83)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, output_stride) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.output_stride(83)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, inplace) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.inplace(true)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, qmin) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.qmin(128)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
TEST(F16_VMULCADDC_MINMAX_C16__FMA3_2X, qmax) {
TEST_REQUIRES_X86_FMA3;
for (size_t rows = 1; rows <= 6; rows += 1) {
for (size_t channels = 1; channels <= 80; channels += 15) {
VMulCAddCMicrokernelTester()
.channel_tile(16)
.channels(channels)
.rows(rows)
.qmax(128)
.Test(xnn_f16_vmulcaddc_minmax_ukernel_c16__fma3_2x, xnn_init_f16_minmax_avx_params);
}
}
}
#endif // XNN_ARCH_X86 || XNN_ARCH_X86_64
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