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test / src /f16-f32acc-igemm /gen /f16-f32acc-igemm-6x8-minmax-avx2-broadcast.c
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// Auto-generated file. Do not edit!
// Template: src/f16-igemm/avx2-broadcast.c.in
// Generator: tools/xngen
//
// Copyright 2022 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 <assert.h>
#include <immintrin.h>
#include <xnnpack/igemm.h>
#include <xnnpack/intrinsics-polyfill.h>
void xnn_f16_f32acc_igemm_minmax_ukernel_6x8__avx2_broadcast(
size_t mr,
size_t nc,
size_t kc,
size_t ks,
const void** restrict a,
const void* restrict w,
void* restrict c,
size_t cm_stride,
size_t cn_stride,
size_t a_offset,
const void* zero,
const union xnn_f16_minmax_params params[restrict XNN_MIN_ELEMENTS(1)])
{
assert(mr != 0);
assert(mr <= 6);
assert(nc != 0);
assert(kc != 0);
assert(kc % sizeof(uint16_t) == 0);
assert(ks != 0);
assert(ks % (6 * sizeof(void*)) == 0);
assert(a_offset % sizeof(uint16_t) == 0);
assert(a != NULL);
assert(w != NULL);
assert(c != NULL);
uint16_t* c0 = c;
uint16_t* c1 = (uint16_t*) ((uintptr_t) c0 + cm_stride);
if XNN_UNPREDICTABLE(mr < 2) {
c1 = c0;
}
uint16_t* c2 = (uint16_t*) ((uintptr_t) c1 + cm_stride);
if XNN_UNPREDICTABLE(mr <= 2) {
c2 = c1;
}
uint16_t* c3 = (uint16_t*) ((uintptr_t) c2 + cm_stride);
if XNN_UNPREDICTABLE(mr < 4) {
c3 = c2;
}
uint16_t* c4 = (uint16_t*) ((uintptr_t) c3 + cm_stride);
if XNN_UNPREDICTABLE(mr <= 4) {
c4 = c3;
}
uint16_t* c5 = (uint16_t*) ((uintptr_t) c4 + cm_stride);
if XNN_UNPREDICTABLE(mr != 6) {
c5 = c4;
}
do {
__m256 vacc0x01234567 = _mm256_cvtph_ps(_mm_load_si128((const __m128i*) w));
__m256 vacc1x01234567 = vacc0x01234567;
__m256 vacc2x01234567 = vacc0x01234567;
__m256 vacc3x01234567 = vacc0x01234567;
__m256 vacc4x01234567 = vacc0x01234567;
__m256 vacc5x01234567 = vacc0x01234567;
w = (const uint16_t*) w + 8;
size_t p = ks;
do {
const uint16_t* restrict a0 = (const uint16_t*) a[0];
assert(a0 != NULL);
if XNN_UNPREDICTABLE(a0 != zero) {
a0 = (const uint16_t*) ((uintptr_t) a0 + a_offset);
}
const uint16_t* restrict a1 = (const uint16_t*) a[1];
assert(a1 != NULL);
if XNN_UNPREDICTABLE(a1 != zero) {
a1 = (const uint16_t*) ((uintptr_t) a1 + a_offset);
}
const uint16_t* restrict a2 = (const uint16_t*) a[2];
assert(a2 != NULL);
if XNN_UNPREDICTABLE(a2 != zero) {
a2 = (const uint16_t*) ((uintptr_t) a2 + a_offset);
}
const uint16_t* restrict a3 = (const uint16_t*) a[3];
assert(a3 != NULL);
if XNN_UNPREDICTABLE(a3 != zero) {
a3 = (const uint16_t*) ((uintptr_t) a3 + a_offset);
}
const uint16_t* restrict a4 = (const uint16_t*) a[4];
assert(a4 != NULL);
if XNN_UNPREDICTABLE(a4 != zero) {
a4 = (const uint16_t*) ((uintptr_t) a4 + a_offset);
}
const uint16_t* restrict a5 = (const uint16_t*) a[5];
assert(a5 != NULL);
if XNN_UNPREDICTABLE(a5 != zero) {
a5 = (const uint16_t*) ((uintptr_t) a5 + a_offset);
}
a += 6;
size_t k = kc;
do {
const __m256 vb01234567 = _mm256_cvtph_ps(_mm_load_si128((const __m128i*) w));
w = (const uint16_t*) w + 8;
const __m256 va0 = _mm256_cvtph_ps(_mm_set1_epi16((short) *a0));
a0 += 1;
const __m256 va1 = _mm256_cvtph_ps(_mm_set1_epi16((short) *a1));
a1 += 1;
const __m256 va2 = _mm256_cvtph_ps(_mm_set1_epi16((short) *a2));
a2 += 1;
const __m256 va3 = _mm256_cvtph_ps(_mm_set1_epi16((short) *a3));
a3 += 1;
const __m256 va4 = _mm256_cvtph_ps(_mm_set1_epi16((short) *a4));
a4 += 1;
const __m256 va5 = _mm256_cvtph_ps(_mm_set1_epi16((short) *a5));
a5 += 1;
vacc0x01234567 = _mm256_fmadd_ps(va0, vb01234567, vacc0x01234567);
vacc1x01234567 = _mm256_fmadd_ps(va1, vb01234567, vacc1x01234567);
vacc2x01234567 = _mm256_fmadd_ps(va2, vb01234567, vacc2x01234567);
vacc3x01234567 = _mm256_fmadd_ps(va3, vb01234567, vacc3x01234567);
vacc4x01234567 = _mm256_fmadd_ps(va4, vb01234567, vacc4x01234567);
vacc5x01234567 = _mm256_fmadd_ps(va5, vb01234567, vacc5x01234567);
k -= sizeof(uint16_t);
} while (k != 0);
p -= 6 * sizeof(void*);
} while (p != 0);
const __m256 vmin = _mm256_load_ps(params->avx.min);
vacc0x01234567 = _mm256_max_ps(vacc0x01234567, vmin);
vacc1x01234567 = _mm256_max_ps(vacc1x01234567, vmin);
vacc2x01234567 = _mm256_max_ps(vacc2x01234567, vmin);
vacc3x01234567 = _mm256_max_ps(vacc3x01234567, vmin);
vacc4x01234567 = _mm256_max_ps(vacc4x01234567, vmin);
vacc5x01234567 = _mm256_max_ps(vacc5x01234567, vmin);
const __m256 vmax = _mm256_load_ps(params->avx.max);
vacc0x01234567 = _mm256_min_ps(vacc0x01234567, vmax);
vacc1x01234567 = _mm256_min_ps(vacc1x01234567, vmax);
vacc2x01234567 = _mm256_min_ps(vacc2x01234567, vmax);
vacc3x01234567 = _mm256_min_ps(vacc3x01234567, vmax);
vacc4x01234567 = _mm256_min_ps(vacc4x01234567, vmax);
vacc5x01234567 = _mm256_min_ps(vacc5x01234567, vmax);
if XNN_LIKELY(nc >= 8) {
_mm_storeu_si128((__m128i*) c5, _mm256_cvtps_ph(vacc5x01234567, _MM_FROUND_TO_NEAREST_INT));
c5 = (uint16_t*) ((uintptr_t) c5 + cn_stride);
_mm_storeu_si128((__m128i*) c4, _mm256_cvtps_ph(vacc4x01234567, _MM_FROUND_TO_NEAREST_INT));
c4 = (uint16_t*) ((uintptr_t) c4 + cn_stride);
_mm_storeu_si128((__m128i*) c3, _mm256_cvtps_ph(vacc3x01234567, _MM_FROUND_TO_NEAREST_INT));
c3 = (uint16_t*) ((uintptr_t) c3 + cn_stride);
_mm_storeu_si128((__m128i*) c2, _mm256_cvtps_ph(vacc2x01234567, _MM_FROUND_TO_NEAREST_INT));
c2 = (uint16_t*) ((uintptr_t) c2 + cn_stride);
_mm_storeu_si128((__m128i*) c1, _mm256_cvtps_ph(vacc1x01234567, _MM_FROUND_TO_NEAREST_INT));
c1 = (uint16_t*) ((uintptr_t) c1 + cn_stride);
_mm_storeu_si128((__m128i*) c0, _mm256_cvtps_ph(vacc0x01234567, _MM_FROUND_TO_NEAREST_INT));
c0 = (uint16_t*) ((uintptr_t) c0 + cn_stride);
a = (const void**restrict) ((uintptr_t) a - ks);
nc -= 8;
} else {
__m128i vh5x01234567 = _mm256_cvtps_ph(vacc5x01234567, _MM_FROUND_TO_NEAREST_INT);
__m128i vh4x01234567 = _mm256_cvtps_ph(vacc4x01234567, _MM_FROUND_TO_NEAREST_INT);
__m128i vh3x01234567 = _mm256_cvtps_ph(vacc3x01234567, _MM_FROUND_TO_NEAREST_INT);
__m128i vh2x01234567 = _mm256_cvtps_ph(vacc2x01234567, _MM_FROUND_TO_NEAREST_INT);
__m128i vh1x01234567 = _mm256_cvtps_ph(vacc1x01234567, _MM_FROUND_TO_NEAREST_INT);
__m128i vh0x01234567 = _mm256_cvtps_ph(vacc0x01234567, _MM_FROUND_TO_NEAREST_INT);
if (nc & 4) {
_mm_storel_epi64((__m128i*) c5, vh5x01234567);
_mm_storel_epi64((__m128i*) c4, vh4x01234567);
_mm_storel_epi64((__m128i*) c3, vh3x01234567);
_mm_storel_epi64((__m128i*) c2, vh2x01234567);
_mm_storel_epi64((__m128i*) c1, vh1x01234567);
_mm_storel_epi64((__m128i*) c0, vh0x01234567);
vh5x01234567 = _mm_unpackhi_epi64(vh5x01234567, vh5x01234567);
vh4x01234567 = _mm_unpackhi_epi64(vh4x01234567, vh4x01234567);
vh3x01234567 = _mm_unpackhi_epi64(vh3x01234567, vh3x01234567);
vh2x01234567 = _mm_unpackhi_epi64(vh2x01234567, vh2x01234567);
vh1x01234567 = _mm_unpackhi_epi64(vh1x01234567, vh1x01234567);
vh0x01234567 = _mm_unpackhi_epi64(vh0x01234567, vh0x01234567);
c5 += 4;
c4 += 4;
c3 += 4;
c2 += 4;
c1 += 4;
c0 += 4;
}
if (nc & 2) {
_mm_storeu_si32(c5, vh5x01234567);
_mm_storeu_si32(c4, vh4x01234567);
_mm_storeu_si32(c3, vh3x01234567);
_mm_storeu_si32(c2, vh2x01234567);
_mm_storeu_si32(c1, vh1x01234567);
_mm_storeu_si32(c0, vh0x01234567);
vh5x01234567 = _mm_srli_epi64(vh5x01234567, 32);
vh4x01234567 = _mm_srli_epi64(vh4x01234567, 32);
vh3x01234567 = _mm_srli_epi64(vh3x01234567, 32);
vh2x01234567 = _mm_srli_epi64(vh2x01234567, 32);
vh1x01234567 = _mm_srli_epi64(vh1x01234567, 32);
vh0x01234567 = _mm_srli_epi64(vh0x01234567, 32);
c5 += 2;
c4 += 2;
c3 += 2;
c2 += 2;
c1 += 2;
c0 += 2;
}
if (nc & 1) {
*c5 = _mm_extract_epi16(vh5x01234567, 0);
*c4 = _mm_extract_epi16(vh4x01234567, 0);
*c3 = _mm_extract_epi16(vh3x01234567, 0);
*c2 = _mm_extract_epi16(vh2x01234567, 0);
*c1 = _mm_extract_epi16(vh1x01234567, 0);
*c0 = _mm_extract_epi16(vh0x01234567, 0);
}
nc = 0;
}
} while (nc != 0);
}