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android / platform / external / XNNPACK / refs/tags/android-mainline-11.0.0_r18 / . / src / xnnpack / pack.h
blob: a68dfbda8fa6403e8104412909f0d48cc5d2204a [file] [log] [blame]
// Copyright (c) Facebook, Inc. and its affiliates.
// All rights reserved.
//
// Copyright 2019 Google LLC
//
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree.
#pragma once
#include <stdint.h>
#include <xnnpack/math.h>
#include <xnnpack/operator.h>
static inline void xnn_pack_q8_gemm_goi_w(
size_t g,
size_t nc,
size_t kc,
uint32_t nr,
uint32_t kr,
uint8_t izp,
uint8_t kzp,
const uint8_t* k,
const int32_t* b,
void* packed_w)
{
const int32_t boff = (int32_t) kc * (int32_t) izp * (int32_t) kzp;
do {
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
int32_t* packed_b = (int32_t*) packed_w;
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
*((int32_t*) packed_w) = b[nr_block_start + nr_block_offset] + boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
}
} else {
size_t n = nr_block_size;
do {
*((int32_t*) packed_w) = boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
} while (--n != 0);
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * sizeof(int32_t));
for (size_t kr_block_start = 0; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
int32_t ksum = 0;
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
const uint8_t kv = k[(nr_block_start + nr_block_offset) * kc + (kr_block_start + kr_block_offset)];
ksum += (int32_t) kv;
*((uint8_t*) packed_w) = kv;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(uint8_t));
}
packed_b[nr_block_offset] -= ksum * (int32_t) izp;
packed_w = (void*) ((uintptr_t) packed_w + (kr - kr_block_size) * sizeof(uint8_t));
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * kr * sizeof(uint8_t));
}
}
k += nc * kc;
if XNN_UNPREDICTABLE(b != NULL) {
b += nc;
}
} while (--g != 0);
}
static inline void xnn_pack_q8_gemm_io_w(
size_t nc,
size_t kc,
uint32_t nr,
uint32_t kr,
uint8_t izp,
uint8_t kzp,
const uint8_t* k,
const int32_t* b,
void* packed_w)
{
const int32_t boff = (int32_t) kc * (int32_t) izp * (int32_t) kzp;
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
int32_t* packed_b = (int32_t*) packed_w;
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
*((int32_t*) packed_w) = b[nr_block_start + nr_block_offset] + boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
}
} else {
size_t n = nr_block_size;
do {
*((int32_t*) packed_w) = boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
} while (--n != 0);
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * sizeof(int32_t));
for (size_t kr_block_start = 0; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
int32_t ksum = 0;
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
const uint8_t kv = k[(kr_block_start + kr_block_offset) * nc + (nr_block_start + nr_block_offset)];
ksum += (int32_t) kv;
*((uint8_t*) packed_w) = kv;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(uint8_t));
}
packed_b[nr_block_offset] -= ksum * (int32_t) izp;
packed_w = (void*) ((uintptr_t) packed_w + (kr - kr_block_size) * sizeof(uint8_t));
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * kr * sizeof(uint8_t));
}
}
}
static inline void xnn_pack_q8_conv_goki_w(
size_t g,
size_t nc,
size_t ks,
size_t kc,
uint32_t nr,
uint32_t kr,
uint8_t izp,
uint8_t kzp,
const uint8_t* k,
const int32_t* b,
void* packed_w)
{
const int32_t boff = (int32_t) ks * (int32_t) kc * (int32_t) izp * (int32_t) kzp;
do {
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
int32_t* packed_b = (int32_t*) packed_w;
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
*((int32_t*) packed_w) = b[nr_block_start + nr_block_offset] + boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
}
} else {
size_t n = nr_block_size;
do {
*((int32_t*) packed_w) = boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
} while (--n != 0);
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * sizeof(int32_t));
for (size_t ki = 0; ki < ks; ki++) {
for (size_t kr_block_start = 0; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
int32_t ksum = 0;
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
const uint8_t kv =
k[((nr_block_start + nr_block_offset) * ks + ki) * kc + (kr_block_start + kr_block_offset)];
ksum += (int32_t) kv;
*((uint8_t*) packed_w) = kv;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(uint8_t));
}
packed_b[nr_block_offset] -= ksum * (int32_t) izp;
packed_w = (void*) ((uintptr_t) packed_w + (kr - kr_block_size) * sizeof(uint8_t));
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * kr * sizeof(uint8_t));
}
}
}
k += ks * kc * nc;
if XNN_UNPREDICTABLE(b != NULL) {
b += nc;
}
} while (--g != 0);
}
static inline void xnn_pack_q8_conv_kgo_w(
size_t g,
size_t nc,
size_t ks,
uint32_t nr,
uint32_t kr,
uint8_t izp,
uint8_t kzp,
const uint8_t* k,
const int32_t* b,
void* packed_w)
{
const int32_t boff = (int32_t) ks * (int32_t) izp * (int32_t) kzp;
for (size_t i = 0; i < g; i++) {
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
int32_t* packed_b = (int32_t*) packed_w;
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
*((int32_t*) packed_w) = b[nr_block_start + nr_block_offset] + boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
}
} else {
size_t n = nr_block_size;
do {
*((int32_t*) packed_w) = boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
} while (--n != 0);
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * sizeof(int32_t));
for (size_t ki = 0; ki < ks; ki++) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
const uint8_t kv =
k[ki * g * nc + (nr_block_start + nr_block_offset)];
*((uint8_t*) packed_w) = kv;
packed_b[nr_block_offset] -= (int32_t) kv * (int32_t) izp;
packed_w = (void*) ((uintptr_t) packed_w + kr * sizeof(uint8_t));
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * kr * sizeof(uint8_t));
}
}
k += nc;
if XNN_UNPREDICTABLE(b != NULL) {
b += nc;
}
}
}
static inline void xnn_pack_q8_deconv_goki_w(
size_t g,
size_t nc,
size_t kh,
size_t kw,
size_t kc,
size_t sh,
size_t sw,
size_t nr,
size_t kr,
uint8_t izp,
uint8_t kzp,
const uint8_t* k,
const int32_t* b,
void* packed_w,
struct subconvolution_params* params)
{
for (size_t i = 0; i < g; i++) {
for (size_t oy = 0; oy < sh; oy++) {
for (size_t ox = 0; ox < sw; ox++) {
if (i == 0) {
(*params++).weights = packed_w;
}
const int32_t boff = (int32_t) divide_round_up(kh - oy, sh) * (int32_t) divide_round_up(kw - ox, sw) * (int32_t) kc * (int32_t) izp * (int32_t) kzp;
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
int32_t* packed_b = (int32_t*) packed_w;
if XNN_LIKELY(b != 0) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
*((int32_t*) packed_w) = b[nr_block_start + nr_block_offset] + boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
}
} else {
size_t n = nr_block_size;
do {
*((int32_t*) packed_w) = boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
} while (--n != 0);
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * sizeof(int32_t));
for (size_t ky = oy; ky < kh; ky += sh) {
for (size_t kx = ox; kx < kw; kx += sw) {
for (size_t kr_block_start = 0; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
int32_t ksum = 0;
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
const uint8_t kv =
k[(((nr_block_start + nr_block_offset) * kh + ky) * kw + kx) * kc + (kr_block_start + kr_block_offset)];
ksum += (int32_t) kv;
*((uint8_t*) packed_w) = kv;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(uint8_t));
}
packed_b[nr_block_offset] -= ksum * (int32_t) izp;
packed_w = (void*) ((uintptr_t) packed_w + (kr - kr_block_size) * sizeof(uint8_t));
}
packed_w = (void*) ((uintptr_t) packed_w + (nr - nr_block_size) * kr * sizeof(uint8_t));
}
}
}
}
}
}
k += kh * kw * kc * nc;
if XNN_UNPREDICTABLE(b != NULL) {
b += nc;
}
}
}
static inline void xnn_pack_q8_dwconv_ghw_w(
size_t h,
size_t w,
size_t c,
size_t cr,
uint8_t izp,
uint8_t kzp,
const uint8_t* k,
const int32_t* b,
void* packed_w)
{
const int32_t boff = (int32_t) h * (int32_t) w * (int32_t) izp * (int32_t) kzp;
for (size_t cr_block_start = 0; cr_block_start < c; cr_block_start += cr) {
const size_t cr_block_size = min(c - cr_block_start, cr);
int32_t* packed_b = (int32_t*) packed_w;
if XNN_LIKELY(b != NULL) {
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
*((int32_t*) packed_w) = b[cr_block_start + cr_block_offset] + boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
}
} else {
size_t n = cr_block_size;
do {
*((int32_t*) packed_w) = boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
} while (--n != 0);
}
packed_w = (void*) ((uintptr_t) packed_w + (cr - cr_block_size) * sizeof(int32_t));
for (size_t x = 0; x < w; x++) {
for (size_t y = 0; y < h; y++) {
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
const uint8_t kv = k[((cr_block_start + cr_block_offset) * h + y) * w + x];
packed_b[cr_block_offset] -= (int32_t) kv * (int32_t) izp;
*((uint8_t*) packed_w) = kv;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(uint8_t));
}
packed_w = (void*) ((uintptr_t) packed_w + (cr - cr_block_size) * sizeof(uint8_t));
}
}
}
}
static inline void xnn_pack_q8_dwconv_hwg_w(
size_t h,
size_t w,
size_t c,
size_t cr,
uint8_t izp,
uint8_t kzp,
const uint8_t* k,
const int32_t* b,
void* packed_w)
{
const int32_t boff = (int32_t) h * (int32_t) w * (int32_t) izp * (int32_t) kzp;
for (size_t cr_block_start = 0; cr_block_start < c; cr_block_start += cr) {
const size_t cr_block_size = min(c - cr_block_start, cr);
int32_t* packed_b = (int32_t*) packed_w;
if XNN_LIKELY(b != NULL) {
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
*((int32_t*) packed_w) = b[cr_block_start + cr_block_offset] + boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
}
} else {
size_t n = cr_block_size;
do {
*((int32_t*) packed_w) = boff;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(int32_t));
} while (--n != 0);
}
packed_w = (void*) ((uintptr_t) packed_w + (cr - cr_block_size) * sizeof(int32_t));
for (size_t x = 0; x < w; x++) {
for (size_t y = 0; y < h; y++) {
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
const uint8_t kv = k[(y * w + x) * c + (cr_block_start + cr_block_offset)];
packed_b[cr_block_offset] -= (int32_t) kv * (int32_t) izp;
*((uint8_t*) packed_w) = kv;
packed_w = (void*) ((uintptr_t) packed_w + sizeof(uint8_t));
}
packed_w = (void*) ((uintptr_t) packed_w + (cr - cr_block_size) * sizeof(uint8_t));
}
}
}
}
static inline void xnn_pack_f16_gemm_goi_w(
size_t g,
size_t nc,
size_t kc,
size_t nr,
size_t kr,
const uint16_t* k,
const uint16_t* b,
uint16_t* packed_w)
{
do {
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
packed_w[nr_block_offset] = b[nr_block_start + nr_block_offset];
}
}
packed_w += nr;
for (size_t kr_block_start = 0; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
*packed_w++ =
k[(nr_block_start + nr_block_offset) * kc + (kr_block_start + kr_block_offset)];
}
packed_w += kr - kr_block_size;
}
packed_w += (nr - nr_block_size) * kr;
}
}
k += nc * kc;
if XNN_UNPREDICTABLE(b != NULL) {
b += nc;
}
} while (--g != 0);
}
static inline void xnn_pack_f16_gemm_io_w(
size_t nc,
size_t kc,
size_t nr,
size_t kr,
const uint16_t* k,
const uint16_t* b,
uint16_t* packed_w)
{
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
packed_w[nr_block_offset] = b[nr_block_start + nr_block_offset];
}
}
packed_w += nr;
for (size_t kr_block_start = 0; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
*packed_w++ =
k[(kr_block_start + kr_block_offset) * nc + (nr_block_start + nr_block_offset)];
}
packed_w += kr - kr_block_size;
}
packed_w += (nr - nr_block_size) * kr;
}
}
}
static inline void xnn_pack_f32_gemm_goi_w(
size_t g,
size_t nc,
size_t kc,
size_t nr,
size_t kr,
size_t sr,
const float* k,
const float* b,
float* packed_w)
{
const size_t skr = sr * kr;
const size_t skc = round_down_po2(kc, skr);
const size_t sr_mask = (sr - 1) * kr;
do {
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
packed_w[nr_block_offset] = b[nr_block_start + nr_block_offset];
}
}
packed_w += nr;
for (size_t kr_block_start = 0; kr_block_start < skc; kr_block_start += kr) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr; kr_block_offset++) {
*packed_w++ =
k[(nr_block_start + nr_block_offset) * kc + round_down_po2(kr_block_start, skr) + ((kr_block_start + nr_block_offset * kr) & sr_mask) + kr_block_offset];
}
}
packed_w += (nr - nr_block_size) * kr;
}
for (size_t kr_block_start = skc; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
*packed_w++ =
k[(nr_block_start + nr_block_offset) * kc + (kr_block_start + kr_block_offset)];
}
packed_w += kr - kr_block_size;
}
packed_w += (nr - nr_block_size) * kr;
}
}
k += nc * kc;
if XNN_UNPREDICTABLE(b != NULL) {
b += nc;
}
} while (--g != 0);
}
static inline void xnn_pack_f32_gemm_io_w(
size_t nc,
size_t kc,
size_t nr,
size_t kr,
size_t sr,
const float* k,
const float* b,
float* packed_w)
{
const size_t skr = sr * kr;
const size_t skc = round_down_po2(kc, skr);
const size_t sr_mask = (sr - 1) * kr;
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
packed_w[nr_block_offset] = b[nr_block_start + nr_block_offset];
}
}
packed_w += nr;
for (size_t kr_block_start = 0; kr_block_start < skc; kr_block_start += kr) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr; kr_block_offset++) {
*packed_w++ =
k[(round_down_po2(kr_block_start, skr) + ((kr_block_start + nr_block_offset * kr) & sr_mask) + kr_block_offset) * nc + (nr_block_start + nr_block_offset)];
}
}
packed_w += (nr - nr_block_size) * kr;
}
for (size_t kr_block_start = skc; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
*packed_w++ =
k[(kr_block_start + kr_block_offset) * nc + (nr_block_start + nr_block_offset)];
}
packed_w += kr - kr_block_size;
}
packed_w += (nr - nr_block_size) * kr;
}
}
}
static inline void xnn_pack_f32_gemminc_goi_w(
size_t g,
size_t nc,
size_t kc,
size_t nr,
size_t kr,
size_t sr,
const float* k,
float* packed_w)
{
const size_t skr = sr * kr;
const size_t skc = round_down_po2(kc, skr);
const size_t sr_mask = (sr - 1) * kr;
do {
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
for (size_t kr_block_start = 0; kr_block_start < skc; kr_block_start += kr) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr; kr_block_offset++) {
*packed_w++ =
k[(nr_block_start + nr_block_offset) * kc + round_down_po2(kr_block_start, skr) + ((kr_block_start + nr_block_offset * kr) & sr_mask) + kr_block_offset];
}
}
packed_w += (nr - nr_block_size) * kr;
}
for (size_t kr_block_start = skc; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
*packed_w++ =
k[(nr_block_start + nr_block_offset) * kc + (kr_block_start + kr_block_offset)];
}
packed_w += kr - kr_block_size;
}
packed_w += (nr - nr_block_size) * kr;
}
}
k += nc * kc;
} while (--g != 0);
}
static inline void xnn_pack_f32_conv_goki_w(
size_t g,
size_t nc,
size_t ks,
size_t kc,
size_t nr,
size_t kr,
size_t sr,
const float* k,
const float* b,
float* packed_w)
{
const size_t skr = sr * kr;
const size_t skc = round_down_po2(kc, skr);
const size_t sr_mask = (sr - 1) * kr;
do {
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
packed_w[nr_block_offset] = b[nr_block_start + nr_block_offset];
}
}
packed_w += nr;
for (size_t ki = 0; ki < ks; ki++) {
for (size_t kr_block_start = 0; kr_block_start < skc; kr_block_start += kr) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr; kr_block_offset++) {
*packed_w++ =
k[((nr_block_start + nr_block_offset) * ks + ki) * kc + round_down_po2(kr_block_start, skr) + ((kr_block_start + nr_block_offset * kr) & sr_mask) + kr_block_offset];
}
}
packed_w += (nr - nr_block_size) * kr;
}
for (size_t kr_block_start = skc; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
*packed_w++ =
k[((nr_block_start + nr_block_offset) * ks + ki) * kc + (kr_block_start + kr_block_offset)];
}
packed_w += kr - kr_block_size;
}
packed_w += (nr - nr_block_size) * kr;
}
}
}
k += ks * kc * nc;
if XNN_UNPREDICTABLE(b != NULL) {
b += nc;
}
} while (--g != 0);
}
static inline void xnn_pack_f32_conv_kgo_w(
size_t g,
size_t nc,
size_t ks,
size_t nr,
size_t kr,
const float* k,
const float* b,
float* packed_w)
{
for (size_t i = 0; i < g; i++) {
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
packed_w[nr_block_offset] = b[nr_block_start + nr_block_offset];
}
}
packed_w += nr;
for (size_t ki = 0; ki < ks; ki++) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
*packed_w =
k[ki * g * nc + (nr_block_start + nr_block_offset)];
packed_w += kr;
}
packed_w += (nr - nr_block_size) * kr;
}
}
k += nc;
if XNN_UNPREDICTABLE(b != NULL) {
b += nc;
}
}
}
static inline void xnn_pack_f32_dconv_oki_w(
size_t nc,
size_t kc,
size_t nr,
size_t kh,
size_t kw,
const float* k,
const float* b,
float* packed_w)
{
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr; nr_block_offset++) {
*packed_w++ = b[min(nr_block_offset, nr_block_size - 1)];
}
} else {
size_t n = nr;
do {
*packed_w++ = 0.0f;
} while (--n != 0);
}
for (size_t kx = 0; kx < kw; kx++) {
for (size_t c = 0; c < kc; c++) {
for (size_t ky = 0; ky < kh; ky++) {
for (size_t nr_block_offset = 0; nr_block_offset < nr; nr_block_offset++) {
*packed_w++ = k[(((nr_block_start + min(nr_block_offset, nr_block_size - 1)) * kh + ky) * kw + kx) * kc + c];
}
}
}
}
if XNN_UNPREDICTABLE(b != NULL) {
b += nr;
}
}
}
static inline void xnn_pack_f32_deconv_goki_w(
size_t g,
size_t nc,
size_t kh,
size_t kw,
size_t kc,
size_t sh,
size_t sw,
size_t nr,
size_t kr,
size_t sr,
const float* k,
const float* b,
float* packed_w,
struct subconvolution_params* params)
{
const size_t skr = sr * kr;
const size_t skc = round_down_po2(kc, skr);
const size_t sr_mask = (sr - 1) * kr;
for (size_t i = 0; i < g; i++) {
for (size_t oy = 0; oy < sh; oy++) {
for (size_t ox = 0; ox < sw; ox++) {
if (i == 0) {
(*params++).weights = packed_w;
}
for (size_t nr_block_start = 0; nr_block_start < nc; nr_block_start += nr) {
const size_t nr_block_size = min(nc - nr_block_start, nr);
if XNN_LIKELY(b != NULL) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
packed_w[nr_block_offset] = b[nr_block_start + nr_block_offset];
}
}
packed_w += nr;
for (size_t ky = oy; ky < kh; ky += sh) {
for (size_t kx = ox; kx < kw; kx += sw) {
for (size_t kr_block_start = 0; kr_block_start < skc; kr_block_start += kr) {
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr; kr_block_offset++) {
*packed_w++ =
k[(((nr_block_start + nr_block_offset) * kh + ky) * kw + kx) * kc + round_down_po2(kr_block_start, skr) + ((kr_block_start + nr_block_offset * kr) & sr_mask) + kr_block_offset];
}
}
packed_w += (nr - nr_block_size) * kr;
}
for (size_t kr_block_start = skc; kr_block_start < kc; kr_block_start += kr) {
const size_t kr_block_size = min(kc - kr_block_start, kr);
for (size_t nr_block_offset = 0; nr_block_offset < nr_block_size; nr_block_offset++) {
for (size_t kr_block_offset = 0; kr_block_offset < kr_block_size; kr_block_offset++) {
*packed_w++ =
k[(((nr_block_start + nr_block_offset) * kh + ky) * kw + kx) * kc + (kr_block_start + kr_block_offset)];
}
packed_w += kr - kr_block_size;
}
packed_w += (nr - nr_block_size) * kr;
}
}
}
}
}
}
k += kh * kw * kc * nc;
if XNN_UNPREDICTABLE(b != NULL) {
b += nc;
}
}
}
static inline void xnn_pack_f32_dwconv_ghw_w(
size_t h,
size_t w,
size_t c,
size_t cr,
const float* k,
const float* b,
float* packed_w)
{
for (size_t cr_block_start = 0; cr_block_start < c; cr_block_start += cr) {
const size_t cr_block_size = min(c - cr_block_start, cr);
if XNN_LIKELY(b != NULL) {
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
*packed_w++ = b[cr_block_start + cr_block_offset];
}
} else {
size_t n = cr_block_size;
do {
*packed_w++ = 0.0f;
} while (--n != 0);
}
packed_w += cr - cr_block_size;
for (size_t x = 0; x < w; x++) {
for (size_t y = 0; y < h; y++) {
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
const float kv = k[((cr_block_start + cr_block_offset) * h + y) * w + x];
*packed_w++ = kv;
}
packed_w += cr - cr_block_size;
}
}
}
}
static inline void xnn_pack_f32_dwconv_hwg_w(
size_t h,
size_t w,
size_t c,
size_t cr,
const float* k,
const float* b,
float* packed_w)
{
for (size_t cr_block_start = 0; cr_block_start < c; cr_block_start += cr) {
const size_t cr_block_size = min(c - cr_block_start, cr);
if XNN_LIKELY(b != NULL) {
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
*packed_w++ = b[cr_block_start + cr_block_offset];
}
} else {
size_t n = cr_block_size;
do {
*packed_w++ = 0.0f;
} while (--n != 0);
}
packed_w += cr - cr_block_size;
for (size_t x = 0; x < w; x++) {
for (size_t y = 0; y < h; y++) {
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
const float kv = k[(y * w + x) * c + (cr_block_start + cr_block_offset)];
*packed_w++ = kv;
}
packed_w += cr - cr_block_size;
}
}
}
}
static inline void xnn_pack_f32_spchw_dwconv_ghw_w(
size_t kernel_size,
size_t groups,
const float* kernel,
const float* bias,
float* packed_weights)
{
for (size_t g = 0; g < groups; g++) {
if XNN_LIKELY(bias != NULL) {
*packed_weights = *bias++;
} else {
*packed_weights = 0.0f;
}
packed_weights += 1;
for (size_t i = 0; i < kernel_size; i++) {
*packed_weights++ = kernel[g * kernel_size + i];
}
}
}
static inline void xnn_pack_f32_vmulcaddc_w(
size_t c,
size_t cr,
const float* s,
const float* b,
float* packed_w)
{
for (size_t cr_block_start = 0; cr_block_start < c; cr_block_start += cr) {
const size_t cr_block_size = min(c - cr_block_start, cr);
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
*packed_w++ = s[cr_block_start + cr_block_offset];
}
packed_w += cr - cr_block_size;
if XNN_LIKELY(b != NULL) {
for (size_t cr_block_offset = 0; cr_block_offset < cr_block_size; cr_block_offset++) {
*packed_w++ = b[cr_block_start + cr_block_offset];
}
} else {
size_t n = cr_block_size;
do {
*packed_w++ = 0.0f;
} while (--n != 0);
}
packed_w += cr - cr_block_size;
}
}