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zenFace-Recognition-SDK / openvino /vpu_custom_kernels /binary_convolution3x3.cl
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// Copyright (C) 2018-2022 Intel Corporation
// SPDX-License-Identifier: Apache-2.0
//
#pragma OPENCL EXTENSION cl_khr_fp16 : enable
#pragma OPENCL EXTENSION cl_khr_extended_async_copies : enable
ushort extract_weights(uchar val, int bit) { return ((val >> bit) & 1); }
__kernel void binary_convolution(
const __global half *restrict src_data,
const __global uchar *restrict weights_data,
const __global half *restrict dst_data,
float pad_value,
int IW,
int IH,
int IC,
int DW,
int DH,
int GC,
int KW,
int KH,
int PW,
int PH,
int SW,
int SH,
int OW)
{
__local half src_local[32 * 1024];
__local half dst_local[2 * 1024];
const int oh = get_group_id(0);
const int oc = get_group_id(1);
const int OH = get_global_size(0);
const int OC = get_global_size(1);
const int gc = oc / (OC / GC);
if (oh * SH - 1 >= 0 && oh * SH + DH + DH - 1 <= IH - 1) //dma for 3 rows
{
event_t e = async_work_group_copy_3D3D(
src_local, // dst
src_data + (gc * IC / GC) * IW * IH + (SH * oh - 1) * IW, // src
IW, // num_elements_per_line
3, // num_lines
DH * IW - IW, // src_line_stride
0, // dst_line_stride
IC / GC, // num planes
IH * IW - 3 * DH * IW, // src plane stride
0, // dst plane stride
0);
wait_group_events(1, &e);
} else {
int ih = oh * SH - 1;
if (ih >= 0 && ih <= IH - 1) //dma for first row
{
event_t e = async_work_group_copy_2D2D(
src_local, // dst
src_data + (gc * IC / GC) * IW * IH + ih * IW, // src
IW, // num_elements_per_line,
IC / GC, // num_lines,
IH * IW - IW, // src_line_stride,
2 * IW, // dst_line_stride,
0);
wait_group_events(1, &e);
}
ih = oh * SH - 1 + DH;
if (ih >= 0 && ih <= IH - 1) //dma for second row
{
event_t e = async_work_group_copy_2D2D(
src_local + IW, // dst
src_data + (gc * IC / GC) * IW * IH + ih * IW, // src
IW, // num_elements_per_line,
IC / GC, // num_lines,
IH * IW - IW, // src_line_stride,
2 * IW, // dst_line_stride,
0);
wait_group_events(1, &e);
}
ih = oh * SH - 1 + 2 * DH;
if (ih >= 0 && ih <= IH - 1) //dma for third row
{
event_t e = async_work_group_copy_2D2D(
src_local + 2 * IW, // dst
src_data + (gc * IC / GC) * IW * IH + ih * IW, // src
IW, // num_elements_per_line,
IC / GC, // num_lines,
IH * IW - IW, // src_line_stride,
2 * IW, // dst_line_stride,
0);
wait_group_events(1, &e);
}
}
half pad_value_half = convert_half(pad_value);
//padding row
if (oh * SH - 1 < 0 || oh * SH - 1 > IH - 1) {
__local half *dst = src_local;
for (int c = 0; c < IC / GC; c++) {
#pragma unroll 8
for (int j = 0; j < IW; j++) {
dst[j] = pad_value_half;
}
dst += 3 * IW;
}
}
if (oh * SH + DH - 1 > IH - 1) {
__local half *dst = src_local + IW;
for (int c = 0; c < IC / GC; c++) {
#pragma unroll 8
for (int j = 0; j < IW; j++) {
dst[j] = pad_value_half;
}
dst += 3 * IW;
}
}
if (oh * SH + DH + DH - 1 > IH - 1) {
__local half *dst = src_local + 2 * IW;
for (int c = 0; c < IC / GC; c++) {
#pragma unroll 8
for (int j = 0; j < IW; j++) {
dst[j] = pad_value_half;
}
dst += 3 * IW;
}
}
int OWS = SW * OW;
ushort8 in00;
ushort8 in01;
ushort8 in02;
ushort8 in10;
ushort8 in11;
ushort8 in12;
ushort8 in20;
ushort8 in21;
ushort8 in22;
for (int ows8 = 0; ows8 < (OWS + 7) / 8; ows8++) {
ushort8 val = {0, 0, 0, 0, 0, 0, 0, 0};
for (int ic = 0; ic < IC / GC; ++ic) {
__local half *src =
(__local half *)((__local half8 *)(src_local + ic * IW * 3 + IW + DW - 1) + ows8);
int weight_pos = oc * IC / GC * 3 * 3 + ic * 3 * 3;
ushort w0 = extract_weights(weights_data[((weight_pos + 0)) / 8], ((weight_pos + 0) % 8));
ushort w1 = extract_weights(weights_data[((weight_pos + 1)) / 8], ((weight_pos + 1) % 8));
ushort w2 = extract_weights(weights_data[((weight_pos + 2)) / 8], ((weight_pos + 2) % 8));
ushort w3 = extract_weights(weights_data[((weight_pos + 3)) / 8], ((weight_pos + 3) % 8));
ushort w4 = extract_weights(weights_data[((weight_pos + 4)) / 8], ((weight_pos + 4) % 8));
ushort w5 = extract_weights(weights_data[((weight_pos + 5)) / 8], ((weight_pos + 5) % 8));
ushort w6 = extract_weights(weights_data[((weight_pos + 6)) / 8], ((weight_pos + 6) % 8));
ushort w7 = extract_weights(weights_data[((weight_pos + 7)) / 8], ((weight_pos + 7) % 8));
ushort w8 = extract_weights(weights_data[((weight_pos + 8)) / 8], ((weight_pos + 8) % 8));
if ((ows8 * 8) - 1 <= IW - 1) {
in00 = *((__local ushort8 *)(src - IW - DW));
in01 = *((__local ushort8 *)(src - IW));
in02 = *((__local ushort8 *)(src - IW + DW));
in10 = *((__local ushort8 *)(src - DW));
in11 = *((__local ushort8 *)(src));
in12 = *((__local ushort8 *)(src + DW));
in20 = *((__local ushort8 *)(src + IW - DW));
in21 = *((__local ushort8 *)(src + IW));
in22 = *((__local ushort8 *)(src + IW + DW));
}
//padding column
if (ows8 * 8 - 1 < 0) {
int boundary = 1 - ows8 * 8;
boundary = boundary > 8 ? 8 : boundary;
for (int offset = 0; offset < boundary; offset++) {
*((half *)(&in00) + offset) = pad_value_half;
*((half *)(&in10) + offset) = pad_value_half;
*((half *)(&in20) + offset) = pad_value_half;
}
}
if ((ows8 * 8 + 7) + DW + DW - 1 > IW - 1) {
int boundary = (IW - DW - 1 - DW + 1) - ows8 * 8 + 1;
boundary = boundary < 0 ? 0 : boundary;
for (int offset = boundary; offset < 8; offset++) {
*((half *)(&in02) + offset) = pad_value_half;
*((half *)(&in12) + offset) = pad_value_half;
*((half *)(&in22) + offset) = pad_value_half;
}
}
if ((ows8 * 8 + 7) + DW - 1 > IW - 1) {
int boundary = (IW - 1 - DW + 1) - ows8 * 8 + 1;
boundary = boundary < 0 ? 0 : boundary;
for (int offset = boundary; offset < 8; offset++) {
*((half *)(&in01) + offset) = pad_value_half;
*((half *)(&in11) + offset) = pad_value_half;
*((half *)(&in21) + offset) = pad_value_half;
}
}
if ((ows8 * 8 + 7) - 1 > IW - 1) {
int boundary = (IW - 1 + 1) - ows8 * 8 + 1;
boundary = boundary < 0 ? 0 : boundary;
for (int offset = boundary; offset < 8; offset++) {
*((half *)(&in00) + offset) = pad_value_half;
*((half *)(&in10) + offset) = pad_value_half;
*((half *)(&in20) + offset) = pad_value_half;
}
}
ushort8 w00 = (ushort8)(w0);
ushort8 w01 = (ushort8)(w1);
ushort8 w02 = (ushort8)(w2);
ushort8 w10 = (ushort8)(w3);
ushort8 w11 = (ushort8)(w4);
ushort8 w12 = (ushort8)(w5);
ushort8 w20 = (ushort8)(w6);
ushort8 w21 = (ushort8)(w7);
ushort8 w22 = (ushort8)(w8);
ushort8 cond0 = (((in00) < (ushort8)0x8000) && (in00 > (ushort8)0x0000)) ?
(ushort8)(1) :
(ushort8)(0);
ushort8 cond1 = (((in01) < (ushort8)0x8000) && (in01 > (ushort8)0x0000)) ?
(ushort8)(1) :
(ushort8)(0);
ushort8 cond2 = (((in02) < (ushort8)0x8000) && (in02 > (ushort8)0x0000)) ?
(ushort8)(1) :
(ushort8)(0);
ushort8 cond3 = (((in10) < (ushort8)0x8000) && (in10 > (ushort8)0x0000)) ?
(ushort8)(1) :
(ushort8)(0);
ushort8 cond4 = (((in11) < (ushort8)0x8000) && (in11 > (ushort8)0x0000)) ?
(ushort8)(1) :
(ushort8)(0);
ushort8 cond5 = (((in12) < (ushort8)0x8000) && (in12 > (ushort8)0x0000)) ?
(ushort8)(1) :
(ushort8)(0);
ushort8 cond6 = (((in20) < (ushort8)0x8000) && (in20 > (ushort8)0x0000)) ?
(ushort8)(1) :
(ushort8)(0);
ushort8 cond7 = (((in21) < (ushort8)0x8000) && (in21 > (ushort8)0x0000)) ?
(ushort8)(1) :
(ushort8)(0);
ushort8 cond8 = (((in22) < (ushort8)0x8000) && (in22 > (ushort8)0x0000)) ?
(ushort8)(1) :
(ushort8)(0);
val += (cond0 ^ w00);
val += (cond1 ^ w01);
val += (cond2 ^ w02);
val += (cond3 ^ w10);
val += (cond4 ^ w11);
val += (cond5 ^ w12);
val += (cond6 ^ w20);
val += (cond7 ^ w21);
val += (cond8 ^ w22);
}
ushort8 val_shift = val << 1;
int boundary = (ows8 * 8 + 7) / SW <= OW - 1 ? (ows8 * 8 + 7) / SW : OW - 1;
for (int ow = (ows8 * 8 + SW - 1) / SW; ow <= boundary; ow++) {
*(dst_local + ow) =
(half)(IC / GC * KH * KW - *((ushort *)(&val_shift) + ow * SW - ows8 * 8));
}
}
barrier(CLK_LOCAL_MEM_FENCE);
event_t e2 = async_work_group_copy(dst_data + oc * OW * OH + oh * OW, dst_local, OW, 0);
wait_group_events(1, &e2);
}