Skip to content
体验新版
项目
组织
正在加载...
登录
切换导航
打开侧边栏
PaddlePaddle
Paddle-Lite
提交
589e852c
P
Paddle-Lite
项目概览
PaddlePaddle
/
Paddle-Lite
通知
331
Star
4
Fork
1
代码
文件
提交
分支
Tags
贡献者
分支图
Diff
Issue
271
列表
看板
标记
里程碑
合并请求
78
Wiki
0
Wiki
分析
仓库
DevOps
项目成员
Pages
P
Paddle-Lite
项目概览
项目概览
详情
发布
仓库
仓库
文件
提交
分支
标签
贡献者
分支图
比较
Issue
271
Issue
271
列表
看板
标记
里程碑
合并请求
78
合并请求
78
Pages
分析
分析
仓库分析
DevOps
Wiki
0
Wiki
成员
成员
收起侧边栏
关闭侧边栏
动态
分支图
创建新Issue
提交
Issue看板
提交
589e852c
编写于
8月 20, 2020
作者:
C
chenjiaoAngel
浏览文件
操作
浏览文件
下载
电子邮件补丁
差异文件
fix relu relu6 error. test=develop
上级
01455e09
变更
1
隐藏空白更改
内联
并排
Showing
1 changed file
with
308 addition
and
208 deletion
+308
-208
lite/backends/arm/math/conv5x5s2_depthwise_fp32.cc
lite/backends/arm/math/conv5x5s2_depthwise_fp32.cc
+308
-208
未找到文件。
lite/backends/arm/math/conv5x5s2_depthwise_fp32.cc
浏览文件 @
589e852c
...
...
@@ -1320,14 +1320,13 @@ inline void compute_all_padding_pre(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
pad_left_new
,
int
pad_right_new
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
int
tmp_index
=
num
-
1
;
int
num_index_left
=
4
-
pad_left
;
for
(
int
i
=
pad_left_new
;
i
>
0
;
i
--
)
{
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
...
...
@@ -1337,7 +1336,7 @@ inline void compute_all_padding_pre(float* dout,
weights
[
5
][
3
-
k
],
num_index_left
);
}
num_index_left
-
=
2
;
num_index_left
+
=
2
;
*
dout
++
=
sum
;
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -1558,9 +1557,7 @@ inline void compute_all_padding_pre(float* dout,
*
dout
++
=
sum
;
}
// right
int
num_index_right
=
4
-
pad_right
;
LOG
(
INFO
)
<<
"pad_right_new: "
<<
pad_right_new
<<
", num_index_right: "
<<
num_index_right
;
for
(
int
i
=
0
;
i
<
pad_right_new
;
i
++
)
{
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
4
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
...
...
@@ -1583,15 +1580,14 @@ inline void compute_all_padding_mid(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
pad_left_new
,
int
pad_right_new
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
// left
int
tmp
=
num
-
1
;
int
num_index_left
=
4
-
pad_left
;
for
(
int
i
=
pad_left_new
;
i
>
0
;
i
--
)
{
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
...
...
@@ -1601,7 +1597,7 @@ inline void compute_all_padding_mid(float* dout,
weights
[
5
][
tmp
-
k
],
num_index_left
);
}
num_index_left
-
=
2
;
num_index_left
+
=
2
;
*
dout
++
=
sum
;
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -1684,19 +1680,19 @@ inline void compute_all_padding_mid(float* dout,
*
dout
++
=
sum
;
}
// right
for
(
int
i
=
0
;
i
<
pad_right
_new
;
i
++
)
{
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
4
-
pad_right
],
4
-
pad
_right
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index
_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
4
-
pad
_right
],
4
-
pad
_right
);
weights
[
tmp
-
k
][
num_index
_right
],
num_index
_right
);
din_ptr_arr
[
tmp
-
k
]
+=
2
;
}
pad_right
+
=
2
;
num_index_right
-
=
2
;
*
dout
++
=
sum
;
}
}
...
...
@@ -1708,8 +1704,8 @@ inline void compute_all_padding_mid_out2(float* dout0,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
pad_left_new
,
int
pad_right_new
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -1717,24 +1713,24 @@ inline void compute_all_padding_mid_out2(float* dout0,
int
tmp2
=
num
+
1
;
int
tmp
=
num
-
1
;
// left
for
(
int
i
=
pad_left
_new
;
i
>
0
;
i
--
)
{
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
pad
_left
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index
_left
);
float
sum1
=
compute_one_data_pre
(
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
pad
_left
);
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index
_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
pad
_left
);
num_index
_left
);
sum1
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp2
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
pad
_left
);
num_index
_left
);
}
pad_left
-
=
2
;
num_index_left
+
=
2
;
*
dout0
++
=
sum
;
*
dout1
++
=
sum1
;
}
...
...
@@ -1835,26 +1831,26 @@ inline void compute_all_padding_mid_out2(float* dout0,
*
dout1
++
=
sum1
;
}
// right
for
(
int
i
=
0
;
i
<
pad_right
_new
;
i
++
)
{
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
4
-
pad_right
],
4
-
pad
_right
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index
_right
);
float
sum1
=
compute_one_data_post
(
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
4
-
pad_right
],
4
-
pad
_right
);
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index
_right
);
din_ptr_arr
[
tmp1
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
4
-
pad
_right
],
4
-
pad
_right
);
weights
[
tmp
-
k
][
num_index
_right
],
num_index
_right
);
sum1
+=
compute_one_data_post
(
din_ptr_arr
[
tmp2
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
4
-
pad
_right
],
4
-
pad
_right
);
weights
[
tmp
-
k
][
num_index
_right
],
num_index
_right
);
din_ptr_arr
[
tmp2
-
k
]
+=
2
;
}
pad_right
+
=
2
;
num_index_right
-
=
2
;
din_ptr_arr
[
1
]
+=
2
;
din_ptr_arr
[
0
]
+=
2
;
*
dout0
++
=
sum
;
...
...
@@ -1869,22 +1865,22 @@ inline void compute_all_padding_post(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
pad_left_new
,
int
pad_right_new
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
// left
int
tmp
=
num
-
1
;
for
(
int
i
=
pad_left
_new
;
i
>
0
;
i
--
)
{
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
4
-
pad
_left
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
num_index
_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
pad
_left
);
num_index
_left
);
}
pad_left
-=
2
;
*
dout
++
=
sum
;
...
...
@@ -2101,20 +2097,19 @@ inline void compute_all_padding_post(float* dout,
*
dout
++
=
sum
;
}
// right
int
num_index
=
4
-
pad_right
;
for
(
int
i
=
0
;
i
<
pad_right_new
;
i
++
)
{
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index
],
num_index
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index
_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
num_index
],
num_index
);
weights
[
tmp
-
k
][
num_index
_right
],
num_index
_right
);
din_ptr_arr
[
tmp
-
k
]
+=
2
;
}
num_index
-=
2
;
num_index
_right
-=
2
;
*
dout
++
=
sum
;
}
}
...
...
@@ -2161,11 +2156,12 @@ void conv_depthwise_5x5s2_bias(float* dout,
int
remain
=
loop_w
&
3
;
int
n_top_h
=
4
-
pad_top
;
int
n_bottom_h
=
odds_h
?
(
4
-
pad_bottom
)
:
((
hin
%
2
)
?
4
:
3
);
int
n_right_w
=
odds_w
?
pad_right
:
((
win
%
2
)
?
0
:
1
);
if
(
n_right_w
==
0
)
{
int
n_right_w
=
odds_w
?
pad_right
:
((
win
%
2
)
?
4
:
3
);
int
n_left_w
=
4
-
pad_left
;
if
(
n_right_w
==
4
)
{
remain
++
;
pad_right_new
--
;
n_right_w
+
=
2
;
n_right_w
-
=
2
;
}
if
(
n_bottom_h
==
4
)
{
loop_h
++
;
...
...
@@ -2214,10 +2210,10 @@ void conv_depthwise_5x5s2_bias(float* dout,
vbias
,
weights_vec
,
odds_w
,
pad_left
,
n_right_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
h_in_num
);
...
...
@@ -2254,10 +2250,10 @@ void conv_depthwise_5x5s2_bias(float* dout,
vbias
,
weights_vec
,
odds_w
,
pad_left
,
n_right_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
4
);
...
...
@@ -2284,10 +2280,10 @@ void conv_depthwise_5x5s2_bias(float* dout,
vbias
,
weights_vec
,
odds_w
,
pad_left
,
n_right_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
4
);
...
...
@@ -2311,10 +2307,10 @@ void conv_depthwise_5x5s2_bias(float* dout,
vbias
,
weights_vec
,
odds_w
,
pad_left
,
n_right_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
h_in_num
);
...
...
@@ -2338,20 +2334,23 @@ inline void compute_all_padding_pre_relu(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
int
tmp_index
=
num
-
1
;
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp_index
-
k
],
weights
[
3
-
k
],
0.
f
,
weights
[
5
][
3
-
k
],
4
-
i
);
num_index_left
);
}
num_index_left
+=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
0.
f
;
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -2582,16 +2581,17 @@ inline void compute_all_padding_pre_relu(float* dout,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
4
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
4
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp_index
-
k
],
weights
[
3
-
k
],
0.
f
,
weights
[
3
-
k
][
3
-
i
],
3
-
i
);
weights
[
3
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp_index
-
k
]
+=
2
;
}
num_index_right
-=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
0.
f
;
}
}
...
...
@@ -2603,20 +2603,23 @@ inline void compute_all_padding_mid_relu(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
int
tmp
=
num
-
1
;
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
}
num_index_left
+=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
0.
f
;
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -2702,16 +2705,17 @@ inline void compute_all_padding_mid_relu(float* dout,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp
-
k
]
+=
2
;
}
num_index_right
-=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
0.
f
;
}
}
...
...
@@ -2724,6 +2728,8 @@ inline void compute_all_padding_mid_relu_out2(float* dout0,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -2733,21 +2739,22 @@ inline void compute_all_padding_mid_relu_out2(float* dout0,
int
tmp
=
num
-
1
;
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
float
sum1
=
compute_one_data_pre
(
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
sum1
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp2
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
}
num_index_left
+=
2
;
*
dout0
++
=
sum
>
0.
f
?
sum
:
0.
f
;
*
dout1
++
=
sum1
>
0.
f
?
sum1
:
0.
f
;
}
...
...
@@ -2851,23 +2858,24 @@ inline void compute_all_padding_mid_relu_out2(float* dout0,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
float
sum1
=
compute_one_data_post
(
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp1
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
sum1
+=
compute_one_data_post
(
din_ptr_arr
[
tmp2
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp2
-
k
]
+=
2
;
}
num_index_right
-=
2
;
din_ptr_arr
[
0
]
+=
2
;
din_ptr_arr
[
0
]
+=
2
;
*
dout0
++
=
sum
>
0.
f
?
sum
:
0.
f
;
...
...
@@ -2882,6 +2890,8 @@ inline void compute_all_padding_post_relu(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -2889,14 +2899,15 @@ inline void compute_all_padding_post_relu(float* dout,
int
tmp
=
num
-
1
;
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
3
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
2
-
k
],
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
}
pad_left
-=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
0.
f
;
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -2913,7 +2924,7 @@ inline void compute_all_padding_post_relu(float* dout,
#ifdef __aarch64__
asm
volatile
(
COMPUTE_ONE_LINE_S2_POST
RESULT_S2_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr5
]
"w"
(
weights
[
5
]),
...
...
@@ -2932,7 +2943,7 @@ inline void compute_all_padding_post_relu(float* dout,
#else
asm
volatile
(
COMPUTE_ONE_LINE_S2_POST
RESULT_S2_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr5
]
"w"
(
weights
[
5
]),
...
...
@@ -2949,14 +2960,14 @@ inline void compute_all_padding_post_relu(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
3
]
-=
8
;
din_ptr_arr
[
num
]
-=
8
;
break
;
case
1
:
#ifdef __aarch64__
asm
volatile
(
COMPUTE_TWO_LINE_S2_POST
RESULT_S2_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -2976,8 +2987,8 @@ inline void compute_all_padding_post_relu(float* dout,
#else
asm
volatile
(
COMPUTE_TWO_LINE_S2_POST
RESULT_S2_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -2995,15 +3006,15 @@ inline void compute_all_padding_post_relu(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
2
]
-=
8
;
din_ptr_arr
[
tmp
]
-=
8
;
break
;
case
2
:
#ifdef __aarch64__
asm
volatile
(
COMPUTE_THREE_LINE_S2_POST
RESULT_S2_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
-
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -3024,9 +3035,9 @@ inline void compute_all_padding_post_relu(float* dout,
#else
asm
volatile
(
COMPUTE_THREE_LINE_S2_POST
RESULT_S2_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
-
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -3045,7 +3056,7 @@ inline void compute_all_padding_post_relu(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
1
]
-=
8
;
din_ptr_arr
[
tmp
-
1
]
-=
8
;
break
;
case
3
:
#ifdef __aarch64__
...
...
@@ -3102,35 +3113,36 @@ inline void compute_all_padding_post_relu(float* dout,
din_ptr_arr
[
0
]
-=
8
;
break
;
default:
LOG
(
FATAL
)
<<
"This num: "
<<
(
num
+
1
)
<<
"does not support"
;
LOG
(
FATAL
)
<<
"This num: "
<<
(
num
+
1
)
<<
"
does not support"
;
}
}
// clang-format on
// remain
for
(
int
w
=
0
;
w
<
remain
;
w
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
3
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
4
);
din_ptr_arr
[
3
]
+=
2
;
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
4
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
i
=
0
;
i
<
num
;
i
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
2
-
i
],
weights
[
tmp
-
i
],
0.
f
,
weights
[
5
][
tmp
-
i
],
4
);
din_ptr_arr
[
2
-
i
]
+=
2
;
din_ptr_arr
[
tmp
-
i
],
weights
[
tmp
-
i
],
0.
f
,
weights
[
5
][
tmp
-
i
],
4
);
din_ptr_arr
[
tmp
-
i
]
+=
2
;
}
*
dout
++
=
sum
>
0.
f
?
sum
:
0.
f
;
}
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
3
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
3
]
+=
2
;
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
2
-
k
],
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
2
-
k
]
+=
2
;
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp
-
k
]
+=
2
;
}
num_index_right
-=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
0.
f
;
}
}
...
...
@@ -3176,7 +3188,19 @@ void conv_depthwise_5x5s2_bias_relu(float* dout,
int
cnt
=
loop_w
>>
2
;
int
remain
=
loop_w
&
3
;
int
n_top_h
=
4
-
pad_top
;
int
n_bottom_h
=
4
-
pad_bottom
;
int
n_bottom_h
=
odds_h
?
(
4
-
pad_bottom
)
:
((
hin
%
2
)
?
4
:
3
);
int
n_right_w
=
odds_w
?
pad_right
:
((
win
%
2
)
?
4
:
3
);
int
n_left_w
=
4
-
pad_left
;
if
(
n_right_w
==
4
)
{
remain
++
;
pad_right_new
--
;
n_right_w
-=
2
;
}
if
(
n_bottom_h
==
4
)
{
loop_h
++
;
pad_bottom_new
--
;
n_bottom_h
-=
2
;
}
float32x4_t
vzero
=
vdupq_n_f32
(
0.
f
);
for
(
int
n
=
0
;
n
<
num
;
n
++
)
{
const
float
*
din_batch
=
din
+
n
*
in_channel_size
;
...
...
@@ -3223,6 +3247,8 @@ void conv_depthwise_5x5s2_bias_relu(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
h_in_num
);
...
...
@@ -3262,6 +3288,8 @@ void conv_depthwise_5x5s2_bias_relu(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
4
);
...
...
@@ -3291,6 +3319,8 @@ void conv_depthwise_5x5s2_bias_relu(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
4
);
...
...
@@ -3317,6 +3347,8 @@ void conv_depthwise_5x5s2_bias_relu(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
h_in_num
);
...
...
@@ -3341,6 +3373,8 @@ inline void compute_all_padding_pre_relu6(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -3351,14 +3385,15 @@ inline void compute_all_padding_pre_relu6(float* dout,
// left
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp_index
-
k
],
weights
[
3
-
k
],
0.
f
,
weights
[
5
][
3
-
k
],
4
-
i
);
num_index_left
);
}
num_index_left
+=
2
;
*
dout
++
=
sum
>
0.
f
?
(
sum
<
six
[
0
]
?
sum
:
six
[
0
])
:
0.
f
;
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -3597,16 +3632,17 @@ inline void compute_all_padding_pre_relu6(float* dout,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
4
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
4
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp_index
-
k
],
weights
[
3
-
k
],
0.
f
,
weights
[
3
-
k
][
3
-
i
],
3
-
i
);
weights
[
3
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp_index
-
k
]
+=
2
;
}
num_index_right
-=
2
;
*
dout
++
=
sum
>
0.
f
?
(
sum
<
six
[
0
]
?
sum
:
six
[
0
])
:
0.
f
;
}
}
...
...
@@ -3619,6 +3655,8 @@ inline void compute_all_padding_mid_relu6(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -3629,14 +3667,15 @@ inline void compute_all_padding_mid_relu6(float* dout,
int
tmp
=
num
-
1
;
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
}
num_index_left
+=
2
;
*
dout
++
=
sum
>
0.
f
?
(
sum
<
six
[
0
]
?
sum
:
six
[
0
])
:
0.
f
;
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -3706,7 +3745,7 @@ inline void compute_all_padding_mid_relu6(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
0
]
-=
4
;
din_ptr_arr
[
0
]
-=
8
;
}
// clang-format on
// remain
...
...
@@ -3724,16 +3763,17 @@ inline void compute_all_padding_mid_relu6(float* dout,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp
-
k
]
+=
2
;
}
num_index_right
-=
2
;
*
dout
++
=
sum
>
0.
f
?
(
sum
<
six
[
0
]
?
sum
:
six
[
0
])
:
0.
f
;
}
}
...
...
@@ -3748,6 +3788,8 @@ inline void compute_all_padding_mid_relu6_out2(float* dout0,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -3761,21 +3803,22 @@ inline void compute_all_padding_mid_relu6_out2(float* dout0,
// clang-format off
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
float
sum1
=
compute_one_data_pre
(
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
sum1
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp2
-
k
],
weights
[
tmp
-
k
],
num_index_left
);
sum1
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp2
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
}
num_index_left
+=
2
;
*
dout0
++
=
sum
>
0.
f
?
(
sum
<
six
[
0
]
?
sum
:
six
[
0
])
:
0.
f
;
*
dout1
++
=
sum1
>
0.
f
?
(
sum1
<
six
[
0
]
?
sum1
:
six
[
0
])
:
0.
f
;
}
...
...
@@ -3880,23 +3923,24 @@ inline void compute_all_padding_mid_relu6_out2(float* dout0,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
float
sum1
=
compute_one_data_post
(
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
tmp1
]
++
;
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp1
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
sum1
+=
compute_one_data_post
(
din_ptr_arr
[
tmp2
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp2
-
k
]
+=
2
;
}
num_index_right
-=
2
;
din_ptr_arr
[
1
]
+=
2
;
din_ptr_arr
[
0
]
+=
2
;
*
dout0
++
=
sum
>
0.
f
?
(
sum
<
six
[
0
]
?
sum
:
six
[
0
])
:
0.
f
;
...
...
@@ -3912,6 +3956,8 @@ inline void compute_all_padding_post_relu6(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -3922,14 +3968,15 @@ inline void compute_all_padding_post_relu6(float* dout,
int
tmp
=
num
-
1
;
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
3
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
2
-
k
],
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
}
pad_left
-=
2
;
*
dout
++
=
sum
>
0.
f
?
(
sum
<
six
[
0
]
?
sum
:
six
[
0
])
:
0.
f
;
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -3946,7 +3993,7 @@ inline void compute_all_padding_post_relu6(float* dout,
#ifdef __aarch64__
asm
volatile
(
COMPUTE_ONE_LINE_S2_POST
RESULT_S2_RELU6
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr5
]
"w"
(
weights
[
5
]),
...
...
@@ -3966,7 +4013,7 @@ inline void compute_all_padding_post_relu6(float* dout,
#else
asm
volatile
(
COMPUTE_ONE_LINE_S2_POST
RESULT_S2_RELU6
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr5
]
"w"
(
weights
[
5
]),
...
...
@@ -3984,14 +4031,14 @@ inline void compute_all_padding_post_relu6(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
3
]
-=
8
;
din_ptr_arr
[
num
]
-=
8
;
break
;
case
1
:
#ifdef __aarch64__
asm
volatile
(
COMPUTE_TWO_LINE_S2_POST
RESULT_S2_RELU6
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -4012,8 +4059,8 @@ inline void compute_all_padding_post_relu6(float* dout,
#else
asm
volatile
(
COMPUTE_TWO_LINE_S2_POST
RESULT_S2_RELU6
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -4032,15 +4079,15 @@ inline void compute_all_padding_post_relu6(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
2
]
-=
8
;
din_ptr_arr
[
tmp
]
-=
8
;
break
;
case
2
:
#ifdef __aarch64__
asm
volatile
(
COMPUTE_THREE_LINE_S2_POST
RESULT_S2_RELU6
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
-
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -4062,9 +4109,9 @@ inline void compute_all_padding_post_relu6(float* dout,
#else
asm
volatile
(
COMPUTE_THREE_LINE_S2_POST
RESULT_S2_RELU6
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
-
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -4084,7 +4131,7 @@ inline void compute_all_padding_post_relu6(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
1
]
-=
8
;
din_ptr_arr
[
tmp
-
1
]
-=
8
;
break
;
case
3
:
#ifdef __aarch64__
...
...
@@ -4162,16 +4209,17 @@ inline void compute_all_padding_post_relu6(float* dout,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
3
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
3
]
+=
2
;
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
2
-
k
],
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
2
-
k
]
+=
2
;
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp
-
k
]
+=
2
;
}
num_index_right
-=
2
;
*
dout
++
=
sum
>
0.
f
?
(
sum
<
six
[
0
]
?
sum
:
six
[
0
])
:
0.
f
;
}
}
...
...
@@ -4218,7 +4266,19 @@ void conv_depthwise_5x5s2_bias_relu6(float* dout,
int
cnt
=
loop_w
>>
2
;
int
remain
=
loop_w
&
3
;
int
n_top_h
=
4
-
pad_top
;
int
n_bottom_h
=
4
-
pad_bottom
;
int
n_bottom_h
=
odds_h
?
(
4
-
pad_bottom
)
:
((
hin
%
2
)
?
4
:
3
);
int
n_right_w
=
odds_w
?
pad_right
:
((
win
%
2
)
?
4
:
3
);
int
n_left_w
=
4
-
pad_left
;
if
(
n_right_w
==
4
)
{
remain
++
;
pad_right_new
--
;
n_right_w
-=
2
;
}
if
(
n_bottom_h
==
4
)
{
loop_h
++
;
pad_bottom_new
--
;
n_bottom_h
-=
2
;
}
float32x4_t
vzero
=
vdupq_n_f32
(
0.
f
);
for
(
int
n
=
0
;
n
<
num
;
n
++
)
{
const
float
*
din_batch
=
din
+
n
*
in_channel_size
;
...
...
@@ -4266,6 +4326,8 @@ void conv_depthwise_5x5s2_bias_relu6(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
h_in_num
);
...
...
@@ -4306,6 +4368,8 @@ void conv_depthwise_5x5s2_bias_relu6(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
4
);
...
...
@@ -4336,6 +4400,8 @@ void conv_depthwise_5x5s2_bias_relu6(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
4
);
...
...
@@ -4363,6 +4429,8 @@ void conv_depthwise_5x5s2_bias_relu6(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
h_in_num
);
...
...
@@ -4387,6 +4455,8 @@ inline void compute_all_padding_pre_leakyRelu(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -4397,14 +4467,15 @@ inline void compute_all_padding_pre_leakyRelu(float* dout,
// left
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp_index
-
k
],
weights
[
3
-
k
],
0.
f
,
weights
[
5
][
3
-
k
],
4
-
i
);
num_index_left
);
}
num_index_left
+=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
sum
*
scale
[
0
];
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -4651,22 +4722,19 @@ inline void compute_all_padding_pre_leakyRelu(float* dout,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
4
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
num
],
weights
[
4
],
bias
[
0
],
weights
[
4
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp_index
-
k
],
weights
[
3
-
k
],
0.
f
,
weights
[
3
-
k
][
3
-
i
],
3
-
i
);
weights
[
3
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp_index
-
k
]
+=
2
;
}
num_index_right
-=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
sum
*
scale
[
0
];
}
for
(
int
w
=
pad_right
;
w
>
4
;
w
--
)
{
*
dout
++
=
bias
[
0
]
>
0.
f
?
bias
[
0
]
:
bias
[
0
]
*
scale
[
0
];
}
}
inline
void
compute_all_padding_mid_leakyRelu
(
float
*
dout
,
const
float
**
din_ptr_arr
,
...
...
@@ -4677,6 +4745,8 @@ inline void compute_all_padding_mid_leakyRelu(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -4687,14 +4757,15 @@ inline void compute_all_padding_mid_leakyRelu(float* dout,
int
tmp
=
num
-
1
;
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
}
num_index_left
+=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
sum
*
scale
[
0
];
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -4784,16 +4855,17 @@ inline void compute_all_padding_mid_leakyRelu(float* dout,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp
-
k
]
+=
2
;
}
num_index_right
-=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
sum
*
scale
[
0
];
}
}
...
...
@@ -4807,6 +4879,8 @@ inline void compute_all_padding_mid_leakyRelu_out2(float* dout0,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -4819,21 +4893,22 @@ inline void compute_all_padding_mid_leakyRelu_out2(float* dout0,
int
tmp
=
num
-
1
;
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
float
sum1
=
compute_one_data_pre
(
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
4
-
i
);
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
6
][
0
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
sum1
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp2
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
}
num_index_left
+=
2
;
*
dout0
++
=
sum
>
0.
f
?
sum
:
sum
*
scale
[
0
];
*
dout1
++
=
sum1
>
0.
f
?
sum1
:
sum1
*
scale
[
0
];
}
...
...
@@ -4943,23 +5018,24 @@ inline void compute_all_padding_mid_leakyRelu_out2(float* dout0,
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
float
sum1
=
compute_one_data_post
(
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
tmp1
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp1
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
sum1
+=
compute_one_data_post
(
din_ptr_arr
[
tmp2
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp2
-
k
]
+=
2
;
}
num_index_right
-=
2
;
din_ptr_arr
[
1
]
+=
2
;
din_ptr_arr
[
0
]
+=
2
;
*
dout0
++
=
sum
>
0.
f
?
sum
:
sum
*
scale
[
0
];
...
...
@@ -4975,6 +5051,8 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
bool
odds
,
int
pad_left
,
int
pad_right
,
int
num_index_left
,
int
num_index_right
,
int
cnt
,
int
remain
,
int
num
)
{
...
...
@@ -4985,14 +5063,15 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
int
tmp
=
num
-
1
;
for
(
int
i
=
pad_left
;
i
>
0
;
i
--
)
{
float
sum
=
compute_one_data_pre
(
din_ptr_arr
[
3
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
4
-
i
);
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
num_index_left
);
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
2
-
k
],
sum
+=
compute_one_data_pre
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
5
][
tmp
-
k
],
4
-
i
);
num_index_left
);
}
pad_left
-=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
sum
*
scale
[
0
];
}
if
(
odds
)
{
// origin pad_left is odds, such as ori_pad_left=1
...
...
@@ -5009,7 +5088,7 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
#ifdef __aarch64__
asm
volatile
(
COMPUTE_ONE_LINE_S2_POST
RESULT_S2_LEAKY_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr5
]
"w"
(
weights
[
5
]),
...
...
@@ -5031,7 +5110,7 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
#else
asm
volatile
(
COMPUTE_ONE_LINE_S2_POST
RESULT_S2_LEAKY_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr5
]
"w"
(
weights
[
5
]),
...
...
@@ -5049,14 +5128,14 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
3
]
-=
8
;
din_ptr_arr
[
num
]
-=
8
;
break
;
case
1
:
#ifdef __aarch64__
asm
volatile
(
COMPUTE_TWO_LINE_S2_POST
RESULT_S2_LEAKY_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -5079,8 +5158,8 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
#else
asm
volatile
(
COMPUTE_TWO_LINE_S2_POST
RESULT_S2_LEAKY_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -5099,15 +5178,15 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
2
]
-=
8
;
din_ptr_arr
[
tmp
]
-=
8
;
break
;
case
2
:
#ifdef __aarch64__
asm
volatile
(
COMPUTE_THREE_LINE_S2_POST
RESULT_S2_LEAKY_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
-
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -5131,9 +5210,9 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
#else
asm
volatile
(
COMPUTE_THREE_LINE_S2_POST
RESULT_S2_LEAKY_RELU
:
[
cnt
]
"+r"
(
cnt
),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
2
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
3
]),
[
din_ptr0
]
"+r"
(
din_ptr_arr
[
tmp
-
1
]),
[
din_ptr1
]
"+r"
(
din_ptr_arr
[
tmp
]),
[
din_ptr2
]
"+r"
(
din_ptr_arr
[
num
]),
[
dout_ptr
]
"+r"
(
dout
)
:
[
wr0
]
"w"
(
weights
[
0
]),
[
wr1
]
"w"
(
weights
[
1
]),
...
...
@@ -5153,7 +5232,7 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
"q14"
,
"q15"
);
#endif
din_ptr_arr
[
1
]
-=
8
;
din_ptr_arr
[
tmp
-
1
]
-=
8
;
break
;
case
3
:
#ifdef __aarch64__
...
...
@@ -5221,28 +5300,29 @@ inline void compute_all_padding_post_leakyRelu(float* dout,
// remain
for
(
int
w
=
0
;
w
<
remain
;
w
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
3
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
4
);
din_ptr_arr
[
3
]
+=
2
;
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
5
][
num
],
4
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
i
=
0
;
i
<
num
;
i
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
2
-
i
],
weights
[
tmp
-
i
],
0.
f
,
weights
[
5
][
tmp
-
i
],
4
);
din_ptr_arr
[
2
-
i
]
+=
2
;
din_ptr_arr
[
tmp
-
i
],
weights
[
tmp
-
i
],
0.
f
,
weights
[
5
][
tmp
-
i
],
4
);
din_ptr_arr
[
tmp
-
i
]
+=
2
;
}
*
dout
++
=
sum
>
0.
f
?
sum
:
sum
*
scale
[
0
];
}
// right
for
(
int
i
=
0
;
i
<
pad_right
;
i
++
)
{
float
sum
=
compute_one_data_post
(
din_ptr_arr
[
3
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
3
]
+=
2
;
din_ptr_arr
[
num
],
weights
[
num
],
bias
[
0
],
weights
[
num
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
num
]
+=
2
;
for
(
int
k
=
0
;
k
<
num
;
k
++
)
{
sum
+=
compute_one_data_post
(
din_ptr_arr
[
2
-
k
],
sum
+=
compute_one_data_post
(
din_ptr_arr
[
tmp
-
k
],
weights
[
tmp
-
k
],
0.
f
,
weights
[
tmp
-
k
][
3
-
i
],
3
-
i
);
din_ptr_arr
[
2
-
k
]
+=
2
;
weights
[
tmp
-
k
][
num_index_right
],
num_index_right
);
din_ptr_arr
[
tmp
-
k
]
+=
2
;
}
num_index_right
-=
2
;
*
dout
++
=
sum
>
0.
f
?
sum
:
sum
*
scale
[
0
];
}
}
...
...
@@ -5289,7 +5369,19 @@ void conv_depthwise_5x5s2_bias_leakyRelu(float* dout,
int
cnt
=
loop_w
>>
2
;
int
remain
=
loop_w
&
3
;
int
n_top_h
=
4
-
pad_top
;
int
n_bottom_h
=
4
-
pad_bottom
;
int
n_bottom_h
=
odds_h
?
(
4
-
pad_bottom
)
:
((
hin
%
2
)
?
4
:
3
);
int
n_right_w
=
odds_w
?
pad_right
:
((
win
%
2
)
?
4
:
3
);
int
n_left_w
=
4
-
pad_left
;
if
(
n_right_w
==
4
)
{
remain
++
;
pad_right_new
--
;
n_right_w
-=
2
;
}
if
(
n_bottom_h
==
4
)
{
loop_h
++
;
pad_bottom_new
--
;
n_bottom_h
-=
2
;
}
float32x4_t
vzero
=
vdupq_n_f32
(
0.
f
);
for
(
int
n
=
0
;
n
<
num
;
n
++
)
{
const
float
*
din_batch
=
din
+
n
*
in_channel_size
;
...
...
@@ -5337,6 +5429,8 @@ void conv_depthwise_5x5s2_bias_leakyRelu(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
h_in_num
);
...
...
@@ -5377,6 +5471,8 @@ void conv_depthwise_5x5s2_bias_leakyRelu(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
4
);
...
...
@@ -5407,6 +5503,8 @@ void conv_depthwise_5x5s2_bias_leakyRelu(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
4
);
...
...
@@ -5434,6 +5532,8 @@ void conv_depthwise_5x5s2_bias_leakyRelu(float* dout,
odds_w
,
pad_left_new
,
pad_right_new
,
n_left_w
,
n_right_w
,
cnt
,
remain
,
h_in_num
);
...
...
编辑
预览
Markdown
is supported
0%
请重试
或
添加新附件
.
添加附件
取消
You are about to add
0
people
to the discussion. Proceed with caution.
先完成此消息的编辑!
取消
想要评论请
注册
或
登录
