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a59684b0
编写于
9月 04, 2018
作者:
Y
yangfei
浏览文件
操作
浏览文件
下载
电子邮件补丁
差异文件
imp fusion_conv_bn_add op in resnet
上级
0350e99e
变更
6
隐藏空白更改
内联
并排
Showing
6 changed file
with
40 addition
and
243 deletion
+40
-243
src/operators/kernel/central-arm-func/conv_bn_add_relu_arm_func.h
...ators/kernel/central-arm-func/conv_bn_add_relu_arm_func.h
+4
-4
src/operators/math/gemm.cpp
src/operators/math/gemm.cpp
+27
-179
src/operators/math/gemm.h
src/operators/math/gemm.h
+2
-10
src/operators/math/math_function.cpp
src/operators/math/math_function.cpp
+4
-41
src/operators/math/math_function.h
src/operators/math/math_function.h
+1
-7
test/common/test_gemm_accuracy.cpp
test/common/test_gemm_accuracy.cpp
+2
-2
未找到文件。
src/operators/kernel/central-arm-func/conv_bn_add_relu_arm_func.h
浏览文件 @
a59684b0
...
...
@@ -108,10 +108,10 @@ void ConvBNAddReluBasic(const FusionConvBNAddReluParam<CPU> ¶m) {
Tensor
out_slice
=
out_batch
.
Slice
(
g
*
out_step
,
(
g
+
1
)
*
out_step
);
Tensor
filter_slice
=
filter
.
Slice
(
g
*
out_step
,
(
g
+
1
)
*
out_step
);
Tensor
bias_data
=
bias_batch
.
Slice
(
g
*
out_step
,
(
g
+
1
)
*
out_step
);
math
::
matmulWithBn
Add
<
float
>
(
filter_slice
,
false
,
col_matrix
,
false
,
static_cast
<
float
>
(
1
),
&
out_slice
,
static_cast
<
float
>
(
1
),
true
,
&
new_scale
,
&
new_bias
,
g
,
bias_data
.
data
<
float
>
());
math
::
matmulWithBn
<
float
>
(
filter_slice
,
false
,
col_matrix
,
false
,
static_cast
<
float
>
(
1
),
&
out_slice
,
static_cast
<
float
>
(
1
),
true
,
&
new_scale
,
&
new_bias
,
g
,
bias_data
.
data
<
float
>
());
}
}
}
...
...
src/operators/math/gemm.cpp
浏览文件 @
a59684b0
...
...
@@ -2962,7 +2962,7 @@ void Sgemm(int m, int n, int k, float alpha, const float *A, int lda,
void
SgemmWithBn
(
int
m
,
int
n
,
int
k
,
float
alpha
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
beta
,
float
*
C
,
int
ldc
,
bool
relu
,
float
*
new_scale
,
float
*
new_bias
)
{
bool
relu
,
float
*
new_scale
,
float
*
new_bias
,
float
*
bias
)
{
// L1 data cache is 32 kib (Per Contex-A57, Contex-A72, Contex-A73)
// L2 cache is 0.5~4 Mib (Contex-A72 cluster)
int
L1
=
32
*
1024
;
...
...
@@ -3009,70 +3009,14 @@ void SgemmWithBn(int m, int n, int k, float alpha, const float *A, int lda,
#else
PackMatrixA_6r
(
mc
,
KC
,
mc
%
MR
,
&
A
(
i
,
0
),
lda
,
packedA
);
#endif
InnerKernelWithBn
(
mc
,
nc
,
alpha
,
packedA
,
packedB
,
beta
,
packedC
,
&
C
(
i
,
j
),
ldc
,
relu
,
new_scale
+
i
,
new_bias
+
i
);
}
}
paddle_mobile
::
memory
::
Free
(
packedA
);
paddle_mobile
::
memory
::
Free
(
packedB
);
paddle_mobile
::
memory
::
Free
(
packedC
);
paddle_mobile
::
memory
::
Free
(
zero
);
}
void
SgemmWithBnAdd
(
int
m
,
int
n
,
int
k
,
float
alpha
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
beta
,
float
*
C
,
int
ldc
,
bool
relu
,
float
*
new_scale
,
float
*
new_bias
,
float
*
bias
)
{
// L1 data cache is 32 kib (Per Contex-A57, Contex-A72, Contex-A73)
// L2 cache is 0.5~4 Mib (Contex-A72 cluster)
int
L1
=
32
*
1024
;
int
L2
=
512
*
1024
;
KC
=
k
;
MC
=
L1
/
(
KC
*
sizeof
(
float
));
NC
=
L2
/
(
KC
*
sizeof
(
float
));
// make sure MC is multiple of MR, and NC is multiple of NR
int
mblock_num
=
(
m
+
MC
-
1
)
/
MC
;
MC
=
(
m
+
mblock_num
-
1
)
/
mblock_num
;
MC
=
(
MC
+
MR
-
1
)
/
MR
*
MR
;
// DLOG << "mblock_num = " << mblock_num << ", MC = " << MC << "\n";
int
nblock_num
=
(
n
+
NC
-
1
)
/
NC
;
NC
=
(
n
+
nblock_num
-
1
)
/
nblock_num
;
NC
=
(
NC
+
NR
-
1
)
/
NR
*
NR
;
// DLOG << "nblock_num = " << nblock_num << ", NC = " << NC << "\n";
packedA
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
MC
*
KC
));
packedB
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
KC
*
NC
));
packedC
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
MC
*
NC
));
zero
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
KC
));
memset
(
static_cast
<
void
*>
(
zero
),
0
,
sizeof
(
float
)
*
KC
);
int
mc
,
nc
;
for
(
int
j
=
0
;
j
<
n
;
j
+=
NC
)
{
nc
=
s_min
(
n
-
j
,
NC
);
#if __aarch64__
// PackMatrixB_12c(KC, nc, nc % NR, &B(0, j), ldb, packedB);
PackMatrixB_16c
(
KC
,
nc
,
nc
%
NR
,
&
B
(
0
,
j
),
ldb
,
packedB
);
#else
PackMatrixB_8c
(
KC
,
nc
,
nc
%
NR
,
&
B
(
0
,
j
),
ldb
,
packedB
);
#endif
for
(
int
i
=
0
;
i
<
m
;
i
+=
MC
)
{
mc
=
s_min
(
m
-
i
,
MC
);
#if __aarch64__
PackMatrixA_6r
(
mc
,
KC
,
mc
%
MR
,
&
A
(
i
,
0
),
lda
,
packedA
);
// PackMatrixA_8r(mc, KC, mc % MR, &A(i, 0), lda, packedA);
#else
PackMatrixA_6r
(
mc
,
KC
,
mc
%
MR
,
&
A
(
i
,
0
),
lda
,
packedA
);
#endif
InnerKernelWithBnAdd
(
mc
,
nc
,
alpha
,
packedA
,
packedB
,
beta
,
packedC
,
&
C
(
i
,
j
),
ldc
,
relu
,
new_scale
+
i
,
new_bias
+
i
,
bias
+
i
*
ldc
+
j
);
if
(
bias
==
nullptr
)
{
InnerKernelWithBn
(
mc
,
nc
,
alpha
,
packedA
,
packedB
,
beta
,
packedC
,
&
C
(
i
,
j
),
ldc
,
relu
,
new_scale
+
i
,
new_bias
+
i
);
}
else
{
InnerKernelWithBnAdd
(
mc
,
nc
,
alpha
,
packedA
,
packedB
,
beta
,
packedC
,
&
C
(
i
,
j
),
ldc
,
relu
,
new_scale
+
i
,
new_bias
+
i
,
bias
+
i
*
ldc
+
j
);
}
}
}
...
...
@@ -3260,115 +3204,8 @@ void Sgemm_omp(int m, int n, int k, float alpha, const float *A, int lda,
void
SgemmWithBn_omp
(
int
m
,
int
n
,
int
k
,
float
alpha
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
beta
,
float
*
C
,
int
ldc
,
bool
relu
,
float
*
new_scale
,
float
*
new_bias
)
{
#ifdef _OPENMP
int
max_threads
=
omp_get_max_threads
();
#else
int
max_threads
=
1
;
#endif
int
L1
=
64
/
max_threads
*
1024
;
KC
=
k
;
if
(
m
>
n
)
{
// 对 A 分块
MC
=
L1
/
(
KC
*
sizeof
(
float
));
int
mblock_num
=
(
m
+
MC
-
1
)
/
MC
;
MC
=
(
m
+
mblock_num
-
1
)
/
mblock_num
;
MC
=
(
MC
+
MR
-
1
)
/
MR
*
MR
;
// 补齐 B
NC
=
(
n
+
NR
-
1
)
/
NR
*
NR
;
#if __aarch64__
procPackA
=
PackMatrixA_6r
;
procPackB
=
PackMatrixB_omp_16c
;
procAddDot
=
AddDot6x16
;
#else
procPackA
=
PackMatrixA_6r
;
procPackB
=
PackMatrixB_omp_8c
;
procAddDot
=
AddDot6x8
;
#endif
packedB
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
KC
*
NC
));
procPackB
(
KC
,
NC
,
NC
%
NR
,
B
,
ldb
,
packedB
);
packedA
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
MC
*
KC
*
max_threads
));
}
else
{
// 对 B 分块
NC
=
L1
/
(
KC
*
sizeof
(
float
));
int
nblock_num
=
(
n
+
NC
-
1
)
/
NC
;
NC
=
(
n
+
nblock_num
-
1
)
/
nblock_num
;
NC
=
(
NC
+
NR
-
1
)
/
NR
*
NR
;
// 补齐 A
MC
=
(
m
+
MR
-
1
)
/
MR
*
MR
;
#if __aarch64__
procPackA
=
PackMatrixA_omp_6r
;
procPackB
=
PackMatrixB_16c
;
procAddDot
=
AddDot6x16
;
#else
procPackA
=
PackMatrixA_omp_6r
;
procPackB
=
PackMatrixB_8c
;
procAddDot
=
AddDot6x8
;
#endif
packedA
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
MC
*
KC
));
procPackA
(
MC
,
KC
,
MC
%
MR
,
A
,
lda
,
packedA
);
packedB
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
KC
*
NC
*
max_threads
));
}
zero
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
KC
));
memset
(
static_cast
<
void
*>
(
zero
),
0
,
sizeof
(
float
)
*
KC
);
packedC
=
static_cast
<
float
*>
(
paddle_mobile
::
memory
::
Alloc
(
sizeof
(
float
)
*
MC
*
NC
*
max_threads
));
if
(
m
>
n
)
{
#pragma omp parallel for
for
(
int
i
=
0
;
i
<
m
;
i
+=
MC
)
{
#ifdef _OPENMP
int
local_threads
=
omp_get_thread_num
();
#else
int
local_threads
=
0
;
#endif
int
mc
;
mc
=
s_min
(
m
-
i
,
MC
);
float
*
local_A
=
packedA
+
MC
*
KC
*
local_threads
;
float
*
local_C
=
packedC
+
MC
*
NC
*
local_threads
;
procPackA
(
mc
,
KC
,
mc
%
MR
,
&
A
(
i
,
0
),
lda
,
local_A
);
InnerKernelWithBn
(
mc
,
n
,
alpha
,
local_A
,
packedB
,
beta
,
local_C
,
&
C
(
i
,
0
),
ldc
,
relu
,
new_scale
+
i
,
new_bias
+
i
);
}
}
else
{
#pragma omp parallel for
for
(
int
j
=
0
;
j
<
n
;
j
+=
NC
)
{
#ifdef _OPENMP
int
local_threads
=
omp_get_thread_num
();
#else
int
local_threads
=
0
;
#endif
int
nc
;
nc
=
s_min
(
n
-
j
,
NC
);
float
*
local_B
=
packedB
+
KC
*
NC
*
local_threads
;
float
*
local_C
=
packedC
+
MC
*
NC
*
local_threads
;
procPackB
(
KC
,
nc
,
nc
%
NR
,
&
B
(
0
,
j
),
ldb
,
local_B
);
InnerKernelWithBn
(
m
,
nc
,
alpha
,
packedA
,
local_B
,
beta
,
local_C
,
&
C
(
0
,
j
),
ldc
,
relu
,
new_scale
,
new_bias
);
}
}
paddle_mobile
::
memory
::
Free
(
packedA
);
paddle_mobile
::
memory
::
Free
(
packedB
);
paddle_mobile
::
memory
::
Free
(
packedC
);
paddle_mobile
::
memory
::
Free
(
zero
);
}
void
SgemmWithBnAdd_omp
(
int
m
,
int
n
,
int
k
,
float
alpha
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
beta
,
float
*
C
,
int
ldc
,
bool
relu
,
float
*
new_scale
,
float
*
new_bias
,
float
*
bias
)
{
bool
relu
,
float
*
new_scale
,
float
*
new_bias
,
float
*
bias
)
{
#ifdef _OPENMP
int
max_threads
=
omp_get_max_threads
();
#else
...
...
@@ -3445,9 +3282,14 @@ void SgemmWithBnAdd_omp(int m, int n, int k, float alpha, const float *A,
float
*
local_A
=
packedA
+
MC
*
KC
*
local_threads
;
float
*
local_C
=
packedC
+
MC
*
NC
*
local_threads
;
procPackA
(
mc
,
KC
,
mc
%
MR
,
&
A
(
i
,
0
),
lda
,
local_A
);
InnerKernelWithBnAdd
(
mc
,
n
,
alpha
,
local_A
,
packedB
,
beta
,
local_C
,
&
C
(
i
,
0
),
ldc
,
relu
,
new_scale
+
i
,
new_bias
+
i
,
bias
+
i
*
ldc
);
if
(
bias
==
nullptr
)
{
InnerKernelWithBn
(
mc
,
n
,
alpha
,
local_A
,
packedB
,
beta
,
local_C
,
&
C
(
i
,
0
),
ldc
,
relu
,
new_scale
+
i
,
new_bias
+
i
);
}
else
{
InnerKernelWithBnAdd
(
mc
,
n
,
alpha
,
local_A
,
packedB
,
beta
,
local_C
,
&
C
(
i
,
0
),
ldc
,
relu
,
new_scale
+
i
,
new_bias
+
i
,
bias
+
i
*
ldc
);
}
}
}
else
{
#pragma omp parallel for
...
...
@@ -3463,8 +3305,14 @@ void SgemmWithBnAdd_omp(int m, int n, int k, float alpha, const float *A,
float
*
local_B
=
packedB
+
KC
*
NC
*
local_threads
;
float
*
local_C
=
packedC
+
MC
*
NC
*
local_threads
;
procPackB
(
KC
,
nc
,
nc
%
NR
,
&
B
(
0
,
j
),
ldb
,
local_B
);
InnerKernelWithBnAdd
(
m
,
nc
,
alpha
,
packedA
,
local_B
,
beta
,
local_C
,
&
C
(
0
,
j
),
ldc
,
relu
,
new_scale
,
new_bias
,
bias
+
j
);
if
(
bias
==
nullptr
)
{
InnerKernelWithBn
(
m
,
nc
,
alpha
,
packedA
,
local_B
,
beta
,
local_C
,
&
C
(
0
,
j
),
ldc
,
relu
,
new_scale
,
new_bias
);
}
else
{
InnerKernelWithBnAdd
(
m
,
nc
,
alpha
,
packedA
,
local_B
,
beta
,
local_C
,
&
C
(
0
,
j
),
ldc
,
relu
,
new_scale
,
new_bias
,
bias
+
j
);
}
}
}
...
...
src/operators/math/gemm.h
浏览文件 @
a59684b0
...
...
@@ -157,10 +157,7 @@ void Sgemm(int m, int n, int k, float alpha, const float *A, int lda,
// 32位 float 矩阵乘法, 并对结果进行 batchnrom
void
SgemmWithBn
(
int
m
,
int
n
,
int
k
,
float
alpha
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
beta
,
float
*
C
,
int
ldc
,
bool
relu
,
float
*
new_scale
,
float
*
new_bias
);
void
SgemmWithBnAdd
(
int
m
,
int
n
,
int
k
,
float
alpha
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
beta
,
float
*
C
,
int
ldc
,
bool
relu
,
float
*
new_scale
,
float
*
new_bias
,
float
*
bias
);
bool
relu
,
float
*
new_scale
,
float
*
new_bias
,
float
*
bias
);
void
SgemmWithPRelu
(
int
m
,
int
n
,
int
k
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
*
C
,
int
ldc
,
float
*
p
,
std
::
string
mode
,
float
*
bias
,
float
*
bias1
);
...
...
@@ -173,12 +170,7 @@ void Sgemm_omp(int m, int n, int k, float alpha, const float *A, int lda,
// 32位 float 矩阵乘法, 并对结果进行 batchnrom(openmp 多线程版本)
void
SgemmWithBn_omp
(
int
m
,
int
n
,
int
k
,
float
alpha
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
beta
,
float
*
C
,
int
ldc
,
bool
relu
,
float
*
new_scale
,
float
*
new_bias
);
// 32位 float 矩阵乘法, 并对结果进行 batchnorm和add(openmp 多线程版本)
void
SgemmWithBnAdd_omp
(
int
m
,
int
n
,
int
k
,
float
alpha
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
beta
,
float
*
C
,
int
ldc
,
bool
relu
,
float
*
new_scale
,
float
*
new_bias
,
float
*
bias
);
bool
relu
,
float
*
new_scale
,
float
*
new_bias
,
float
*
bias
);
void
SgemmWithPRelu_omp
(
int
m
,
int
n
,
int
k
,
const
float
*
A
,
int
lda
,
const
float
*
B
,
int
ldb
,
float
*
C
,
int
ldc
,
float
*
p
,
...
...
src/operators/math/math_function.cpp
浏览文件 @
a59684b0
...
...
@@ -56,7 +56,7 @@ void matmulWithBn<float>(const framework::Tensor &matrix_a, bool trans_a,
const
framework
::
Tensor
&
matrix_b
,
bool
trans_b
,
float
alpha
,
framework
::
Tensor
*
matrix_out
,
float
beta
,
bool
relu
,
framework
::
Tensor
*
new_scale
,
framework
::
Tensor
*
new_bias
,
int
group
)
{
framework
::
Tensor
*
new_bias
,
int
group
,
float
*
bias
)
{
auto
dim_a
=
matrix_a
.
dims
();
auto
dim_b
=
matrix_b
.
dims
();
auto
dim_out
=
matrix_out
->
dims
();
...
...
@@ -79,49 +79,12 @@ void matmulWithBn<float>(const framework::Tensor &matrix_a, bool trans_a,
SgemmWithBn_omp
(
M
,
N
,
K
,
alpha
,
matrix_a
.
data
<
float
>
(),
K
,
matrix_b
.
data
<
float
>
(),
N
,
beta
,
matrix_out
->
data
<
float
>
(),
N
,
relu
,
new_scale
->
data
<
float
>
()
+
group
,
new_bias
->
data
<
float
>
()
+
group
);
new_bias
->
data
<
float
>
()
+
group
,
bias
);
#else
SgemmWithBn
(
M
,
N
,
K
,
alpha
,
matrix_a
.
data
<
float
>
(),
K
,
matrix_b
.
data
<
float
>
(),
N
,
beta
,
matrix_out
->
data
<
float
>
(),
N
,
relu
,
new_scale
->
data
<
float
>
()
+
group
,
new_bias
->
data
<
float
>
()
+
group
);
#endif
}
template
<
>
void
matmulWithBnAdd
<
float
>
(
const
framework
::
Tensor
&
matrix_a
,
bool
trans_a
,
const
framework
::
Tensor
&
matrix_b
,
bool
trans_b
,
float
alpha
,
framework
::
Tensor
*
matrix_out
,
float
beta
,
bool
relu
,
framework
::
Tensor
*
new_scale
,
framework
::
Tensor
*
new_bias
,
int
group
,
float
*
bias
)
{
auto
dim_a
=
matrix_a
.
dims
();
auto
dim_b
=
matrix_b
.
dims
();
auto
dim_out
=
matrix_out
->
dims
();
// PADDLE_ENFORCE(dim_a.size() == 2 && dim_b.size() == 2 &&
// dim_out.size() ==
// 2,
// "The input and output of matmul be matrix");
//
// PADDLE_ENFORCE(platform::is_cpu_place(matrix_a.place()) &&
// platform::is_cpu_place(matrix_b.place())
// &&
// platform::is_cpu_place(matrix_out->place()),
// "Matrix must all be in CPUPlace");
int
M
=
dim_out
[
0
];
int
N
=
dim_out
[
1
];
int
K
=
(
!
trans_a
)
?
dim_a
[
1
]
:
dim_a
[
0
];
#ifdef _OPENMP
SgemmWithBnAdd_omp
(
M
,
N
,
K
,
alpha
,
matrix_a
.
data
<
float
>
(),
K
,
matrix_b
.
data
<
float
>
(),
N
,
beta
,
matrix_out
->
data
<
float
>
(),
N
,
relu
,
new_scale
->
data
<
float
>
()
+
group
,
new_bias
->
data
<
float
>
()
+
group
,
bias
);
#else
SgemmWithBnAdd
(
M
,
N
,
K
,
alpha
,
matrix_a
.
data
<
float
>
(),
K
,
matrix_b
.
data
<
float
>
(),
N
,
beta
,
matrix_out
->
data
<
float
>
(),
N
,
relu
,
new_scale
->
data
<
float
>
()
+
group
,
new_bias
->
data
<
float
>
()
+
group
,
bias
);
new_scale
->
data
<
float
>
()
+
group
,
new_bias
->
data
<
float
>
()
+
group
,
bias
);
#endif
}
void
matmulWithPRelu
(
const
framework
::
Tensor
&
matrix_a
,
bool
trans_a
,
...
...
src/operators/math/math_function.h
浏览文件 @
a59684b0
...
...
@@ -32,13 +32,7 @@ void matmulWithBn(const framework::Tensor &matrix_a, bool trans_a,
const
framework
::
Tensor
&
matrix_b
,
bool
trans_b
,
T
alpha
,
framework
::
Tensor
*
matrix_out
,
T
beta
,
bool
relu
,
framework
::
Tensor
*
new_scale
,
framework
::
Tensor
*
new_bias
,
int
group
);
template
<
typename
T
>
void
matmulWithBnAdd
(
const
framework
::
Tensor
&
matrix_a
,
bool
trans_a
,
const
framework
::
Tensor
&
matrix_b
,
bool
trans_b
,
float
alpha
,
framework
::
Tensor
*
matrix_out
,
float
beta
,
bool
relu
,
framework
::
Tensor
*
new_scale
,
framework
::
Tensor
*
new_bias
,
int
group
,
float
*
bias
);
int
group
,
float
*
bias
=
nullptr
);
void
matmulWithPRelu
(
const
framework
::
Tensor
&
matrix_a
,
bool
trans_a
,
const
framework
::
Tensor
&
matrix_b
,
bool
trans_b
,
...
...
test/common/test_gemm_accuracy.cpp
浏览文件 @
a59684b0
...
...
@@ -83,8 +83,8 @@ int do_sgemm(int m, int n, int k, bool relu, int t1, int t2, int pr) {
}
}
paddle_mobile
::
operators
::
math
::
SgemmWithBn
(
m
,
n
,
k
,
0.9
,
a
,
lda
,
b
,
ldb
,
0.3
,
c
,
ldc
,
relu
,
scale
,
bias
);
paddle_mobile
::
operators
::
math
::
SgemmWithBn
(
m
,
n
,
k
,
0.9
,
a
,
lda
,
b
,
ldb
,
0.3
,
c
,
ldc
,
relu
,
scale
,
bias
,
nullptr
);
int
eq
=
0
;
int
neq
=
0
;
for
(
int
i
=
0
;
i
<
m
*
n
;
++
i
)
{
...
...
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