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29796efe
编写于
1月 21, 2022
作者:
F
fwenguang
提交者:
GitHub
1月 21, 2022
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差异文件
[MLU]add batch_norm mlu kernel (#39070)
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paddle/fluid/operators/batch_norm_op_mlu.cc
paddle/fluid/operators/batch_norm_op_mlu.cc
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paddle/fluid/operators/batch_norm_op_mlu.cc
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/* Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include "paddle/fluid/operators/batch_norm_op.h"
#include "paddle/fluid/operators/mlu/mlu_baseop.h"
namespace
paddle
{
namespace
operators
{
template
<
typename
T
>
class
MLUBatchNormOpKernel
:
public
framework
::
OpKernel
<
T
>
{
public:
void
Compute
(
const
framework
::
ExecutionContext
&
ctx
)
const
override
{
const
auto
&
place
=
ctx
.
GetPlace
();
const
float
epsilon
=
ctx
.
Attr
<
float
>
(
"epsilon"
);
float
momentum
=
ctx
.
Attr
<
float
>
(
"momentum"
);
const
bool
is_test
=
ctx
.
Attr
<
bool
>
(
"is_test"
);
const
bool
use_global_stats
=
ctx
.
Attr
<
bool
>
(
"use_global_stats"
);
const
bool
trainable_stats
=
ctx
.
Attr
<
bool
>
(
"trainable_statistics"
);
bool
test_mode
=
is_test
&&
(
!
trainable_stats
);
bool
global_stats
=
test_mode
||
use_global_stats
;
const
std
::
string
data_layout_str
=
ctx
.
Attr
<
std
::
string
>
(
"data_layout"
);
DataLayout
data_layout
=
framework
::
StringToDataLayout
(
data_layout_str
);
const
auto
*
x
=
ctx
.
Input
<
Tensor
>
(
"X"
);
const
auto
&
x_dims
=
x
->
dims
();
PADDLE_ENFORCE_GE
(
x_dims
.
size
(),
2
,
platform
::
errors
::
InvalidArgument
(
"The size of input X's dimensions should be larger than 1."
"But received: the size of input X's dimensions is [%d]"
,
x_dims
.
size
()));
PADDLE_ENFORCE_LE
(
x_dims
.
size
(),
5
,
platform
::
errors
::
InvalidArgument
(
"The size of input X's dimensions should be less than 6."
"But received: the size of input X's dimensions is [%d]"
,
x_dims
.
size
()));
const
int
N
=
x_dims
[
0
];
const
int
C
=
(
data_layout
==
DataLayout
::
kNCHW
?
x_dims
[
1
]
:
x_dims
[
x_dims
.
size
()
-
1
]);
const
int
sample_size
=
x
->
numel
()
/
N
/
C
;
const
auto
*
running_mean
=
ctx
.
Input
<
Tensor
>
(
"Mean"
);
const
auto
*
running_var
=
ctx
.
Input
<
Tensor
>
(
"Variance"
);
const
auto
*
scale
=
ctx
.
Input
<
Tensor
>
(
"Scale"
);
const
auto
*
bias
=
ctx
.
Input
<
Tensor
>
(
"Bias"
);
auto
*
y
=
ctx
.
Output
<
Tensor
>
(
"Y"
);
auto
*
mean_out
=
ctx
.
Output
<
Tensor
>
(
"MeanOut"
);
auto
*
variance_out
=
ctx
.
Output
<
Tensor
>
(
"VarianceOut"
);
auto
*
saved_mean
=
ctx
.
Output
<
Tensor
>
(
"SavedMean"
);
auto
*
saved_variance
=
ctx
.
Output
<
Tensor
>
(
"SavedVariance"
);
// alloc memory
y
->
mutable_data
<
T
>
(
place
);
mean_out
->
mutable_data
<
T
>
(
place
);
variance_out
->
mutable_data
<
T
>
(
place
);
saved_mean
->
mutable_data
<
T
>
(
place
);
saved_variance
->
mutable_data
<
T
>
(
place
);
Tensor
transformed_x
;
Tensor
transformed_y
;
const
int
transformed_dim_size
=
4
;
const
int
transformed_shape
[
transformed_dim_size
]
=
{
N
,
sample_size
,
1
,
C
};
MLUCnnlTensorDesc
transformed_desc
(
transformed_dim_size
,
transformed_shape
,
ToCnnlDataType
<
T
>
(),
CNNL_LAYOUT_NHWC
);
MLUCnnlTensorDesc
others_input_desc
(
*
scale
);
// input dimension is 2 and the format is NCHW. The input can be regarded as
// NHWC format. Don't need to transpose.
bool
need_transpose
=
(
data_layout
==
DataLayout
::
kNCHW
&&
x_dims
.
size
()
!=
2
);
if
(
need_transpose
)
{
auto
&
dev_ctx
=
ctx
.
template
device_context
<
MLUDeviceContext
>();
transformed_x
=
ctx
.
AllocateTmpTensor
<
T
,
MLUDeviceContext
>
(
framework
::
DDim
(
transformed_shape
,
transformed_dim_size
),
dev_ctx
);
transformed_y
=
ctx
.
AllocateTmpTensor
<
T
,
MLUDeviceContext
>
(
framework
::
DDim
(
transformed_shape
,
transformed_dim_size
),
dev_ctx
);
const
int
x_reshaped
[]
=
{
N
,
C
,
sample_size
,
1
};
MLUCnnlTensorDesc
x_reshaped_desc
(
transformed_dim_size
,
x_reshaped
,
ToCnnlDataType
<
T
>
());
const
std
::
vector
<
int
>
perm
=
{
0
,
2
,
3
,
1
};
MLUCnnl
::
Transpose
(
ctx
,
perm
,
transformed_dim_size
,
x_reshaped_desc
.
get
(),
GetBasePtr
(
x
),
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_x
));
}
else
{
transformed_x
=
*
x
;
transformed_y
=
*
y
;
}
if
(
ctx
.
HasInput
(
"MomentumTensor"
))
{
const
auto
*
mom_tensor
=
ctx
.
Input
<
Tensor
>
(
"MomentumTensor"
);
Tensor
mom_cpu
;
TensorCopySync
(
*
mom_tensor
,
platform
::
CPUPlace
(),
&
mom_cpu
);
momentum
=
mom_cpu
.
data
<
float
>
()[
0
];
}
MLUCnnl
::
FusedBatchNorm
(
ctx
,
!
global_stats
,
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_x
),
others_input_desc
.
get
(),
GetBasePtr
(
scale
),
GetBasePtr
(
bias
),
GetBasePtr
(
running_mean
),
GetBasePtr
(
running_var
),
epsilon
,
momentum
,
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_y
),
GetBasePtr
(
mean_out
),
GetBasePtr
(
variance_out
),
GetBasePtr
(
saved_mean
),
GetBasePtr
(
saved_variance
));
if
(
need_transpose
)
{
const
int
y_reshaped
[]
=
{
N
,
C
,
sample_size
,
1
};
MLUCnnlTensorDesc
y_reshaped_desc
(
transformed_dim_size
,
y_reshaped
,
ToCnnlDataType
<
T
>
());
const
std
::
vector
<
int
>
perm
=
{
0
,
3
,
1
,
2
};
MLUCnnl
::
Transpose
(
ctx
,
perm
,
transformed_y
.
dims
().
size
(),
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_y
),
y_reshaped_desc
.
get
(),
GetBasePtr
(
y
));
}
}
};
template
<
typename
T
>
class
MLUBatchNormGradOpKernel
:
public
framework
::
OpKernel
<
T
>
{
public:
void
Compute
(
const
framework
::
ExecutionContext
&
ctx
)
const
override
{
const
auto
*
x
=
ctx
.
Input
<
Tensor
>
(
"X"
);
const
auto
*
d_y
=
ctx
.
Input
<
Tensor
>
(
framework
::
GradVarName
(
"Y"
));
const
auto
*
scale
=
ctx
.
Input
<
Tensor
>
(
"Scale"
);
const
auto
*
bias
=
ctx
.
Input
<
Tensor
>
(
"Bias"
);
const
auto
*
saved_mean
=
ctx
.
Input
<
Tensor
>
(
"SavedMean"
);
// SavedVariance have been reverted in forward operator
const
auto
*
saved_inv_variance
=
ctx
.
Input
<
Tensor
>
(
"SavedVariance"
);
const
std
::
string
data_layout_str
=
ctx
.
Attr
<
std
::
string
>
(
"data_layout"
);
bool
use_global_stats
=
ctx
.
Attr
<
bool
>
(
"use_global_stats"
);
const
bool
is_test
=
ctx
.
Attr
<
bool
>
(
"is_test"
);
const
float
epsilon
=
ctx
.
Attr
<
float
>
(
"epsilon"
);
DataLayout
data_layout
=
framework
::
StringToDataLayout
(
data_layout_str
);
auto
*
d_x
=
ctx
.
Output
<
Tensor
>
(
framework
::
GradVarName
(
"X"
));
auto
*
d_scale
=
ctx
.
Output
<
Tensor
>
(
framework
::
GradVarName
(
"Scale"
));
auto
*
d_bias
=
ctx
.
Output
<
Tensor
>
(
framework
::
GradVarName
(
"Bias"
));
auto
&
dev_ctx
=
ctx
.
template
device_context
<
MLUDeviceContext
>();
auto
d_x_tmp
=
ctx
.
AllocateTmpTensor
<
T
,
MLUDeviceContext
>
(
x
->
dims
(),
dev_ctx
);
auto
scale_grad_tmp
=
ctx
.
AllocateTmpTensor
<
T
,
MLUDeviceContext
>
(
scale
->
dims
(),
dev_ctx
);
auto
bias_grad_tmp
=
ctx
.
AllocateTmpTensor
<
T
,
MLUDeviceContext
>
(
bias
->
dims
(),
dev_ctx
);
if
(
d_x
==
nullptr
)
{
d_x
=
&
d_x_tmp
;
}
if
(
d_scale
==
nullptr
)
{
d_scale
=
&
scale_grad_tmp
;
}
if
(
d_bias
==
nullptr
)
{
d_bias
=
&
bias_grad_tmp
;
}
const
auto
&
place
=
ctx
.
GetPlace
();
d_x
->
mutable_data
<
T
>
(
place
);
d_scale
->
mutable_data
<
T
>
(
place
);
d_bias
->
mutable_data
<
T
>
(
place
);
use_global_stats
=
is_test
||
use_global_stats
;
const
auto
&
x_dims
=
x
->
dims
();
PADDLE_ENFORCE_GE
(
x_dims
.
size
(),
2
,
platform
::
errors
::
InvalidArgument
(
"The size of input X's dimensions should be larger than 1."
"But received: the size of input X's dimensions is [%d]"
,
x_dims
.
size
()));
PADDLE_ENFORCE_LE
(
x_dims
.
size
(),
5
,
platform
::
errors
::
InvalidArgument
(
"The size of input X's dimensions should be less than 6."
"But received: the size of input X's dimensions is [%d]"
,
x_dims
.
size
()));
const
int
N
=
x_dims
[
0
];
const
int
C
=
(
data_layout
==
DataLayout
::
kNCHW
?
x_dims
[
1
]
:
x_dims
[
x_dims
.
size
()
-
1
]);
const
int
sample_size
=
x
->
numel
()
/
N
/
C
;
Tensor
transformed_d_y
;
Tensor
transformed_x
;
Tensor
transformed_d_x
;
const
int
transformed_dim_size
=
4
;
const
int
transformed_shape
[
transformed_dim_size
]
=
{
N
,
sample_size
,
1
,
C
};
MLUCnnlTensorDesc
transformed_desc
(
transformed_dim_size
,
transformed_shape
,
ToCnnlDataType
<
T
>
(),
CNNL_LAYOUT_NHWC
);
MLUCnnlTensorDesc
others_input_desc
(
*
scale
);
bool
need_transpose
=
(
data_layout
==
DataLayout
::
kNCHW
&&
x_dims
.
size
()
!=
2
);
if
(
need_transpose
)
{
transformed_d_y
=
ctx
.
AllocateTmpTensor
<
T
,
MLUDeviceContext
>
(
framework
::
DDim
(
transformed_shape
,
transformed_dim_size
),
dev_ctx
);
transformed_x
=
ctx
.
AllocateTmpTensor
<
T
,
MLUDeviceContext
>
(
framework
::
DDim
(
transformed_shape
,
transformed_dim_size
),
dev_ctx
);
transformed_d_x
=
ctx
.
AllocateTmpTensor
<
T
,
MLUDeviceContext
>
(
framework
::
DDim
(
transformed_shape
,
transformed_dim_size
),
dev_ctx
);
const
int
org_reshaped
[]
=
{
N
,
C
,
sample_size
,
1
};
MLUCnnlTensorDesc
org_reshaped_desc
(
transformed_dim_size
,
org_reshaped
,
ToCnnlDataType
<
T
>
());
const
std
::
vector
<
int
>
perm
=
{
0
,
2
,
3
,
1
};
MLUCnnl
::
Transpose
(
ctx
,
perm
,
transformed_dim_size
,
org_reshaped_desc
.
get
(),
GetBasePtr
(
d_y
),
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_d_y
));
MLUCnnl
::
Transpose
(
ctx
,
perm
,
transformed_dim_size
,
org_reshaped_desc
.
get
(),
GetBasePtr
(
x
),
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_x
));
}
else
{
transformed_d_y
=
*
d_y
;
transformed_x
=
*
x
;
transformed_d_x
=
*
d_x
;
}
if
(
use_global_stats
)
{
const
auto
*
running_mean
=
ctx
.
Input
<
Tensor
>
(
"Mean"
);
const
auto
*
running_variance
=
ctx
.
Input
<
Tensor
>
(
"Variance"
);
MLUCnnl
::
FusedBatchNormGrad
(
ctx
,
true
/*is_training*/
,
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_d_y
),
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_x
),
others_input_desc
.
get
(),
GetBasePtr
(
scale
),
GetBasePtr
(
running_mean
),
GetBasePtr
(
running_variance
),
epsilon
,
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_d_x
),
GetBasePtr
(
d_scale
),
GetBasePtr
(
d_bias
));
}
else
{
MLUCnnl
::
FusedBatchNormGrad
(
ctx
,
true
/*is_training*/
,
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_d_y
),
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_x
),
others_input_desc
.
get
(),
GetBasePtr
(
scale
),
GetBasePtr
(
saved_mean
),
GetBasePtr
(
saved_inv_variance
),
epsilon
,
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_d_x
),
GetBasePtr
(
d_scale
),
GetBasePtr
(
d_bias
));
}
if
(
need_transpose
)
{
const
int
d_x_reshaped
[]
=
{
N
,
C
,
sample_size
,
1
};
MLUCnnlTensorDesc
d_x_reshaped_desc
(
transformed_dim_size
,
d_x_reshaped
,
ToCnnlDataType
<
T
>
());
const
std
::
vector
<
int
>
perm
=
{
0
,
3
,
1
,
2
};
MLUCnnl
::
Transpose
(
ctx
,
perm
,
transformed_dim_size
,
transformed_desc
.
get
(),
GetBasePtr
(
&
transformed_d_x
),
d_x_reshaped_desc
.
get
(),
GetBasePtr
(
d_x
));
}
}
};
}
// namespace operators
}
// namespace paddle
namespace
ops
=
paddle
::
operators
;
namespace
plat
=
paddle
::
platform
;
REGISTER_OP_MLU_KERNEL
(
batch_norm
,
ops
::
MLUBatchNormOpKernel
<
float
>
,
ops
::
MLUBatchNormOpKernel
<
plat
::
float16
>
);
REGISTER_OP_MLU_KERNEL
(
batch_norm_grad
,
ops
::
MLUBatchNormGradOpKernel
<
float
>
,
ops
::
MLUBatchNormGradOpKernel
<
plat
::
float16
>
);
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