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ea4bdca8
编写于
12月 25, 2017
作者:
Y
Yu Yang
提交者:
GitHub
12月 25, 2017
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差异文件
Merge pull request #6967 from reyoung/feature/optimize_adam_speed
Use for_range to rewrite adam
上级
ea5d6eae
45372842
变更
2
隐藏空白更改
内联
并排
Showing
2 changed file
with
178 addition
and
39 deletion
+178
-39
paddle/operators/adam_op.h
paddle/operators/adam_op.h
+93
-39
paddle/platform/for_range.h
paddle/platform/for_range.h
+85
-0
未找到文件。
paddle/operators/adam_op.h
浏览文件 @
ea4bdca8
...
@@ -13,59 +13,113 @@ See the License for the specific language governing permissions and
...
@@ -13,59 +13,113 @@ See the License for the specific language governing permissions and
limitations under the License. */
limitations under the License. */
#pragma once
#pragma once
#include
"paddle/framework/eigen.h"
#include
<math.h> // for sqrt in CPU and CUDA
#include "paddle/framework/op_registry.h"
#include "paddle/framework/op_registry.h"
#include "paddle/operators/detail/safe_ref.h"
#include "paddle/platform/for_range.h"
namespace
paddle
{
namespace
paddle
{
namespace
operators
{
namespace
operators
{
template
<
typename
T
>
struct
AdamFunctor
{
T
beta1_
;
T
beta2_
;
T
epsilon_
;
const
T
*
beta1_pow_
;
const
T
*
beta2_pow_
;
const
T
*
moment1_
;
T
*
moment1_out_
;
const
T
*
moment2_
;
T
*
moment2_out_
;
const
T
*
lr_
;
const
T
*
grad_
;
const
T
*
param_
;
T
*
param_out_
;
AdamFunctor
(
T
beta1
,
T
beta2
,
T
epsilon
,
const
T
*
beta1_pow
,
const
T
*
beta2_pow
,
const
T
*
mom1
,
T
*
mom1_out
,
const
T
*
mom2
,
T
*
mom2_out
,
const
T
*
lr
,
const
T
*
grad
,
const
T
*
param
,
T
*
param_out
)
:
beta1_
(
beta1
),
beta2_
(
beta2
),
epsilon_
(
epsilon
),
beta1_pow_
(
beta1_pow
),
beta2_pow_
(
beta2_pow
),
moment1_
(
mom1
),
moment1_out_
(
mom1_out
),
moment2_
(
mom2
),
moment2_out_
(
mom2_out
),
lr_
(
lr
),
grad_
(
grad
),
param_
(
param
),
param_out_
(
param_out
)
{}
inline
HOSTDEVICE
void
operator
()(
size_t
i
)
const
{
// Merge all memory access together.
T
g
=
grad_
[
i
];
T
mom1
=
moment1_
[
i
];
T
mom2
=
moment2_
[
i
];
T
lr
=
*
lr_
;
T
beta1_pow
=
*
beta1_pow_
;
T
beta2_pow
=
*
beta2_pow_
;
T
p
=
param_
[
i
];
// Calculation
lr
*=
sqrt
(
1
-
beta2_pow
)
/
(
1
-
beta1_pow
);
mom1
=
beta1_
*
mom1
+
(
1
-
beta1_
)
*
g
;
mom2
=
beta2_
*
mom2
+
(
1
-
beta2_
)
*
g
*
g
;
p
-=
lr
*
(
mom1
/
(
sqrt
(
mom2
)
+
epsilon_
));
// Write back to global memory
moment1_out_
[
i
]
=
mom1
;
moment2_out_
[
i
]
=
mom2
;
param_out_
[
i
]
=
p
;
}
};
template
<
typename
DeviceContext
,
typename
T
>
template
<
typename
DeviceContext
,
typename
T
>
class
AdamOpKernel
:
public
framework
::
OpKernel
<
T
>
{
class
AdamOpKernel
:
public
framework
::
OpKernel
<
T
>
{
public:
public:
void
Compute
(
const
framework
::
ExecutionContext
&
ctx
)
const
override
{
void
Compute
(
const
framework
::
ExecutionContext
&
ctx
)
const
override
{
auto
param_out_tensor
=
ctx
.
Output
<
framework
::
Tensor
>
(
"ParamOut"
);
using
paddle
::
framework
::
LoDTensor
;
auto
moment1_out_tensor
=
ctx
.
Output
<
framework
::
Tensor
>
(
"Moment1Out"
);
using
paddle
::
operators
::
detail
::
Ref
;
auto
moment2_out_tensor
=
ctx
.
Output
<
framework
::
Tensor
>
(
"Moment2Out"
);
param_out_tensor
->
mutable_data
<
T
>
(
ctx
.
GetPlace
());
moment1_out_tensor
->
mutable_data
<
T
>
(
ctx
.
GetPlace
());
moment2_out_tensor
->
mutable_data
<
T
>
(
ctx
.
GetPlace
());
T
beta1
=
static_cast
<
T
>
(
ctx
.
Attr
<
float
>
(
"beta1"
));
T
beta1
=
static_cast
<
T
>
(
ctx
.
Attr
<
float
>
(
"beta1"
));
T
beta2
=
static_cast
<
T
>
(
ctx
.
Attr
<
float
>
(
"beta2"
));
T
beta2
=
static_cast
<
T
>
(
ctx
.
Attr
<
float
>
(
"beta2"
));
T
epsilon
=
static_cast
<
T
>
(
ctx
.
Attr
<
float
>
(
"epsilon"
));
T
epsilon
=
static_cast
<
T
>
(
ctx
.
Attr
<
float
>
(
"epsilon"
));
auto
&
param
=
Ref
(
ctx
.
Input
<
LoDTensor
>
(
"Param"
),
"Must set Param"
);
auto
&
grad
=
Ref
(
ctx
.
Input
<
LoDTensor
>
(
"Grad"
),
"Must set Grad"
);
auto
&
mom1
=
Ref
(
ctx
.
Input
<
LoDTensor
>
(
"Moment1"
),
"Must set Moment1"
);
auto
&
mom2
=
Ref
(
ctx
.
Input
<
LoDTensor
>
(
"Moment2"
),
"Must set Moment2"
);
auto
&
lr
=
Ref
(
ctx
.
Input
<
LoDTensor
>
(
"LearningRate"
),
"Must set LearningRate"
);
auto
&
beta1_pow
=
Ref
(
ctx
.
Input
<
LoDTensor
>
(
"Beta1Pow"
),
"Must set Beta1Pow"
);
auto
&
beta2_pow
=
Ref
(
ctx
.
Input
<
LoDTensor
>
(
"Beta2Pow"
),
"Must set Beta2Pow"
);
auto
&
param_out
=
Ref
(
ctx
.
Output
<
LoDTensor
>
(
"ParamOut"
),
"Must set ParamOut"
);
auto
&
mom1_out
=
Ref
(
ctx
.
Output
<
LoDTensor
>
(
"Moment1Out"
),
"Must set Moment1Out"
);
auto
&
mom2_out
=
Ref
(
ctx
.
Output
<
LoDTensor
>
(
"Moment2Out"
),
"Must set Moment1Out"
);
auto
param
=
framework
::
EigenVector
<
T
>::
Flatten
(
AdamFunctor
<
T
>
functor
(
beta1
,
beta2
,
epsilon
,
beta1_pow
.
template
data
<
T
>(),
*
ctx
.
Input
<
framework
::
Tensor
>
(
"Param"
));
beta2_pow
.
template
data
<
T
>(),
auto
grad
=
framework
::
EigenVector
<
T
>::
Flatten
(
mom1
.
template
data
<
T
>(),
*
ctx
.
Input
<
framework
::
Tensor
>
(
"Grad"
));
mom1_out
.
template
mutable_data
<
T
>(
ctx
.
GetPlace
()),
auto
moment1
=
framework
::
EigenVector
<
T
>::
Flatten
(
mom2
.
template
data
<
T
>(),
*
ctx
.
Input
<
framework
::
Tensor
>
(
"Moment1"
));
mom2_out
.
template
mutable_data
<
T
>(
ctx
.
GetPlace
()),
auto
moment2
=
framework
::
EigenVector
<
T
>::
Flatten
(
lr
.
template
data
<
T
>(),
grad
.
template
data
<
T
>(),
*
ctx
.
Input
<
framework
::
Tensor
>
(
"Moment2"
));
param
.
template
data
<
T
>(),
auto
lr
=
framework
::
EigenVector
<
T
>::
Flatten
(
param_out
.
template
mutable_data
<
T
>(
ctx
.
GetPlace
()));
*
ctx
.
Input
<
framework
::
Tensor
>
(
"LearningRate"
));
platform
::
ForRange
<
DeviceContext
>
for_range
(
auto
beta1_pow
=
framework
::
EigenVector
<
T
>::
Flatten
(
static_cast
<
const
DeviceContext
&>
(
ctx
.
device_context
()),
param
.
numel
());
*
ctx
.
Input
<
framework
::
Tensor
>
(
"Beta1Pow"
));
for_range
(
functor
);
auto
beta2_pow
=
framework
::
EigenVector
<
T
>::
Flatten
(
*
ctx
.
Input
<
framework
::
Tensor
>
(
"Beta2Pow"
));
auto
param_out
=
framework
::
EigenVector
<
T
>::
Flatten
(
*
param_out_tensor
);
auto
moment1_out
=
framework
::
EigenVector
<
T
>::
Flatten
(
*
moment1_out_tensor
);
auto
moment2_out
=
framework
::
EigenVector
<
T
>::
Flatten
(
*
moment2_out_tensor
);
auto
*
place
=
ctx
.
template
device_context
<
DeviceContext
>().
eigen_device
();
moment1_out
.
device
(
*
place
)
=
beta1
*
moment1
+
(
1
-
beta1
)
*
grad
;
moment2_out
.
device
(
*
place
)
=
beta2
*
moment2
+
(
1
-
beta2
)
*
grad
.
square
();
// All of these are tensors of 1 element
auto
lr_t
=
lr
*
(
1
-
beta2_pow
).
sqrt
()
/
(
1
-
beta1_pow
);
// Eigen does not support automatic broadcast
// Get dimensions of moment vector to broadcast lr_t
Eigen
::
DSizes
<
int
,
1
>
m_dsize
(
moment1_out_tensor
->
numel
());
param_out
.
device
(
*
place
)
=
param
-
lr_t
.
broadcast
(
m_dsize
)
*
(
moment1_out
/
(
moment2_out
.
sqrt
()
+
epsilon
));
}
}
};
};
...
...
paddle/platform/for_range.h
0 → 100644
浏览文件 @
ea4bdca8
/* Copyright (c) 2016 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. */
#pragma once
#include "paddle/platform/device_context.h"
namespace
paddle
{
namespace
platform
{
template
<
typename
DeviceContext
>
struct
ForRange
{
ForRange
(
const
DeviceContext
&
dev_ctx
,
size_t
limit
);
template
<
typename
Function
>
void
operator
()(
Function
func
)
const
;
};
template
<
>
struct
ForRange
<
CPUDeviceContext
>
{
ForRange
(
const
CPUDeviceContext
&
dev_ctx
,
size_t
limit
)
:
limit_
(
limit
)
{}
template
<
typename
Function
>
void
operator
()(
Function
func
)
const
{
for
(
size_t
i
=
0
;
i
<
limit_
;
++
i
)
{
func
(
i
);
}
}
size_t
limit_
;
};
#ifdef __NVCC__
template
<
typename
Function
>
__global__
static
void
ForRangeElemwiseOpGridIsOne
(
Function
func
)
{
size_t
idx
=
static_cast
<
size_t
>
(
threadIdx
.
x
);
func
(
idx
);
}
template
<
typename
Function
>
__global__
static
void
ForRangeElemwiseOp
(
Function
func
,
int
limit
)
{
size_t
idx
=
static_cast
<
size_t
>
(
blockIdx
.
x
*
blockDim
.
x
+
threadIdx
.
x
);
if
(
idx
<
limit
)
{
func
(
idx
);
}
}
template
<
>
struct
ForRange
<
CUDADeviceContext
>
{
ForRange
(
const
CUDADeviceContext
&
dev_ctx
,
size_t
limit
)
:
dev_ctx_
(
dev_ctx
),
limit_
(
static_cast
<
int
>
(
limit
))
{}
template
<
typename
Function
>
inline
void
operator
()(
Function
func
)
const
{
constexpr
size_t
num_threads
=
1024
;
int
block_size
=
limit_
<=
num_threads
?
limit_
:
num_threads
;
int
grid_size
=
(
limit_
+
num_threads
-
1
)
/
num_threads
;
if
(
grid_size
==
1
)
{
ForRangeElemwiseOpGridIsOne
<<<
1
,
block_size
,
0
,
dev_ctx_
.
stream
()
>>>
(
func
);
}
else
{
ForRangeElemwiseOp
<<<
grid_size
,
block_size
,
0
,
dev_ctx_
.
stream
()
>>>
(
func
,
limit_
);
}
}
const
CUDADeviceContext
&
dev_ctx_
;
int
limit_
;
};
#endif
}
// namespace platform
}
// namespace paddle
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