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c50c5377
编写于
8月 10, 2018
作者:
S
sneaxiy
浏览文件
操作
浏览文件
下载
差异文件
fix arithmetic error in backward kernel
上级
01088368
2ab122a5
变更
2
隐藏空白更改
内联
并排
Showing
2 changed file
with
153 addition
and
59 deletion
+153
-59
paddle/fluid/operators/CMakeLists.txt
paddle/fluid/operators/CMakeLists.txt
+1
-1
paddle/fluid/operators/layer_norm_op.cu
paddle/fluid/operators/layer_norm_op.cu
+152
-58
未找到文件。
paddle/fluid/operators/CMakeLists.txt
浏览文件 @
c50c5377
...
...
@@ -273,9 +273,9 @@ op_library(squeeze_op DEPS reshape_op)
op_library
(
extract_rows_op DEPS memory
)
op_library
(
flatten_op DEPS reshape_op
)
if
(
WITH_GPU
)
op_library
(
conv_op DEPS vol2col depthwise_conv im2col
)
op_library
(
layer_norm_op DEPS cub
)
else
()
op_library
(
conv_op DEPS vol2col im2col
)
endif
()
...
...
paddle/fluid/operators/layer_norm_op.cu
浏览文件 @
c50c5377
...
...
@@ -45,38 +45,55 @@ inline static int GetDesiredBlockDim(int block_dim) {
static
__device__
__forceinline__
float
real_sqrt
(
float
x
)
{
return
sqrtf
(
x
);
}
static
__device__
__forceinline__
double
real_sqrt
(
double
x
)
{
return
sqrt
(
x
);
}
template
<
typename
T
>
struct
PairForLayerNorm
{
__device__
__forceinline__
PairForLayerNorm
()
{}
__device__
__forceinline__
PairForLayerNorm
(
const
T
&
first
,
const
T
&
second
)
:
first_
(
first
),
second_
(
second
)
{}
T
first_
;
T
second_
;
};
template
<
typename
T
>
struct
PairForLayerNormAddFunctor
{
__device__
__forceinline__
PairForLayerNorm
<
T
>
operator
()(
const
PairForLayerNorm
<
T
>
&
p1
,
const
PairForLayerNorm
<
T
>
&
p2
)
{
return
PairForLayerNorm
<
T
>
(
p1
.
first_
+
p2
.
first_
,
p1
.
second_
+
p2
.
second_
);
}
};
template
<
typename
T
,
int
BlockDim
>
__global__
void
LayerNormForward
(
const
T
*
x
,
const
T
*
scale
,
const
T
*
bias
,
T
*
y
,
T
*
mean
,
T
*
var
,
float
epsilon
,
int
feature_size
)
{
using
BlockReduce
=
cub
::
BlockReduce
<
T
,
BlockDim
>
;
using
BlockReduce
=
cub
::
BlockReduce
<
PairForLayerNorm
<
T
>
,
BlockDim
>
;
__shared__
typename
BlockReduce
::
TempStorage
temp_storage
;
int
beg_idx
=
blockIdx
.
x
*
feature_size
+
threadIdx
.
x
;
int
end_idx
=
(
blockIdx
.
x
+
1
)
*
feature_size
;
// Step 1: Reduce to calculate mean
// Step 1: Reduce to calculate mean
and var
T
mean_val
=
static_cast
<
T
>
(
0
);
for
(
int
i
=
beg_idx
;
i
<
end_idx
;
i
+=
BlockDim
)
{
mean_val
+=
x
[
i
];
}
mean_val
=
BlockReduce
(
temp_storage
).
Reduce
(
mean_val
,
cub
::
Sum
());
if
(
threadIdx
.
x
==
0
)
mean
[
blockIdx
.
x
]
=
mean_val
/
feature_size
;
__syncthreads
();
mean_val
=
mean
[
blockIdx
.
x
];
// Step 2: Reduce to calculate var
T
var_val
=
static_cast
<
T
>
(
0
);
for
(
int
i
=
beg_idx
;
i
<
end_idx
;
i
+=
BlockDim
)
{
T
tmp
=
x
[
i
]
-
mean_val
;
T
tmp
=
x
[
i
];
mean_val
+=
tmp
;
var_val
+=
(
tmp
*
tmp
);
}
var_val
=
BlockReduce
(
temp_storage
).
Reduce
(
var_val
,
cub
::
Sum
());
if
(
threadIdx
.
x
==
0
)
var
[
blockIdx
.
x
]
=
var_val
/
feature_size
;
auto
pair
=
BlockReduce
(
temp_storage
)
.
Reduce
(
PairForLayerNorm
<
T
>
(
mean_val
,
var_val
),
PairForLayerNormAddFunctor
<
T
>
());
if
(
threadIdx
.
x
==
0
)
{
auto
tmp
=
pair
.
first_
/
feature_size
;
mean
[
blockIdx
.
x
]
=
tmp
;
var
[
blockIdx
.
x
]
=
pair
.
second_
/
feature_size
-
tmp
*
tmp
;
}
__syncthreads
();
mean_val
=
mean
[
blockIdx
.
x
];
var_val
=
static_cast
<
T
>
(
real_sqrt
(
var
[
blockIdx
.
x
]
+
epsilon
));
// Step
3
: Calculate y
// Step
2
: Calculate y
if
(
scale
!=
nullptr
)
{
if
(
bias
!=
nullptr
)
{
for
(
int
i
=
beg_idx
,
j
=
threadIdx
.
x
;
i
<
end_idx
;
...
...
@@ -104,27 +121,6 @@ __global__ void LayerNormForward(const T *x, const T *scale, const T *bias,
}
}
template
<
typename
T
>
struct
PairForLayerNormBackward
{
__device__
__forceinline__
PairForLayerNormBackward
()
{}
__device__
__forceinline__
PairForLayerNormBackward
(
const
T
&
first
,
const
T
&
second
)
:
first_
(
first
),
second_
(
second
)
{}
T
first_
;
T
second_
;
};
template
<
typename
T
>
struct
PairForLayerNormBackwardAddFunctor
{
__device__
__forceinline__
PairForLayerNormBackward
<
T
>
operator
()(
const
PairForLayerNormBackward
<
T
>
&
p1
,
const
PairForLayerNormBackward
<
T
>
&
p2
)
{
return
PairForLayerNormBackward
<
T
>
(
p1
.
first_
+
p2
.
first_
,
p1
.
second_
+
p2
.
second_
);
}
};
// Make sure that d_scale != nullptr && d_bias != nullptr
// Since d_scale != nullptr, scale would not be nullptr
template
<
typename
T
,
int
BlockDim
,
bool
HasDx
>
...
...
@@ -133,12 +129,13 @@ __global__ void LayerNormBackwardGradientAll(const T *x, const T *d_y,
const
T
*
mean
,
const
T
*
var
,
const
T
*
scale
,
float
epsilon
,
int
batch_size
,
int
feature_size
)
{
using
BlockReduce
=
cub
::
BlockReduce
<
PairForLayerNorm
Backward
<
T
>
,
BlockDim
>
;
using
BlockReduce
=
cub
::
BlockReduce
<
PairForLayerNorm
<
T
>
,
BlockDim
>
;
__shared__
typename
BlockReduce
::
TempStorage
temp_storage
;
int
beg_idx
=
threadIdx
.
x
*
feature_size
+
blockIdx
.
x
;
int
end_idx
=
batch_size
*
feature_size
+
blockIdx
.
x
;
int
stride
=
BlockDim
*
feature_size
;
T
d_scale_partial
=
0
,
d_bias_partial
=
0
;
for
(
int
i
=
beg_idx
;
i
<
end_idx
;
i
+=
stride
)
{
...
...
@@ -146,13 +143,14 @@ __global__ void LayerNormBackwardGradientAll(const T *x, const T *d_y,
auto
var_val
=
static_cast
<
T
>
(
real_sqrt
(
var
[
row_idx
]
+
epsilon
));
d_scale_partial
+=
d_y
[
i
]
*
(
x
[
i
]
-
mean
[
row_idx
])
/
var_val
;
d_bias_partial
+=
d_y
[
i
];
if
(
HasDx
)
d_x
[
i
]
=
d_y
[
i
]
*
scale
[
blockIdx
.
x
]
/
var_val
;
if
(
HasDx
)
{
d_x
[
i
]
=
d_y
[
i
]
*
scale
[
blockIdx
.
x
]
/
var_val
;
}
}
auto
pair
=
BlockReduce
(
temp_storage
)
.
Reduce
(
PairForLayerNormBackward
<
T
>
(
d_scale_partial
,
d_bias_partial
),
PairForLayerNormBackwardAddFunctor
<
T
>
());
auto
pair
=
BlockReduce
(
temp_storage
)
.
Reduce
(
PairForLayerNorm
<
T
>
(
d_scale_partial
,
d_bias_partial
),
PairForLayerNormAddFunctor
<
T
>
());
if
(
threadIdx
.
x
==
0
)
{
d_scale
[
blockIdx
.
x
]
=
pair
.
first_
;
...
...
@@ -205,22 +203,90 @@ __global__ void LayerNormBackwardGradientScaleOrBias(
}
}
template
<
typename
T
,
int
BlockDim
>
__global__
void
LayerNormBackwardPostProcessToCalculateDX
(
const
T
*
x
,
T
*
d_x
,
const
T
*
mean
,
const
T
*
var
,
float
epsilon
,
int
feature_size
)
{
using
BlockReduce
=
cub
::
BlockReduce
<
PairForLayerNorm
<
T
>
,
BlockDim
>
;
__shared__
typename
BlockReduce
::
TempStorage
temp_storage
;
__shared__
T
d_x_reduce_tmp
[
2
];
int
beg_idx
=
blockIdx
.
x
*
feature_size
+
threadIdx
.
x
;
int
end_idx
=
(
blockIdx
.
x
+
1
)
*
feature_size
;
T
block_mean
=
mean
[
blockIdx
.
x
];
T
block_var
=
var
[
blockIdx
.
x
];
T
d_x_mean_partial
=
0
,
d_x_var_partial
=
0
;
for
(
int
i
=
beg_idx
;
i
<
end_idx
;
i
+=
BlockDim
)
{
d_x_mean_partial
+=
d_x
[
i
];
d_x_var_partial
+=
d_x
[
i
]
*
(
x
[
i
]
-
block_mean
);
}
auto
pair
=
BlockReduce
(
temp_storage
)
.
Reduce
(
PairForLayerNorm
<
T
>
(
d_x_mean_partial
,
d_x_var_partial
),
PairForLayerNormAddFunctor
<
T
>
());
if
(
threadIdx
.
x
==
0
)
{
d_x_reduce_tmp
[
0
]
=
pair
.
first_
/
feature_size
;
d_x_reduce_tmp
[
1
]
=
pair
.
second_
/
(
feature_size
*
(
block_var
+
epsilon
));
}
__syncthreads
();
d_x_mean_partial
=
d_x_reduce_tmp
[
0
];
d_x_var_partial
=
d_x_reduce_tmp
[
1
];
for
(
int
i
=
beg_idx
;
i
<
end_idx
;
i
+=
BlockDim
)
{
d_x
[
i
]
-=
d_x_mean_partial
;
d_x
[
i
]
-=
(
x
[
i
]
-
block_mean
)
*
d_x_var_partial
;
}
}
// Here, we only calculate d_x
template
<
typename
T
>
__global__
void
LayerNormBackwardGradientOnlyX
(
const
T
*
d_y
,
T
*
d_x
,
const
T
*
var
,
const
T
*
scale
,
float
epsilon
,
int
batch_size
,
int
feature_size
)
{
int
idx
=
threadIdx
.
x
+
blockIdx
.
x
*
blockDim
.
x
;
if
(
idx
<
batch_size
*
feature_size
)
{
int
row_idx
=
idx
/
feature_size
;
auto
var_val
=
static_cast
<
T
>
(
real_sqrt
(
var
[
row_idx
]
+
epsilon
));
template
<
typename
T
,
int
BlockDim
>
__global__
void
LayerNormBackwardGradientOnlyDX
(
const
T
*
x
,
const
T
*
d_y
,
T
*
d_x
,
const
T
*
mean
,
const
T
*
var
,
const
T
*
scale
,
float
epsilon
,
int
feature_size
)
{
using
BlockReduce
=
cub
::
BlockReduce
<
PairForLayerNorm
<
T
>
,
BlockDim
>
;
__shared__
typename
BlockReduce
::
TempStorage
temp_storage
;
__shared__
T
d_x_reduce_tmp
[
2
];
int
beg_idx
=
blockIdx
.
x
*
feature_size
+
threadIdx
.
x
;
int
end_idx
=
(
blockIdx
.
x
+
1
)
*
feature_size
;
T
block_mean
=
mean
[
blockIdx
.
x
],
block_var
=
var
[
blockIdx
.
x
];
T
d_x_mean_partial
=
0
,
d_x_var_partial
=
0
;
for
(
int
i
=
beg_idx
;
i
<
end_idx
;
i
+=
BlockDim
)
{
auto
var_val
=
static_cast
<
T
>
(
real_sqrt
(
block_var
+
epsilon
));
if
(
scale
!=
nullptr
)
{
int
col_idx
=
i
dx
%
feature_size
;
d_x
[
i
dx
]
=
d_y
[
idx
]
*
scale
[
col_idx
]
/
var_val
;
int
col_idx
=
i
%
feature_size
;
d_x
[
i
]
=
d_y
[
i
]
*
scale
[
col_idx
]
/
var_val
;
}
else
{
d_x
[
i
dx
]
=
d_y
[
idx
]
/
var_val
;
d_x
[
i
]
=
d_y
[
i
]
/
var_val
;
}
d_x_mean_partial
+=
d_x
[
i
];
d_x_var_partial
+=
d_x
[
i
]
*
(
x
[
i
]
-
block_mean
);
}
auto
pair
=
BlockReduce
(
temp_storage
)
.
Reduce
(
PairForLayerNorm
<
T
>
(
d_x_mean_partial
,
d_x_var_partial
),
PairForLayerNormAddFunctor
<
T
>
());
if
(
threadIdx
.
x
==
0
)
{
d_x_reduce_tmp
[
0
]
=
pair
.
first_
/
feature_size
;
d_x_reduce_tmp
[
1
]
=
pair
.
second_
/
(
feature_size
*
(
block_var
+
epsilon
));
}
__syncthreads
();
d_x_mean_partial
=
d_x_reduce_tmp
[
0
];
d_x_var_partial
=
d_x_reduce_tmp
[
1
];
for
(
int
i
=
beg_idx
;
i
<
end_idx
;
i
+=
BlockDim
)
{
d_x
[
i
]
-=
d_x_mean_partial
;
d_x
[
i
]
-=
(
x
[
i
]
-
block_mean
)
*
d_x_var_partial
;
}
}
...
...
@@ -263,6 +329,14 @@ static void LayerNormBackward(const T *x, const T *d_y, const T *scale,
T
><<<
(
feature_size
+
kMaxBlockDim
-
1
)
/
kMaxBlockDim
,
kMaxBlockDim
,
0
,
stream
>>>
(
x
,
d_y
,
d_x
,
d_scale
,
d_bias
,
mean
,
var
,
scale
,
epsilon
,
feature_size
);
if
(
d_x
!=
nullptr
)
{
switch
(
GetDesiredBlockDim
(
feature_size
))
{
FIXED_BLOCK_DIM_CASE
(
LayerNormBackwardPostProcessToCalculateDX
<
T
,
kBlockDim
><<<
1
,
kBlockDim
,
0
,
stream
>>>
(
x
,
d_x
,
mean
,
var
,
epsilon
,
feature_size
));
}
}
return
;
}
...
...
@@ -296,10 +370,12 @@ static void LayerNormBackward(const T *x, const T *d_y, const T *scale,
}
break
;
case
4
:
// d_x != nullptr, d_scale == nullptr, d_bias == nullptr
LayerNormBackwardGradientOnlyX
<
T
><<<
(
batch_size
*
feature_size
+
kMaxBlockDim
-
1
)
/
kMaxBlockDim
,
kMaxBlockDim
,
0
,
stream
>>>
(
d_y
,
d_x
,
var
,
scale
,
epsilon
,
batch_size
,
feature_size
);
switch
(
GetDesiredBlockDim
(
feature_size
))
{
FIXED_BLOCK_DIM_CASE
(
LayerNormBackwardGradientOnlyDX
<
T
,
kBlockDim
><<<
batch_size
,
kBlockDim
,
0
,
stream
>>>
(
x
,
d_y
,
d_x
,
mean
,
var
,
scale
,
epsilon
,
feature_size
));
}
break
;
case
5
:
// d_x != nulptr, d_scale == nullptr, d_bias != nullptr
switch
(
block_dim
)
{
...
...
@@ -309,6 +385,12 @@ static void LayerNormBackward(const T *x, const T *d_y, const T *scale,
x
,
d_y
,
d_scale
,
d_bias
,
d_x
,
mean
,
var
,
scale
,
epsilon
,
batch_size
,
feature_size
));
}
switch
(
GetDesiredBlockDim
(
feature_size
))
{
FIXED_BLOCK_DIM_CASE
(
LayerNormBackwardPostProcessToCalculateDX
<
T
,
kBlockDim
><<<
batch_size
,
kBlockDim
,
0
,
stream
>>>
(
x
,
d_x
,
mean
,
var
,
epsilon
,
feature_size
));
}
break
;
case
6
:
// d_x != nullptr, d_scale != nullptr, d_bias == nullptr
switch
(
block_dim
)
{
...
...
@@ -318,6 +400,12 @@ static void LayerNormBackward(const T *x, const T *d_y, const T *scale,
x
,
d_y
,
d_scale
,
d_bias
,
d_x
,
mean
,
var
,
scale
,
epsilon
,
batch_size
,
feature_size
));
}
switch
(
GetDesiredBlockDim
(
feature_size
))
{
FIXED_BLOCK_DIM_CASE
(
LayerNormBackwardPostProcessToCalculateDX
<
T
,
kBlockDim
><<<
batch_size
,
kBlockDim
,
0
,
stream
>>>
(
x
,
d_x
,
mean
,
var
,
epsilon
,
feature_size
));
}
break
;
case
7
:
// d_x != nullptr, d_scale != nullptr, d_bias != nullptr
switch
(
block_dim
)
{
...
...
@@ -327,6 +415,12 @@ static void LayerNormBackward(const T *x, const T *d_y, const T *scale,
x
,
d_y
,
d_scale
,
d_bias
,
d_x
,
mean
,
var
,
scale
,
epsilon
,
batch_size
,
feature_size
));
}
switch
(
GetDesiredBlockDim
(
feature_size
))
{
FIXED_BLOCK_DIM_CASE
(
LayerNormBackwardPostProcessToCalculateDX
<
T
,
kBlockDim
><<<
batch_size
,
kBlockDim
,
0
,
stream
>>>
(
x
,
d_x
,
mean
,
var
,
epsilon
,
feature_size
));
}
break
;
default:
break
;
...
...
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