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9012787f
编写于
9月 29, 2022
作者:
C
carryyu
提交者:
GitHub
9月 29, 2022
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电子邮件补丁
差异文件
Optimize softmax's performance when dim_size >= 100000. (#46535)
上级
7057093e
变更
1
显示空白变更内容
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Showing
1 changed file
with
235 addition
and
1 deletion
+235
-1
paddle/phi/kernels/gpudnn/softmax_gpudnn.h
paddle/phi/kernels/gpudnn/softmax_gpudnn.h
+235
-1
未找到文件。
paddle/phi/kernels/gpudnn/softmax_gpudnn.h
浏览文件 @
9012787f
...
...
@@ -19,6 +19,7 @@ limitations under the License. */
#include "paddle/phi/common/bfloat16.h"
#include "paddle/phi/common/float16.h"
#include "paddle/phi/core/dense_tensor.h"
#include "paddle/phi/kernels/funcs/aligned_vector.h"
#include "paddle/phi/kernels/funcs/axis_utils.h"
#include "paddle/phi/kernels/primitive/kernel_primitives.h"
...
...
@@ -26,6 +27,32 @@ limitations under the License. */
#include "paddle/fluid/platform/device/gpu/gpu_device_function.h"
#include "paddle/fluid/platform/device/gpu/gpu_dnn.h"
#define MATRIX_SOFTMAX_ALIGN_BYTES 16
#define MATRIX_SOFTMAX_THREAHOLD 100000
#define FIXED_BLOCK_DIM_BASE(dim, ...) \
case (dim): { \
constexpr auto kBlockDim = (dim); \
__VA_ARGS__; \
} break
#define FIXED_VEC_SIZE_BASE(vec_size, ...) \
case (vec_size): { \
constexpr auto VecSize = (vec_size); \
__VA_ARGS__; \
} break
#define FIXED_BLOCK_DIM(...) \
FIXED_BLOCK_DIM_BASE(512, ##__VA_ARGS__); \
FIXED_BLOCK_DIM_BASE(256, ##__VA_ARGS__); \
FIXED_BLOCK_DIM_BASE(128, ##__VA_ARGS__); \
FIXED_BLOCK_DIM_BASE(64, ##__VA_ARGS__); \
FIXED_BLOCK_DIM_BASE(32, ##__VA_ARGS__)
#define FIXED_VEC_SIZE(...) \
FIXED_VEC_SIZE_BASE(8, ##__VA_ARGS__); \
FIXED_VEC_SIZE_BASE(4, ##__VA_ARGS__)
namespace
phi
{
using
ScopedTensorDescriptor
=
paddle
::
platform
::
ScopedTensorDescriptor
;
...
...
@@ -85,6 +112,20 @@ static inline int Log2Ceil(int value) {
return
log2_value
;
}
inline
int
getBlockSize
(
int
vec_size
,
uint64_t
dim_size
)
{
uint64_t
block_size
=
1
;
uint64_t
max_block_size
=
std
::
min
(
dim_size
/
vec_size
,
static_cast
<
uint64_t
>
(
1024
));
if
(
vec_size
>
1
)
{
max_block_size
/=
2
;
}
while
(
block_size
<
(
max_block_size
))
block_size
*=
2
;
block_size
=
std
::
max
(
block_size
,
static_cast
<
uint64_t
>
(
32
));
return
block_size
;
}
template
<
typename
T
,
int
BatchSize
,
int
WarpSize
>
__device__
__forceinline__
void
WarpReduceSum
(
T
*
sum
)
{
#pragma unroll
...
...
@@ -111,6 +152,41 @@ __device__ __forceinline__ void WarpReduceMax(T* sum) {
}
}
template
<
typename
T
>
__inline__
__device__
void
BlockReduceMax
(
T
*
val
)
{
static
__shared__
T
shared
[
32
];
int
lane
=
threadIdx
.
x
&
0x1f
;
int
wid
=
threadIdx
.
x
>>
5
;
WarpReduceMax
<
T
,
1
,
32
>
(
val
);
if
(
lane
==
0
)
shared
[
wid
]
=
*
val
;
__syncthreads
();
int
block_span
=
(
blockDim
.
x
+
warpSize
-
1
)
>>
5
;
*
val
=
(
lane
<
block_span
)
?
shared
[
lane
]
:
-
1e10
f
;
WarpReduceMax
<
T
,
1
,
32
>
(
val
);
}
template
<
typename
T
>
__inline__
__device__
void
BlockReduceSum
(
T
*
val
)
{
static
__shared__
T
shared
[
32
];
int
lane
=
threadIdx
.
x
&
0x1f
;
int
wid
=
threadIdx
.
x
>>
5
;
WarpReduceSum
<
T
,
1
,
32
>
(
val
);
__syncthreads
();
if
(
lane
==
0
)
shared
[
wid
]
=
*
val
;
__syncthreads
();
int
block_span
=
(
blockDim
.
x
+
warpSize
-
1
)
>>
5
;
*
val
=
(
lane
<
block_span
)
?
shared
[
lane
]
:
static_cast
<
T
>
(
0.0
f
);
WarpReduceSum
<
T
,
1
,
32
>
(
val
);
}
template
<
typename
Tx
,
typename
Ty
=
Tx
>
struct
ReduceMaxFunctor
{
inline
Ty
initial
()
{
return
-
std
::
numeric_limits
<
Ty
>::
infinity
();
}
...
...
@@ -120,6 +196,14 @@ struct ReduceMaxFunctor {
}
};
template
<
typename
T
,
typename
AccT
>
struct
MaxFunctor
{
__device__
__forceinline__
AccT
operator
()(
const
AccT
&
max_v
,
const
T
&
v
)
const
{
return
max
(
max_v
,
static_cast
<
AccT
>
(
v
));
}
};
template
<
typename
Tx
,
typename
Ty
=
Tx
>
struct
ExpFunctor
{
HOSTDEVICE
inline
Ty
operator
()(
const
Tx
&
x
)
const
{
...
...
@@ -245,6 +329,126 @@ struct LogSoftmaxBackwardFunctor {
Tx
sum
;
};
template
<
typename
T
,
typename
AccT
>
struct
SumExpFunctor
{
HOSTDEVICE
inline
SumExpFunctor
(
AccT
v
)
:
max_v
(
v
)
{}
HOSTDEVICE
inline
AccT
operator
()(
AccT
sum
,
T
v
)
const
{
return
sum
+
std
::
exp
(
static_cast
<
AccT
>
(
v
)
-
max_v
);
}
private:
AccT
max_v
;
};
template
<
template
<
typename
,
typename
>
class
Reduction
,
typename
T
,
typename
AccT
,
int
VecSize
>
__device__
__forceinline__
AccT
ThreadVecReduce
(
const
T
*
data
,
int
dim_size
,
const
Reduction
<
T
,
AccT
>&
functor
,
AccT
default_value
)
{
using
VecT
=
phi
::
AlignedVector
<
T
,
VecSize
>
;
AccT
thread_val
=
default_value
;
const
int
last
=
dim_size
%
(
VecSize
*
blockDim
.
x
);
T
v
[
VecSize
];
VecT
*
value
=
reinterpret_cast
<
VecT
*>
(
&
v
);
for
(
int
offset
=
threadIdx
.
x
;
offset
*
VecSize
<
dim_size
-
last
;
offset
+=
blockDim
.
x
)
{
*
value
=
reinterpret_cast
<
VecT
*>
(
const_cast
<
T
*>
(
data
))[
offset
];
#pragma unroll
for
(
int
i
=
0
;
i
<
VecSize
;
i
++
)
{
thread_val
=
functor
(
thread_val
,
v
[
i
]);
}
}
for
(
int
offset
=
dim_size
-
last
+
threadIdx
.
x
;
offset
<
dim_size
;
offset
+=
blockDim
.
x
)
{
thread_val
=
functor
(
thread_val
,
data
[
offset
]);
}
return
thread_val
;
}
template
<
template
<
typename
,
typename
>
class
Reduction
,
typename
T
,
typename
AccT
,
int
VecSize
>
__device__
__forceinline__
void
ThreadVecWrite
(
T
*
out
,
const
T
*
input
,
int
dim_size
,
Reduction
<
AccT
,
T
>
functor
)
{
using
VecT
=
phi
::
AlignedVector
<
T
,
VecSize
>
;
const
int
last
=
dim_size
%
(
VecSize
*
blockDim
.
x
);
T
in_v
[
VecSize
];
VecT
*
in_value
=
reinterpret_cast
<
VecT
*>
(
&
in_v
);
T
out_v
[
VecSize
];
VecT
*
out_value
=
reinterpret_cast
<
VecT
*>
(
&
out_v
);
for
(
int
offset
=
threadIdx
.
x
;
offset
*
VecSize
<
dim_size
-
last
;
offset
+=
blockDim
.
x
)
{
*
in_value
=
reinterpret_cast
<
VecT
*>
(
const_cast
<
T
*>
(
input
))[
offset
];
#pragma unroll
for
(
int
i
=
0
;
i
<
VecSize
;
i
++
)
{
out_v
[
i
]
=
functor
(
static_cast
<
AccT
>
(
in_v
[
i
]));
}
reinterpret_cast
<
VecT
*>
(
out
)[
offset
]
=
*
out_value
;
}
for
(
int
offset
=
dim_size
-
last
+
threadIdx
.
x
;
offset
<
dim_size
;
offset
+=
blockDim
.
x
)
{
out
[
offset
]
=
functor
(
static_cast
<
AccT
>
(
input
[
offset
]));
}
}
template
<
typename
T
,
typename
AccT
,
typename
IndexType
,
int
BatchSize
,
int
VecSize
,
bool
LogMode
=
false
>
__global__
void
KeMatrixSoftmaxForward
(
T
*
softmax
,
const
T
*
src
,
int
dim_size
)
{
using
VecT
=
phi
::
AlignedVector
<
T
,
VecSize
>
;
int
bid
=
blockIdx
.
x
;
const
T
*
batch_input
=
src
+
bid
*
dim_size
;
T
*
batch_output
=
softmax
+
bid
*
dim_size
;
// get max value
AccT
thread_max
=
ThreadVecReduce
<
MaxFunctor
,
T
,
AccT
,
VecSize
>
(
batch_input
,
dim_size
,
MaxFunctor
<
T
,
AccT
>
(),
std
::
numeric_limits
<
AccT
>::
min
());
BlockReduceMax
<
AccT
>
(
&
thread_max
);
// get exp value and sum all
AccT
thread_exp
=
ThreadVecReduce
<
SumExpFunctor
,
T
,
AccT
,
VecSize
>
(
batch_input
,
dim_size
,
SumExpFunctor
<
T
,
AccT
>
(
thread_max
),
static_cast
<
AccT
>
(
0.
));
BlockReduceSum
<
AccT
>
(
&
thread_exp
);
// write data to softmax_output according to the LogMode
if
(
LogMode
)
{
LogSoftmaxForwardFunctor
<
AccT
,
T
>
reduction
(
thread_max
,
std
::
log
(
thread_exp
));
ThreadVecWrite
<
LogSoftmaxForwardFunctor
,
T
,
AccT
,
VecSize
>
(
batch_output
,
batch_input
,
dim_size
,
reduction
);
}
else
{
SoftmaxForwardFunctor
<
AccT
,
T
>
reduction
(
thread_max
,
thread_exp
);
ThreadVecWrite
<
SoftmaxForwardFunctor
,
T
,
AccT
,
VecSize
>
(
batch_output
,
batch_input
,
dim_size
,
reduction
);
}
}
/*
Core function of computing softmax forward for axis=-1.
The computation includes
...
...
@@ -927,6 +1131,30 @@ void LaunchSoftmaxBackwardCudnnKernel(const GPUContext& dev_ctx,
}
}
template
<
typename
T
,
typename
IndexType
,
bool
LogMode
>
void
LaunchKeMatrixSoftmaxForwardKernel
(
const
GPUContext
&
dev_ctx
,
T
*
out
,
const
T
*
input
,
int
N
,
int
dim_size
)
{
using
AccT
=
typename
phi
::
dtype
::
MPTypeTrait
<
T
>::
Type
;
const
int
vec_size
=
MATRIX_SOFTMAX_ALIGN_BYTES
/
sizeof
(
T
);
switch
(
getBlockSize
(
vec_size
,
dim_size
))
{
FIXED_BLOCK_DIM
(
switch
(
vec_size
)
{
FIXED_VEC_SIZE
(
KeMatrixSoftmaxForward
<
T
,
AccT
,
IndexType
,
kBlockDim
,
VecSize
,
LogMode
>
<<<
N
,
kBlockDim
,
0
,
dev_ctx
.
stream
()
>>>
(
out
,
input
,
dim_size
));
default:
break
;
});
default:
PADDLE_THROW
(
errors
::
Fatal
(
"the input dim has error in the softmax cuda kernel."
));
}
}
#if CUDNN_VERSION < 8100
template
<
>
inline
void
LaunchSoftmaxForwardCudnnKernel
<
phi
::
dtype
::
bfloat16
>
(
...
...
@@ -967,7 +1195,8 @@ bool UseCudnnSoftmax(const GPUContext& ctx,
}
constexpr
int
max_dim
=
512
;
if
(
!
cudnn_available
||
!
last_dim
||
(
softmax_dim
<=
max_dim
&&
sizeof
(
T
)
<=
4
))
{
(
softmax_dim
<=
max_dim
&&
sizeof
(
T
)
<=
4
)
||
softmax_dim
>=
MATRIX_SOFTMAX_THREAHOLD
)
{
return
false
;
}
else
{
return
true
;
...
...
@@ -991,6 +1220,11 @@ void SoftmaxForwardCUDAKernelDriverImpl(const GPUContext& dev_ctx,
if
(
D
==
1
)
{
if
(
!
UseCudnnSoftmax
<
T
>
(
dev_ctx
,
dim
,
true
))
{
if
(
dim
>=
MATRIX_SOFTMAX_THREAHOLD
)
{
LaunchKeMatrixSoftmaxForwardKernel
<
T
,
IndexType
,
LogMode
>
(
dev_ctx
,
out_data
,
x
.
data
<
T
>
(),
N
,
dim
);
return
;
}
int
dim_log2
=
static_cast
<
int
>
(
Log2Ceil
(
dim
));
IndexType
dim_ceil
=
1
<<
dim_log2
;
int
warp_size
=
(
dim_ceil
<
32
)
?
dim_ceil
:
32
;
...
...
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