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d7f4599d
编写于
7月 06, 2022
作者:
L
LiYuRio
提交者:
GitHub
7月 06, 2022
浏览文件
操作
浏览文件
下载
电子邮件补丁
差异文件
Fix nan in fused multi transformer (#44093)
上级
54a9daf2
变更
2
显示空白变更内容
内联
并排
Showing
2 changed file
with
64 addition
and
7 deletion
+64
-7
paddle/fluid/distributed/store/tcp_store.cc
paddle/fluid/distributed/store/tcp_store.cc
+4
-1
paddle/fluid/operators/fused/fused_multi_transformer_op.cu
paddle/fluid/operators/fused/fused_multi_transformer_op.cu
+60
-6
未找到文件。
paddle/fluid/distributed/store/tcp_store.cc
浏览文件 @
d7f4599d
...
...
@@ -125,7 +125,10 @@ void MasterDaemon::CloseControlFd() {
void
MasterDaemon
::
StopByControlFd
()
{
VLOG
(
4
)
<<
(
"begin to run StopByControlFd"
);
if
(
_control_fd
[
1
]
!=
-
1
)
{
::
write
(
_control_fd
[
1
],
"
\0
"
,
1
);
PADDLE_ENFORCE_NE
(
::
write
(
_control_fd
[
1
],
"
\0
"
,
1
),
-
1
,
platform
::
errors
::
Fatal
(
"failed to write control pipe errno:%d"
,
errno
));
// close the write end of the pipe
::
close
(
_control_fd
[
1
]);
_control_fd
[
1
]
=
-
1
;
...
...
paddle/fluid/operators/fused/fused_multi_transformer_op.cu
浏览文件 @
d7f4599d
...
...
@@ -294,6 +294,52 @@ inline __device__ uint4 mul(uint4 a, uint4 b) {
return
c
;
}
template
<
>
inline
__device__
uint32_t
mul
(
uint32_t
a
,
float
b
)
{
float2
tmp
=
half2_to_float2
(
a
);
float2
tmp_res
;
tmp_res
.
x
=
tmp
.
x
*
b
;
tmp_res
.
y
=
tmp
.
y
*
b
;
uint32_t
res
=
float2_to_half2
(
tmp_res
);
return
res
;
}
template
<
>
inline
__device__
uint2
mul
(
uint2
a
,
float
b
)
{
uint2
res
;
res
.
x
=
mul
<
uint32_t
,
uint32_t
,
float
>
(
a
.
x
,
b
);
res
.
y
=
mul
<
uint32_t
,
uint32_t
,
float
>
(
a
.
y
,
b
);
return
res
;
}
template
<
>
inline
__device__
uint4
mul
(
uint4
a
,
float
b
)
{
uint4
res
;
res
.
x
=
mul
<
uint32_t
,
uint32_t
,
float
>
(
a
.
x
,
b
);
res
.
y
=
mul
<
uint32_t
,
uint32_t
,
float
>
(
a
.
y
,
b
);
res
.
z
=
mul
<
uint32_t
,
uint32_t
,
float
>
(
a
.
z
,
b
);
res
.
w
=
mul
<
uint32_t
,
uint32_t
,
float
>
(
a
.
w
,
b
);
return
res
;
}
template
<
>
inline
__device__
float2
mul
(
float2
a
,
float
b
)
{
float2
res
;
res
.
x
=
a
.
x
*
b
;
res
.
y
=
a
.
y
*
b
;
return
res
;
}
template
<
>
inline
__device__
float4
mul
(
float4
a
,
float
b
)
{
float4
res
;
res
.
x
=
a
.
x
*
b
;
res
.
y
=
a
.
y
*
b
;
res
.
z
=
a
.
z
*
b
;
res
.
w
=
a
.
w
*
b
;
return
res
;
}
inline
__device__
float
sum
(
float
v
)
{
return
v
;
}
inline
__device__
float
sum
(
float2
v
)
{
return
v
.
x
+
v
.
y
;
}
inline
__device__
float
sum
(
float4
v
)
{
return
v
.
x
+
v
.
y
+
v
.
z
+
v
.
w
;
}
...
...
@@ -445,11 +491,15 @@ inline __device__ Float8_ cast_to_float(uint4 u) {
}
template
<
int
THREADS_PER_KEY
,
typename
K_vec
,
int
N
>
inline
__device__
float
qk_dot_
(
const
K_vec
(
&
q
)[
N
],
const
K_vec
(
&
k
)[
N
])
{
K_vec
qk_vec
=
mul
<
K_vec
,
K_vec
,
K_vec
>
(
q
[
0
],
k
[
0
]);
inline
__device__
float
qk_dot_
(
const
K_vec
(
&
q
)[
N
],
const
K_vec
(
&
k
)[
N
],
float
inv_sqrt_dh
)
{
K_vec
inv_q
=
mul
<
K_vec
,
K_vec
,
float
>
(
q
[
0
],
inv_sqrt_dh
);
K_vec
qk_vec
=
mul
<
K_vec
,
K_vec
,
K_vec
>
(
inv_q
,
k
[
0
]);
#pragma unroll
for
(
int
ii
=
1
;
ii
<
N
;
++
ii
)
{
qk_vec
=
fma
(
q
[
ii
],
k
[
ii
],
qk_vec
);
inv_q
=
mul
<
K_vec
,
K_vec
,
float
>
(
q
[
ii
],
inv_sqrt_dh
);
qk_vec
=
fma
(
inv_q
,
k
[
ii
],
qk_vec
);
}
float
qk
=
sum
(
qk_vec
);
...
...
@@ -463,8 +513,10 @@ inline __device__ float qk_dot_(const K_vec (&q)[N], const K_vec (&k)[N]) {
template
<
typename
T
,
int
THREADS_PER_KEY
>
struct
Qk_dot
{
template
<
typename
K_vec
,
int
N
>
static
inline
__device__
float
dot
(
const
K_vec
(
&
q
)[
N
],
const
K_vec
(
&
k
)[
N
])
{
return
qk_dot_
<
THREADS_PER_KEY
>
(
q
,
k
);
static
inline
__device__
float
dot
(
const
K_vec
(
&
q
)[
N
],
const
K_vec
(
&
k
)[
N
],
float
inv_sqrt_dh
)
{
return
qk_dot_
<
THREADS_PER_KEY
>
(
q
,
k
,
inv_sqrt_dh
);
}
};
...
...
@@ -706,7 +758,9 @@ __global__ void masked_multihead_attention_kernel(
}
}
float
qk
=
Qk_dot
<
T
,
THREADS_PER_KEY
>::
dot
(
q
,
k
)
*
params
.
inv_sqrt_dh
;
// NOTE(liyurui): We should multiple q with inv_sqrt_dh first, for dot(q, k)
// may overflow with FP16 in large model.
float
qk
=
Qk_dot
<
T
,
THREADS_PER_KEY
>::
dot
(
q
,
k
,
params
.
inv_sqrt_dh
);
// bool is_mask = false;
if
(
ti
<
params
.
timestep
&&
tid
%
THREADS_PER_KEY
==
0
)
{
...
...
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