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fad06cb9
编写于
3月 07, 2019
作者:
L
luotao1
浏览文件
操作
浏览文件
下载
电子邮件补丁
差异文件
unify ZeroCopy in analysis_test
上级
9be825a9
变更
3
隐藏空白更改
内联
并排
Showing
3 changed file
with
96 addition
and
69 deletion
+96
-69
paddle/fluid/inference/api/helper.h
paddle/fluid/inference/api/helper.h
+11
-4
paddle/fluid/inference/tests/api/analyzer_pyramid_dnn_tester.cc
.../fluid/inference/tests/api/analyzer_pyramid_dnn_tester.cc
+3
-0
paddle/fluid/inference/tests/api/tester_helper.h
paddle/fluid/inference/tests/api/tester_helper.h
+82
-65
未找到文件。
paddle/fluid/inference/api/helper.h
浏览文件 @
fad06cb9
...
...
@@ -127,9 +127,8 @@ static void TensorAssignData(PaddleTensor *tensor,
}
template
<
typename
T
>
static
int
ZeroCopyTensorAssignData
(
ZeroCopyTensor
*
tensor
,
const
std
::
vector
<
std
::
vector
<
T
>>
&
data
)
{
int
size
{
0
};
static
void
ZeroCopyTensorAssignData
(
ZeroCopyTensor
*
tensor
,
const
std
::
vector
<
std
::
vector
<
T
>>
&
data
)
{
auto
*
ptr
=
tensor
->
mutable_data
<
T
>
(
PaddlePlace
::
kCPU
);
int
c
=
0
;
for
(
const
auto
&
f
:
data
)
{
...
...
@@ -137,7 +136,15 @@ static int ZeroCopyTensorAssignData(ZeroCopyTensor *tensor,
ptr
[
c
++
]
=
v
;
}
}
return
size
;
}
template
<
typename
T
>
static
void
ZeroCopyTensorAssignData
(
ZeroCopyTensor
*
tensor
,
const
PaddleBuf
&
data
)
{
auto
*
ptr
=
tensor
->
mutable_data
<
T
>
(
PaddlePlace
::
kCPU
);
for
(
size_t
i
=
0
;
i
<
data
.
length
()
/
sizeof
(
T
);
i
++
)
{
ptr
[
i
]
=
*
(
reinterpret_cast
<
T
*>
(
data
.
data
())
+
i
);
}
}
static
bool
CompareTensor
(
const
PaddleTensor
&
a
,
const
PaddleTensor
&
b
)
{
...
...
paddle/fluid/inference/tests/api/analyzer_pyramid_dnn_tester.cc
浏览文件 @
fad06cb9
...
...
@@ -107,6 +107,9 @@ void SetConfig(AnalysisConfig *cfg) {
cfg
->
DisableGpu
();
cfg
->
SwitchSpecifyInputNames
();
cfg
->
SwitchIrOptim
();
if
(
FLAGS_zero_copy
)
{
cfg
->
SwitchUseFeedFetchOps
(
false
);
}
}
void
SetInput
(
std
::
vector
<
std
::
vector
<
PaddleTensor
>>
*
inputs
)
{
...
...
paddle/fluid/inference/tests/api/tester_helper.h
浏览文件 @
fad06cb9
...
...
@@ -51,6 +51,7 @@ DEFINE_bool(use_analysis, true,
DEFINE_bool
(
record_benchmark
,
false
,
"Record benchmark after profiling the model"
);
DEFINE_double
(
accuracy
,
1e-3
,
"Result Accuracy."
);
DEFINE_bool
(
zero_copy
,
false
,
"Use ZeroCopy to speedup Feed/Fetch."
);
DECLARE_bool
(
profile
);
DECLARE_int32
(
paddle_num_threads
);
...
...
@@ -198,61 +199,104 @@ void GetInputPerBatch(const std::vector<std::vector<int64_t>> &in,
}
}
void
TestOneThreadPrediction
(
const
PaddlePredictor
::
Config
*
config
,
const
std
::
vector
<
std
::
vector
<
PaddleTensor
>>
&
inputs
,
std
::
vector
<
PaddleTensor
>
*
outputs
,
bool
use_analysis
=
true
)
{
int
batch_size
=
FLAGS_batch_size
;
int
num_times
=
FLAGS_repeat
;
auto
predictor
=
CreateTestPredictor
(
config
,
use_analysis
);
void
ConvertPaddleTensorToZeroCopyTensor
(
PaddlePredictor
*
predictor
,
const
std
::
vector
<
PaddleTensor
>
&
inputs
)
{
for
(
size_t
i
=
0
;
i
<
inputs
.
size
();
i
++
)
{
auto
input
=
inputs
[
i
];
auto
tensor
=
predictor
->
GetInputTensor
(
input
.
name
);
tensor
->
Reshape
(
input
.
shape
);
tensor
->
SetLoD
({
input
.
lod
});
if
(
input
.
dtype
==
PaddleDType
::
INT64
)
{
ZeroCopyTensorAssignData
<
int64_t
>
(
tensor
.
get
(),
input
.
data
);
}
else
if
(
input
.
dtype
==
PaddleDType
::
FLOAT32
)
{
ZeroCopyTensorAssignData
<
float
>
(
tensor
.
get
(),
input
.
data
);
}
else
{
LOG
(
ERROR
)
<<
"unsupported feed type "
<<
input
.
dtype
;
}
}
}
// warmup run
LOG
(
INFO
)
<<
"Warm up run..."
;
{
Timer
warmup_timer
;
warmup_timer
.
tic
();
void
PredictionWarmUp
(
PaddlePredictor
*
predictor
,
const
std
::
vector
<
std
::
vector
<
PaddleTensor
>>
&
inputs
,
std
::
vector
<
PaddleTensor
>
*
outputs
,
int
num_threads
,
int
tid
)
{
int
batch_size
=
FLAGS_batch_size
;
LOG
(
INFO
)
<<
"Running thread "
<<
tid
<<
", warm up run..."
;
if
(
FLAGS_zero_copy
)
{
ConvertPaddleTensorToZeroCopyTensor
(
predictor
,
inputs
[
0
]);
}
Timer
warmup_timer
;
warmup_timer
.
tic
();
if
(
!
FLAGS_zero_copy
)
{
predictor
->
Run
(
inputs
[
0
],
outputs
,
batch_size
);
PrintTime
(
batch_size
,
1
,
1
,
0
,
warmup_timer
.
toc
(),
1
);
if
(
FLAGS_profile
)
{
paddle
::
platform
::
ResetProfiler
();
}
}
else
{
predictor
->
ZeroCopyRun
();
}
PrintTime
(
batch_size
,
1
,
num_threads
,
tid
,
warmup_timer
.
toc
(),
1
);
if
(
FLAGS_profile
)
{
paddle
::
platform
::
ResetProfiler
();
}
}
LOG
(
INFO
)
<<
"Run "
<<
num_times
<<
" times..."
;
{
Timer
run_timer
;
run_timer
.
tic
();
void
PredictionRun
(
PaddlePredictor
*
predictor
,
const
std
::
vector
<
std
::
vector
<
PaddleTensor
>>
&
inputs
,
std
::
vector
<
PaddleTensor
>
*
outputs
,
int
num_threads
,
int
tid
)
{
int
batch_size
=
FLAGS_batch_size
;
int
num_times
=
FLAGS_repeat
;
LOG
(
INFO
)
<<
"Thread "
<<
tid
<<
" run "
<<
num_times
<<
" times..."
;
Timer
run_timer
;
double
elapsed_time
=
0
;
#ifdef WITH_GPERFTOOLS
ProfilerStart
(
"paddle_inference.prof"
);
ProfilerStart
(
"paddle_inference.prof"
);
#endif
for
(
int
i
=
0
;
i
<
num_times
;
i
++
)
{
for
(
size_t
j
=
0
;
j
<
inputs
.
size
();
j
++
)
{
predictor
->
Run
(
inputs
[
j
],
outputs
,
batch_size
);
if
(
!
FLAGS_zero_copy
)
{
run_timer
.
tic
();
for
(
size_t
i
=
0
;
i
<
inputs
.
size
();
i
++
)
{
for
(
int
j
=
0
;
j
<
num_times
;
j
++
)
{
predictor
->
Run
(
inputs
[
i
],
outputs
,
batch_size
);
}
}
elapsed_time
=
run_timer
.
toc
();
}
else
{
for
(
size_t
i
=
0
;
i
<
inputs
.
size
();
i
++
)
{
ConvertPaddleTensorToZeroCopyTensor
(
predictor
,
inputs
[
i
]);
run_timer
.
tic
();
for
(
int
j
=
0
;
j
<
num_times
;
j
++
)
{
predictor
->
ZeroCopyRun
();
}
elapsed_time
+=
run_timer
.
toc
();
}
}
#ifdef WITH_GPERFTOOLS
ProfilerStop
();
ProfilerStop
();
#endif
double
latency
=
run_timer
.
toc
()
/
(
num_times
>
1
?
num_times
:
1
);
PrintTime
(
batch_size
,
num_times
,
1
,
0
,
latency
,
inputs
.
size
());
if
(
FLAGS_record_benchmark
)
{
Benchmark
benchmark
;
benchmark
.
SetName
(
FLAGS_model_name
);
benchmark
.
SetBatchSize
(
batch_size
);
benchmark
.
SetLatency
(
latency
);
benchmark
.
PersistToFile
(
"benchmark_record.txt"
);
}
PrintTime
(
batch_size
,
num_times
,
num_threads
,
tid
,
elapsed_time
/
num_times
,
inputs
.
size
());
if
(
FLAGS_record_benchmark
)
{
Benchmark
benchmark
;
benchmark
.
SetName
(
FLAGS_model_name
);
benchmark
.
SetBatchSize
(
batch_size
);
benchmark
.
SetLatency
(
elapsed_time
/
num_times
);
benchmark
.
PersistToFile
(
"benchmark_record.txt"
);
}
}
void
TestOneThreadPrediction
(
const
PaddlePredictor
::
Config
*
config
,
const
std
::
vector
<
std
::
vector
<
PaddleTensor
>>
&
inputs
,
std
::
vector
<
PaddleTensor
>
*
outputs
,
bool
use_analysis
=
true
)
{
auto
predictor
=
CreateTestPredictor
(
config
,
use_analysis
);
PredictionWarmUp
(
predictor
.
get
(),
inputs
,
outputs
,
1
,
0
);
PredictionRun
(
predictor
.
get
(),
inputs
,
outputs
,
1
,
0
);
}
void
TestMultiThreadPrediction
(
const
PaddlePredictor
::
Config
*
config
,
const
std
::
vector
<
std
::
vector
<
PaddleTensor
>>
&
inputs
,
std
::
vector
<
PaddleTensor
>
*
outputs
,
int
num_threads
,
bool
use_analysis
=
true
)
{
int
batch_size
=
FLAGS_batch_size
;
int
num_times
=
FLAGS_repeat
;
std
::
vector
<
std
::
thread
>
threads
;
std
::
vector
<
std
::
unique_ptr
<
PaddlePredictor
>>
predictors
;
predictors
.
emplace_back
(
CreateTestPredictor
(
config
,
use_analysis
));
...
...
@@ -260,7 +304,6 @@ void TestMultiThreadPrediction(
predictors
.
emplace_back
(
predictors
.
front
()
->
Clone
());
}
size_t
total_time
{
0
};
for
(
int
tid
=
0
;
tid
<
num_threads
;
++
tid
)
{
threads
.
emplace_back
([
&
,
tid
]()
{
// Each thread should have local inputs and outputs.
...
...
@@ -273,34 +316,8 @@ void TestMultiThreadPrediction(
->
SetMkldnnThreadID
(
static_cast
<
int
>
(
tid
)
+
1
);
}
#endif
// warmup run
LOG
(
INFO
)
<<
"Running thread "
<<
tid
<<
", warm up run..."
;
{
Timer
warmup_timer
;
warmup_timer
.
tic
();
predictor
->
Run
(
inputs
[
0
],
outputs
,
batch_size
);
PrintTime
(
batch_size
,
1
,
num_threads
,
tid
,
warmup_timer
.
toc
(),
1
);
if
(
FLAGS_profile
)
{
paddle
::
platform
::
ResetProfiler
();
}
}
LOG
(
INFO
)
<<
"Thread "
<<
tid
<<
" run "
<<
num_times
<<
" times..."
;
{
Timer
timer
;
timer
.
tic
();
for
(
int
i
=
0
;
i
<
num_times
;
i
++
)
{
for
(
const
auto
&
input
:
inputs
)
{
ASSERT_TRUE
(
predictor
->
Run
(
input
,
&
outputs_tid
));
}
}
auto
time
=
timer
.
toc
();
total_time
+=
time
;
PrintTime
(
batch_size
,
num_times
,
num_threads
,
tid
,
time
/
num_times
,
inputs
.
size
());
}
PredictionWarmUp
(
predictor
.
get
(),
inputs
,
outputs
,
num_threads
,
tid
);
PredictionRun
(
predictor
.
get
(),
inputs
,
outputs
,
num_threads
,
tid
);
});
}
for
(
int
i
=
0
;
i
<
num_threads
;
++
i
)
{
...
...
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