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2ac46d53
编写于
1月 19, 2018
作者:
G
gongweibao
提交者:
GitHub
1月 19, 2018
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电子邮件补丁
差异文件
Add distribution implement of image classification. (#7687)
Add distribution implement of image classification
上级
2ad6c8bc
变更
1
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1 changed file
with
173 addition
and
0 deletion
+173
-0
python/paddle/v2/fluid/tests/book_distribute/notest_dist_image_classification.py
...tests/book_distribute/notest_dist_image_classification.py
+173
-0
未找到文件。
python/paddle/v2/fluid/tests/book_distribute/notest_dist_image_classification.py
0 → 100644
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2ac46d53
#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.
from
__future__
import
print_function
import
sys
import
paddle.v2
as
paddle
import
paddle.v2.fluid
as
fluid
import
os
import
sys
TRAINERS
=
5
BATCH_SIZE
=
128
PASS_NUM
=
100
def
resnet_cifar10
(
input
,
depth
=
32
):
def
conv_bn_layer
(
input
,
ch_out
,
filter_size
,
stride
,
padding
,
act
=
'relu'
):
tmp
=
fluid
.
layers
.
conv2d
(
input
=
input
,
filter_size
=
filter_size
,
num_filters
=
ch_out
,
stride
=
stride
,
padding
=
padding
,
act
=
None
,
bias_attr
=
False
)
return
fluid
.
layers
.
batch_norm
(
input
=
tmp
,
act
=
act
)
def
shortcut
(
input
,
ch_in
,
ch_out
,
stride
):
if
ch_in
!=
ch_out
:
return
conv_bn_layer
(
input
,
ch_out
,
1
,
stride
,
0
,
None
)
else
:
return
input
def
basicblock
(
input
,
ch_in
,
ch_out
,
stride
):
tmp
=
conv_bn_layer
(
input
,
ch_out
,
3
,
stride
,
1
)
tmp
=
conv_bn_layer
(
tmp
,
ch_out
,
3
,
1
,
1
,
act
=
None
)
short
=
shortcut
(
input
,
ch_in
,
ch_out
,
stride
)
return
fluid
.
layers
.
elementwise_add
(
x
=
tmp
,
y
=
short
,
act
=
'relu'
)
def
layer_warp
(
block_func
,
input
,
ch_in
,
ch_out
,
count
,
stride
):
tmp
=
block_func
(
input
,
ch_in
,
ch_out
,
stride
)
for
i
in
range
(
1
,
count
):
tmp
=
block_func
(
tmp
,
ch_out
,
ch_out
,
1
)
return
tmp
assert
(
depth
-
2
)
%
6
==
0
n
=
(
depth
-
2
)
/
6
conv1
=
conv_bn_layer
(
input
=
input
,
ch_out
=
16
,
filter_size
=
3
,
stride
=
1
,
padding
=
1
)
res1
=
layer_warp
(
basicblock
,
conv1
,
16
,
16
,
n
,
1
)
res2
=
layer_warp
(
basicblock
,
res1
,
16
,
32
,
n
,
2
)
res3
=
layer_warp
(
basicblock
,
res2
,
32
,
64
,
n
,
2
)
pool
=
fluid
.
layers
.
pool2d
(
input
=
res3
,
pool_size
=
8
,
pool_type
=
'avg'
,
pool_stride
=
1
)
return
pool
def
vgg16_bn_drop
(
input
):
def
conv_block
(
input
,
num_filter
,
groups
,
dropouts
):
return
fluid
.
nets
.
img_conv_group
(
input
=
input
,
pool_size
=
2
,
pool_stride
=
2
,
conv_num_filter
=
[
num_filter
]
*
groups
,
conv_filter_size
=
3
,
conv_act
=
'relu'
,
conv_with_batchnorm
=
True
,
conv_batchnorm_drop_rate
=
dropouts
,
pool_type
=
'max'
)
conv1
=
conv_block
(
input
,
64
,
2
,
[
0.3
,
0
])
conv2
=
conv_block
(
conv1
,
128
,
2
,
[
0.4
,
0
])
conv3
=
conv_block
(
conv2
,
256
,
3
,
[
0.4
,
0.4
,
0
])
conv4
=
conv_block
(
conv3
,
512
,
3
,
[
0.4
,
0.4
,
0
])
conv5
=
conv_block
(
conv4
,
512
,
3
,
[
0.4
,
0.4
,
0
])
drop
=
fluid
.
layers
.
dropout
(
x
=
conv5
,
dropout_prob
=
0.5
)
fc1
=
fluid
.
layers
.
fc
(
input
=
drop
,
size
=
512
,
act
=
None
)
bn
=
fluid
.
layers
.
batch_norm
(
input
=
fc1
,
act
=
'relu'
)
drop2
=
fluid
.
layers
.
dropout
(
x
=
bn
,
dropout_prob
=
0.5
)
fc2
=
fluid
.
layers
.
fc
(
input
=
drop2
,
size
=
512
,
act
=
None
)
return
fc2
classdim
=
10
data_shape
=
[
3
,
32
,
32
]
images
=
fluid
.
layers
.
data
(
name
=
'pixel'
,
shape
=
data_shape
,
dtype
=
'float32'
)
label
=
fluid
.
layers
.
data
(
name
=
'label'
,
shape
=
[
1
],
dtype
=
'int64'
)
net_type
=
"vgg"
if
len
(
sys
.
argv
)
>=
2
:
net_type
=
sys
.
argv
[
1
]
if
net_type
==
"vgg"
:
print
(
"train vgg net"
)
net
=
vgg16_bn_drop
(
images
)
elif
net_type
==
"resnet"
:
print
(
"train resnet"
)
net
=
resnet_cifar10
(
images
,
32
)
else
:
raise
ValueError
(
"%s network is not supported"
%
net_type
)
predict
=
fluid
.
layers
.
fc
(
input
=
net
,
size
=
classdim
,
act
=
'softmax'
)
cost
=
fluid
.
layers
.
cross_entropy
(
input
=
predict
,
label
=
label
)
avg_cost
=
fluid
.
layers
.
mean
(
x
=
cost
)
optimizer
=
fluid
.
optimizer
.
Adam
(
learning_rate
=
0.001
)
optimize_ops
,
params_grads
=
optimizer
.
minimize
(
avg_cost
)
accuracy
=
fluid
.
evaluator
.
Accuracy
(
input
=
predict
,
label
=
label
)
train_reader
=
paddle
.
batch
(
paddle
.
reader
.
shuffle
(
paddle
.
dataset
.
cifar
.
train10
(),
buf_size
=
128
*
10
),
batch_size
=
BATCH_SIZE
)
place
=
fluid
.
CPUPlace
()
exe
=
fluid
.
Executor
(
place
)
t
=
fluid
.
DistributeTranspiler
()
# all parameter server endpoints list for spliting parameters
pserver_endpoints
=
os
.
getenv
(
"PSERVERS"
)
# server endpoint for current node
current_endpoint
=
os
.
getenv
(
"SERVER_ENDPOINT"
)
# run as trainer or parameter server
training_role
=
os
.
getenv
(
"TRAINING_ROLE"
,
"TRAINER"
)
# get the training role: trainer/pserver
t
.
transpile
(
optimize_ops
,
params_grads
,
pservers
=
pserver_endpoints
,
trainers
=
TRAINERS
)
if
training_role
==
"PSERVER"
:
if
not
current_endpoint
:
print
(
"need env SERVER_ENDPOINT"
)
exit
(
1
)
print
(
"start pserver at:"
,
current_endpoint
)
pserver_prog
=
t
.
get_pserver_program
(
current_endpoint
)
pserver_startup
=
t
.
get_startup_program
(
current_endpoint
,
pserver_prog
)
exe
.
run
(
pserver_startup
)
exe
.
run
(
pserver_prog
)
print
(
"pserver run end"
)
elif
training_role
==
"TRAINER"
:
print
(
"start trainer"
)
trainer_prog
=
t
.
get_trainer_program
()
feeder
=
fluid
.
DataFeeder
(
place
=
place
,
feed_list
=
[
images
,
label
])
exe
.
run
(
fluid
.
default_startup_program
())
for
pass_id
in
range
(
PASS_NUM
):
accuracy
.
reset
(
exe
)
for
data
in
train_reader
():
loss
,
acc
=
exe
.
run
(
trainer_prog
,
feed
=
feeder
.
feed
(
data
),
fetch_list
=
[
avg_cost
]
+
accuracy
.
metrics
)
pass_acc
=
accuracy
.
eval
(
exe
)
print
(
"loss:"
+
str
(
loss
)
+
" acc:"
+
str
(
acc
)
+
" pass_acc:"
+
str
(
pass_acc
))
# this model is slow, so if we can train two mini batch, we think it works properly.
print
(
"trainer run end"
)
else
:
print
(
"environment var TRAINER_ROLE should be TRAINER os PSERVER"
)
exit
(
1
)
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