提交 2c6f0b0d 编写于 作者: B baiyfbupt

add slim quantization

上级 ed6b2f0c
> 运行示例前请先安装1.2.0或更高版本PaddleSlim
# 模型量化压缩教程
## 概述
该示例使用PaddleSlim提供的[量化压缩API](https://paddlepaddle.github.io/PaddleSlim/api/quantization_api/)对检测模型进行压缩。
在阅读该示例前,建议您先了解以下内容:
- [OCR模型的常规训练方法](https://github.com/PaddlePaddle/PaddleOCR/blob/develop/doc/doc_ch/detection.md)
- [PaddleSlim使用文档](https://paddlepaddle.github.io/PaddleSlim/)
## 安装PaddleSlim
可按照[PaddleSlim使用文档](https://paddlepaddle.github.io/PaddleSlim/)中的步骤安装PaddleSlim。
## 量化训练
进入PaddleOCR根目录,通过以下命令对模型进行量化:
```bash
python deploy/slim/quantization/quant.py -c configs/det/det_mv3_db.yml -o Global.pretrain_weights=det_mv3_db/best_accuracy Global.save_model_dir=./output/quant_model
```
## 评估并导出
在得到量化训练保存的模型后,我们可以将其导出为inference_model,用于预测部署:
```bash
python deploy/slim/quantization/export_model.py -c configs/det/det_mv3_db.yml -o Global.checkpoints=output/quant_model/best_accuracy Global.save_model_dir=./output/quant_model
```
# Copyright (c) 2020 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 absolute_import
from __future__ import division
from __future__ import print_function
import os
import sys
__dir__ = os.path.dirname(__file__)
sys.path.append(__dir__)
sys.path.append(os.path.abspath(os.path.join(__dir__, '..', '..', '..')))
sys.path.append(
os.path.abspath(os.path.join(__dir__, '..', '..', '..', 'tools')))
def set_paddle_flags(**kwargs):
for key, value in kwargs.items():
if os.environ.get(key, None) is None:
os.environ[key] = str(value)
# NOTE(paddle-dev): All of these flags should be
# set before `import paddle`. Otherwise, it would
# not take any effect.
set_paddle_flags(
FLAGS_eager_delete_tensor_gb=0, # enable GC to save memory
)
import program
from paddle import fluid
from ppocr.utils.utility import initial_logger
logger = initial_logger()
from ppocr.utils.save_load import init_model, load_params
from ppocr.utils.character import CharacterOps
from ppocr.utils.utility import create_module
from ppocr.data.reader_main import reader_main
from paddleslim.quant import quant_aware, convert
from paddle.fluid.layer_helper import LayerHelper
from eval_utils.eval_det_utils import eval_det_run
from eval_utils.eval_rec_utils import eval_rec_run
def main():
# 1. quantization configs
quant_config = {
# weight quantize type, default is 'channel_wise_abs_max'
'weight_quantize_type': 'channel_wise_abs_max',
# activation quantize type, default is 'moving_average_abs_max'
'activation_quantize_type': 'moving_average_abs_max',
# weight quantize bit num, default is 8
'weight_bits': 8,
# activation quantize bit num, default is 8
'activation_bits': 8,
# ops of name_scope in not_quant_pattern list, will not be quantized
'not_quant_pattern': ['skip_quant'],
# ops of type in quantize_op_types, will be quantized
'quantize_op_types': ['conv2d', 'depthwise_conv2d', 'mul'],
# data type after quantization, such as 'uint8', 'int8', etc. default is 'int8'
'dtype': 'int8',
# window size for 'range_abs_max' quantization. defaulf is 10000
'window_size': 10000,
# The decay coefficient of moving average, default is 0.9
'moving_rate': 0.9,
}
startup_prog, eval_program, place, config, alg_type = program.preprocess()
feeded_var_names, target_vars, fetches_var_name = program.build_export(
config, eval_program, startup_prog)
eval_program = eval_program.clone(for_test=True)
exe = fluid.Executor(place)
exe.run(startup_prog)
eval_program = quant_aware(
eval_program, place, quant_config, scope=None, for_test=True)
init_model(config, eval_program, exe)
# 2. Convert the program before save inference program
# The dtype of eval_program's weights is float32, but in int8 range.
eval_program = convert(eval_program, place, quant_config, scope=None)
eval_fetch_name_list = fetches_var_name
eval_fetch_varname_list = [v.name for v in target_vars]
eval_reader = reader_main(config=config, mode="eval")
quant_info_dict = {'program':eval_program,\
'reader':eval_reader,\
'fetch_name_list':eval_fetch_name_list,\
'fetch_varname_list':eval_fetch_varname_list}
if alg_type == 'det':
final_metrics = eval_det_run(exe, config, quant_info_dict, "eval")
else:
final_metrics = eval_rec_run(exe, config, quant_info_dict, "eval")
print(final_metrics)
# 3. Save inference model
model_path = "./quant_model"
if not os.path.isdir(model_path):
os.makedirs(model_path)
fluid.io.save_inference_model(
dirname=model_path,
feeded_var_names=feeded_var_names,
target_vars=target_vars,
executor=exe,
main_program=eval_program,
model_filename=model_path + '/model',
params_filename=model_path + '/params')
print("model saved as {}".format(model_path))
if __name__ == '__main__':
main()
# Copyright (c) 2020 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 absolute_import
from __future__ import division
from __future__ import print_function
import os
import sys
__dir__ = os.path.dirname(os.path.abspath(__file__))
sys.path.append(__dir__)
sys.path.append(os.path.abspath(os.path.join(__dir__, '..', '..', '..')))
sys.path.append(
os.path.abspath(os.path.join(__dir__, '..', '..', '..', 'tools')))
def set_paddle_flags(**kwargs):
for key, value in kwargs.items():
if os.environ.get(key, None) is None:
os.environ[key] = str(value)
# NOTE(paddle-dev): All of these flags should be
# set before `import paddle`. Otherwise, it would
# not take any effect.
set_paddle_flags(
FLAGS_eager_delete_tensor_gb=0, # enable GC to save memory
)
import tools.program as program
from paddle import fluid
from ppocr.utils.utility import initial_logger
logger = initial_logger()
from ppocr.data.reader_main import reader_main
from ppocr.utils.save_load import init_model
from paddle.fluid.contrib.model_stat import summary
# quant dependencies
import paddle
import paddle.fluid as fluid
from paddleslim.quant import quant_aware, convert
from paddle.fluid.layer_helper import LayerHelper
def main():
train_build_outputs = program.build(
config, train_program, startup_program, mode='train')
train_loader = train_build_outputs[0]
train_fetch_name_list = train_build_outputs[1]
train_fetch_varname_list = train_build_outputs[2]
train_opt_loss_name = train_build_outputs[3]
model_average = train_build_outputs[-1]
eval_program = fluid.Program()
eval_build_outputs = program.build(
config, eval_program, startup_program, mode='eval')
eval_fetch_name_list = eval_build_outputs[1]
eval_fetch_varname_list = eval_build_outputs[2]
eval_program = eval_program.clone(for_test=True)
train_reader = reader_main(config=config, mode="train")
train_loader.set_sample_list_generator(train_reader, places=place)
eval_reader = reader_main(config=config, mode="eval")
exe = fluid.Executor(place)
exe.run(startup_program)
def pact(x, name=None):
helper = LayerHelper("pact", **locals())
dtype = 'float32'
init_thres = 20
u_param_attr = fluid.ParamAttr(
name=x.name + '_pact',
initializer=fluid.initializer.ConstantInitializer(value=init_thres),
regularizer=fluid.regularizer.L2Decay(0.0001),
learning_rate=1)
u_param = helper.create_parameter(
attr=u_param_attr, shape=[1], dtype=dtype)
x = fluid.layers.elementwise_sub(
x, fluid.layers.relu(fluid.layers.elementwise_sub(x, u_param)))
x = fluid.layers.elementwise_add(
x, fluid.layers.relu(fluid.layers.elementwise_sub(-u_param, x)))
return x
def get_optimizer():
return fluid.optimizer.AdamOptimizer(0.001)
# 1. quantization configs
quant_config = {
# weight quantize type, default is 'channel_wise_abs_max'
'weight_quantize_type': 'channel_wise_abs_max',
# activation quantize type, default is 'moving_average_abs_max'
'activation_quantize_type': 'moving_average_abs_max',
# weight quantize bit num, default is 8
'weight_bits': 8,
# activation quantize bit num, default is 8
'activation_bits': 8,
# ops of name_scope in not_quant_pattern list, will not be quantized
'not_quant_pattern': ['skip_quant'],
# ops of type in quantize_op_types, will be quantized
'quantize_op_types': ['conv2d', 'depthwise_conv2d', 'mul'],
# data type after quantization, such as 'uint8', 'int8', etc. default is 'int8'
'dtype': 'int8',
# window size for 'range_abs_max' quantization. defaulf is 10000
'window_size': 10000,
# The decay coefficient of moving average, default is 0.9
'moving_rate': 0.9,
}
# 2. quantization transform programs (training aware)
# Make some quantization transforms in the graph before training and testing.
# According to the weight and activation quantization type, the graph will be added
# some fake quantize operators and fake dequantize operators.
act_preprocess_func = pact
optimizer_func = get_optimizer
executor = exe
eval_program = quant_aware(
eval_program,
place,
quant_config,
scope=None,
act_preprocess_func=act_preprocess_func,
optimizer_func=optimizer_func,
executor=executor,
for_test=True)
quant_train_program = quant_aware(
train_program,
place,
quant_config,
scope=None,
act_preprocess_func=act_preprocess_func,
optimizer_func=optimizer_func,
executor=executor,
for_test=False,
return_program=True)
# compile program for multi-devices
train_compile_program = program.create_multi_devices_program(
quant_train_program, train_opt_loss_name, for_quant=True)
# dump mode structure
if config['Global']['debug']:
if train_alg_type == 'rec' and 'attention' in config['Global'][
'loss_type']:
logger.warning('Does not suport dump attention...')
else:
summary(quant_train_program)
init_model(config, quant_train_program, exe)
train_info_dict = {'compile_program':train_compile_program,\
'train_program':quant_train_program,\
'reader':train_loader,\
'fetch_name_list':train_fetch_name_list,\
'fetch_varname_list':train_fetch_varname_list,\
'model_average': model_average}
eval_info_dict = {'program':eval_program,\
'reader':eval_reader,\
'fetch_name_list':eval_fetch_name_list,\
'fetch_varname_list':eval_fetch_varname_list}
if train_alg_type == 'det':
program.train_eval_det_run(config, exe, train_info_dict, eval_info_dict)
else:
program.train_eval_rec_run(config, exe, train_info_dict, eval_info_dict)
def test_reader():
logger.info(config)
train_reader = reader_main(config=config, mode="train")
import time
starttime = time.time()
count = 0
try:
for data in train_reader():
count += 1
if count % 1 == 0:
batch_time = time.time() - starttime
starttime = time.time()
logger.info("reader:", count, len(data), batch_time)
except Exception as e:
logger.info(e)
logger.info("finish reader: {}, Success!".format(count))
if __name__ == '__main__':
startup_program, train_program, place, config, train_alg_type = program.preprocess(
)
main()
# test_reader()
......@@ -67,6 +67,7 @@ class DetModel(object):
image = fluid.layers.data(
name='image', shape=image_shape, dtype='float32')
image.stop_gradient = False
if mode == "train":
if self.algorithm == "EAST":
h, w = int(image_shape[1] // 4), int(image_shape[2] // 4)
......@@ -108,7 +109,10 @@ class DetModel(object):
name='tvo', shape=[9, 128, 128], dtype='float32')
input_tco = fluid.layers.data(
name='tco', shape=[3, 128, 128], dtype='float32')
feed_list = [image, input_score, input_border, input_mask, input_tvo, input_tco]
feed_list = [
image, input_score, input_border, input_mask, input_tvo,
input_tco
]
labels = {'input_score': input_score,\
'input_border': input_border,\
'input_mask': input_mask,\
......
......@@ -68,6 +68,7 @@ class RecModel(object):
image_shape.insert(0, -1)
if mode == "train":
image = fluid.data(name='image', shape=image_shape, dtype='float32')
image.stop_gradient = False
if self.loss_type == "attention":
label_in = fluid.data(
name='label_in',
......@@ -146,6 +147,7 @@ class RecModel(object):
)
image_shape = deepcopy(self.image_shape)
image = fluid.data(name='image', shape=image_shape, dtype='float32')
image.stop_gradient = False
if self.loss_type == "srn":
encoder_word_pos = fluid.data(
name="encoder_word_pos",
......
......@@ -35,6 +35,7 @@ class CTCPredict(object):
self.fc_decay = params.get("fc_decay", 0.0004)
def __call__(self, inputs, labels=None, mode=None):
with fluid.scope_guard("skip_quant"):
encoder_features = self.encoder(inputs)
if self.encoder_type != "reshape":
encoder_features = fluid.layers.concat(encoder_features, axis=1)
......
......@@ -225,10 +225,12 @@ def build_export(config, main_prog, startup_prog):
return feeded_var_names, target_vars, fetches_var_name
def create_multi_devices_program(program, loss_var_name):
def create_multi_devices_program(program, loss_var_name, for_quant=False):
build_strategy = fluid.BuildStrategy()
build_strategy.memory_optimize = False
build_strategy.enable_inplace = True
if for_quant:
build_strategy.fuse_all_reduce_ops = False
exec_strategy = fluid.ExecutionStrategy()
exec_strategy.num_iteration_per_drop_scope = 1
compile_program = fluid.CompiledProgram(program).with_data_parallel(
......
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