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提交 69b3b90d 编写于 作者: S syyxsxx
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fix some bug

上级 f69c5d03
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deploy/openvino/python/convertor.py
浏览文件 @ 69b3b90d
...@@ -16,9 +16,9 @@ import os ...@@ -16,9 +16,9 @@ import os
from six import text_type as _text_type from six import text_type as _text_type
import argparse import argparse
import sys import sys
from utils import logging
import paddlex as pdx import paddlex as pdx
def arg_parser(): def arg_parser():
parser = argparse.ArgumentParser() parser = argparse.ArgumentParser()
parser.add_argument( parser.add_argument(
...@@ -46,19 +46,23 @@ def arg_parser(): ...@@ -46,19 +46,23 @@ def arg_parser():
return parser return parser
def reverse_input(shape):
shape_list = shape[1:-1].split(',')
shape = '[1,3,' + shape_list[1] + ',' + shape_list[0] + ']'
return shape
def export_openvino_model(model, args): def export_openvino_model(model, args):
if model.model_type == "detector" or model.__class__.__name__ == "FastSCNN": if model.model_type == "detector" or model.__class__.__name__ == "FastSCNN":
logging.error( print(
"Only image classifier models and semantic segmentation models(except FastSCNN) are supported to export to openvino") "Only image classifier models and semantic segmentation models(except FastSCNN) are supported to export to openvino"
)
try: try:
import x2paddle import x2paddle
if x2paddle.__version__ < '0.7.4': if x2paddle.__version__ < '0.7.4':
logging.error("You need to upgrade x2paddle >= 0.7.4") logging.error("You need to upgrade x2paddle >= 0.7.4")
except: except:
logging.error( print(
"You need to install x2paddle first, pip install x2paddle>=0.7.4") "You need to install x2paddle first, pip install x2paddle>=0.7.4")
import x2paddle.convert as x2pc import x2paddle.convert as x2pc
...@@ -67,20 +71,20 @@ def export_openvino_model(model, args): ...@@ -67,20 +71,20 @@ def export_openvino_model(model, args):
import mo.main as mo import mo.main as mo
from mo.utils.cli_parser import get_onnx_cli_parser from mo.utils.cli_parser import get_onnx_cli_parser
onnx_parser = get_onnx_cli_parser() onnx_parser = get_onnx_cli_parser()
onnx_parser.add_argument("--model_dir",type=_text_type) onnx_parser.add_argument("--model_dir", type=_text_type)
onnx_parser.add_argument("--save_dir",type=_text_type) onnx_parser.add_argument("--save_dir", type=_text_type)
onnx_parser.add_argument("--fixed_input_shape") onnx_parser.add_argument("--fixed_input_shape")
onnx_input = os.path.join(args.save_dir, 'x2paddle_model.onnx') onnx_input = os.path.join(args.save_dir, 'x2paddle_model.onnx')
onnx_parser.set_defaults(input_model=onnx_input) onnx_parser.set_defaults(input_model=onnx_input)
onnx_parser.set_defaults(output_dir=args.save_dir) onnx_parser.set_defaults(output_dir=args.save_dir)
shape = '[1,3,' shape_list = args.fixed_input_shape[1:-1].split(',')
shape = shape + args.fixed_input_shape[1:] shape = '[1,3,' + shape_list[1] + ',' + shape_list[0] + ']'
if model.__class__.__name__ == "YOLOV3": if model.__class__.__name__ == "YOLOV3":
shape = shape + ",[1,2]" shape = shape + ",[1,2]"
inputs = "image,im_size" inputs = "image,im_size"
onnx_parser.set_defaults(input = inputs) onnx_parser.set_defaults(input=inputs)
onnx_parser.set_defaults(input_shape = shape) onnx_parser.set_defaults(input_shape=shape)
mo.main(onnx_parser,'onnx') mo.main(onnx_parser, 'onnx')
def main(): def main():
...@@ -90,12 +94,11 @@ def main(): ...@@ -90,12 +94,11 @@ def main():
assert args.save_dir is not None, "--save_dir should be defined to create openvino model" assert args.save_dir is not None, "--save_dir should be defined to create openvino model"
model = pdx.load_model(args.model_dir) model = pdx.load_model(args.model_dir)
if model.status == "Normal" or model.status == "Prune": if model.status == "Normal" or model.status == "Prune":
logging.error( print(
"Only support inference model, try to export model first as below,", "Only support inference model, try to export model first as below,",
exit=False) exit=False)
export_openvino_model(model, args) export_openvino_model(model, args)
if __name__ == "__main__": if __name__ == "__main__":
main() main()
deploy/raspberry/python/deploy.py 0 → 100644
浏览文件 @ 69b3b90d
# copyright (c) 2020 PaddlePaddle Authors. All Rights Reserve.
#
# 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.
import sys
import os
import os.path as osp
import time
import cv2
import numpy as np
import yaml
from six import text_type as _text_type
from paddlelite.lite import *
class Predictor:
def __init__(self, model_nb, model_yaml, thread_num, shape):
if not osp.exists(model_nb):
print("model nb file is not exists in {}".format(model_xml))
self.model_nb = model_nb
self.shape = shape
config = MobileConfig()
config.set_model_from_file(model_nb)
config.set_threads(thread_num)
if not osp.exists(model_yaml):
print("model yaml file is not exists in {}".format(model_yaml))
with open(model_yaml) as f:
self.info = yaml.load(f.read(), Loader=yaml.Loader)
self.model_type = self.info['_Attributes']['model_type']
self.model_name = self.info['Model']
self.num_classes = self.info['_Attributes']['num_classes']
self.labels = self.info['_Attributes']['labels']
if self.info['Model'] == 'MaskRCNN':
if self.info['_init_params']['with_fpn']:
self.mask_head_resolution = 28
else:
self.mask_head_resolution = 14
transforms_mode = self.info.get('TransformsMode', 'RGB')
if transforms_mode == 'RGB':
to_rgb = True
else:
to_rgb = False
self.transforms = self.build_transforms(self.info['Transforms'],
to_rgb)
self.predictor = create_paddle_predictor(config)
self.total_time = 0
self.count_num = 0
def build_transforms(self, transforms_info, to_rgb=True):
if self.model_type == "classifier":
import transforms.cls_transforms as transforms
elif self.model_type == "detector":
import transforms.det_transforms as transforms
elif self.model_type == "segmenter":
import transforms.seg_transforms as transforms
op_list = list()
for op_info in transforms_info:
op_name = list(op_info.keys())[0]
op_attr = op_info[op_name]
if not hasattr(transforms, op_name):
raise Exception(
"There's no operator named '{}' in transforms of {}".
format(op_name, self.model_type))
op_list.append(getattr(transforms, op_name)(**op_attr))
eval_transforms = transforms.Compose(op_list)
if hasattr(eval_transforms, 'to_rgb'):
eval_transforms.to_rgb = to_rgb
self.arrange_transforms(eval_transforms)
return eval_transforms
def arrange_transforms(self, eval_transforms):
if self.model_type == 'classifier':
import transforms.cls_transforms as transforms
arrange_transform = transforms.ArrangeClassifier
elif self.model_type == 'segmenter':
import transforms.seg_transforms as transforms
arrange_transform = transforms.ArrangeSegmenter
elif self.model_type == 'detector':
import transforms.det_transforms as transforms
arrange_name = 'Arrange{}'.format(self.model_name)
arrange_transform = getattr(transforms, arrange_name)
else:
raise Exception("Unrecognized model type: {}".format(
self.model_type))
if type(eval_transforms.transforms[-1]).__name__.startswith('Arrange'):
eval_transforms.transforms[-1] = arrange_transform(mode='test')
else:
eval_transforms.transforms.append(arrange_transform(mode='test'))
def raw_predict(self, preprocessed_input):
self.count_num += 1
input_tensor = self.predictor.get_input(0)
input_tensor.resize(self.shape)
input_tensor.set_float_data(preprocessed_input['image'])
if self.model_name == "YOLOv3":
input_size_tensor = self.predictor.get_input(1)
input_size_tensor.resize([1, 2])
input_size_tensor.set_float_data(preprocessed_input['im_size'])
#Start inference
start_time = time.time()
self.predictor.run()
time_use = time.time() - start_time
if (self.count_num >= 20):
self.total_time += time_use
if (self.count_num >= 120):
print("avgtime:", self.total_time * 10)
#Processing output blob
print("Processing output blob")
return
def preprocess(self, image):
res = dict()
if self.model_type == "classifier":
im, = self.transforms(image)
im = np.expand_dims(im, axis=0).copy()
im = im.flatten()
res['image'] = im
elif self.model_type == "detector":
if self.model_name == "YOLOv3":
im, im_shape = self.transforms(image)
im = np.expand_dims(im, axis=0).copy()
im_shape = np.expand_dims(im_shape, axis=0).copy()
res['image'] = im
res['im_size'] = im_shape
if self.model_name.count('RCNN') > 0:
im, im_resize_info, im_shape = self.transforms(image)
im = np.expand_dims(im, axis=0).copy()
im_resize_info = np.expand_dims(im_resize_info, axis=0).copy()
im_shape = np.expand_dims(im_shape, axis=0).copy()
res['image'] = im
res['im_info'] = im_resize_info
res['im_shape'] = im_shape
elif self.model_type == "segmenter":
im, im_info = self.transforms(image)
im = np.expand_dims(im, axis=0).copy()
#np.savetxt('./input_data.txt',im.flatten())
res['image'] = im
res['im_info'] = im_info
return res
def classifier_postprocess(self, topk=1):
output_tensor = self.predictor.get_output(0)
output_data = output_tensor.float_data()
true_topk = min(self.num_classes, topk)
pred_label = np.argsort(-np.array(output_data))[:true_topk]
result = [{
'category_id': l,
'category': self.labels[l],
'score': output_data[l],
} for l in pred_label]
print(result)
return result
def segmenter_postprocess(self, preprocessed_inputs):
out_label_tensor = self.predictor.get_output(0)
out_label = out_label_tensor.float_data()
label_shape = tuple(out_label_tensor.shape())
label_map = np.array(out_label).astype('uint8')
label_map = label_map.reshap(label_shape)
label_map = np.squeeze(label_map)
out_score_tensor = self.predictor.get_output(1)
out_score = out_score_tensor.float_data()
score_shape = tuple(out_score_tensor.shape())
score_map = np.array(out_score)
score_map = score_map.reshap(score_shape)
score_map = np.transpose(score_map, (1, 2, 0))
im_info = preprocessed_inputs['im_info']
for info in im_info[::-1]:
if info[0] == 'resize':
w, h = info[1][1], info[1][0]
label_map = cv2.resize(label_map, (w, h), cv2.INTER_NEAREST)
score_map = cv2.resize(score_map, (w, h), cv2.INTER_LINEAR)
elif info[0] == 'padding':
w, h = info[1][1], info[1][0]
label_map = label_map[0:h, 0:w]
score_map = score_map[0:h, 0:w, :]
else:
raise Exception("Unexpected info '{}' in im_info".format(info[
0]))
return {'label_map': label_map, 'score_map': score_map}
def detector_postprocess(self, preprocessed_inputs):
out_tensor = self.predictor.get_output(0)
out_data = out_tensor.float_data()
out_shape = tuple(out_tensor.shape())
out_data = np.array(out_data)
outputs = label_data.reshap(out_shape)
result = []
for out in outputs:
result.append(out.tolist())
return result
def predict(self, image, topk=1, threshold=0.5):
preprocessed_input = self.preprocess(image)
self.raw_predict(preprocessed_input)
if self.model_type == "classifier":
results = self.classifier_postprocess(topk)
elif self.model_type == "detector":
results = self.detector_postprocess(preprocessed_input)
elif self.model_type == "segmenter":
pass
results = self.segmenter_postprocess(preprocessed_input)
docs/deploy/openvino/export_openvino_model.md
浏览文件 @ 69b3b90d
...@@ -33,6 +33,7 @@ python convertor.py --model_dir /path/to/inference_model --save_dir /path/to/ope ...@@ -33,6 +33,7 @@ python convertor.py --model_dir /path/to/inference_model --save_dir /path/to/ope
| --save_dir | OpenVINO模型保存路径 | | --save_dir | OpenVINO模型保存路径 |
| --fixed_input_shape | 模型输入的[W,H] | | --fixed_input_shape | 模型输入的[W,H] |
| --data type(option) | FP32、FP16,默认为FP32,VPU下的IR需要为FP16 | | --data type(option) | FP32、FP16,默认为FP32,VPU下的IR需要为FP16 |
**注意** **注意**
- 由于OpenVINO不支持ONNX的resize-11 OP的原因,目前还不支持Paddle的分割模型 - 由于OpenVINO不支持ONNX的resize-11 OP的原因,目前还不支持Paddle的分割模型
- YOLOv3在通过OpenVINO部署时,由于OpenVINO对ONNX OP的支持限制,我们在将YOLOv3的Paddle模型导出时,对最后一层multiclass_nms进行了特殊处理,导出的ONNX模型,最终输出的Box结果包括背景类别(而Paddle模型不包含),此处在OpenVINO的部署代码中,我们通过后处理过滤了背景类别。 - YOLOv3在通过OpenVINO部署时,由于OpenVINO对ONNX OP的支持限制,我们在将YOLOv3的Paddle模型导出时,对最后一层multiclass_nms进行了特殊处理,导出的ONNX模型,最终输出的Box结果包括背景类别(而Paddle模型不包含),此处在OpenVINO的部署代码中,我们通过后处理过滤了背景类别。
docs/deploy/openvino/windows.md
浏览文件 @ 69b3b90d
...@@ -14,8 +14,11 @@ Windows 平台下,我们使用`Visual Studio 2019 Community` 进行了测试 ...@@ -14,8 +14,11 @@ Windows 平台下,我们使用`Visual Studio 2019 Community` 进行了测试
- 我的电脑->属性->高级系统设置->环境变量 - 我的电脑->属性->高级系统设置->环境变量
- 在系统变量中找到Path(如没有,自行创建),并双击编辑 - 在系统变量中找到Path(如没有,自行创建),并双击编辑
- 新建,分别将OpenVINO以下路径填入并保存: - 新建,分别将OpenVINO以下路径填入并保存:
`C:\Program File (x86)\IntelSWTools\openvino\inference_engine\bin\intel64\Release` `C:\Program File (x86)\IntelSWTools\openvino\inference_engine\bin\intel64\Release`
`C:\Program File (x86)\IntelSWTools\openvino\inference_engine\external\tbb\bin` `C:\Program File (x86)\IntelSWTools\openvino\inference_engine\external\tbb\bin`
`C:\Program File (x86)\IntelSWTools\openvino\deployment_tools\ngraph\lib` `C:\Program File (x86)\IntelSWTools\openvino\deployment_tools\ngraph\lib`
请确保系统已经安装好上述基本软件,并配置好相应环境,**下面所有示例以工作目录为 `D:\projects`演示。** 请确保系统已经安装好上述基本软件,并配置好相应环境,**下面所有示例以工作目录为 `D:\projects`演示。**
...@@ -50,13 +53,13 @@ git clone https://github.com/PaddlePaddle/PaddleX.git ...@@ -50,13 +53,13 @@ git clone https://github.com/PaddlePaddle/PaddleX.git
### Step3: 使用Visual Studio 2019直接编译CMake ### Step3: 使用Visual Studio 2019直接编译CMake
1. 打开Visual Studio 2019 Community,点击`继续但无需代码` 1. 打开Visual Studio 2019 Community,点击`继续但无需代码`
2. 点击: `文件`->`打开`->`CMake` 选择C++预测代码所在路径(例如`D:\projects\PaddleX\deploy\openvino`),并打开`CMakeList.txt` 2. 点击: `文件`->`打开`->`CMake` 选择C++预测代码所在路径(例如`D:\projects\PaddleX\deploy\openvino`),并打开`CMakeList.txt`
3. 点击:`项目`->`CMake设置` 3. 点击:`项目`->`CMake设置`
4. 点击`浏览`,分别设置编译选项指定`OpenVINO``Gflags``GLOG``NGRAPH``OPENCV`的路径 4. 点击`浏览`,分别设置编译选项指定`OpenVINO``Gflags``GLOG``NGRAPH``OPENCV`的路径
| 参数名 | 含义 | | 参数名 | 含义 |
| ---- | ---- | | ---- | ---- |
| OPENCV_DIR | opencv库路径 | | OPENCV_DIR | OpenCV库路径 |
| OPENVINO_DIR | OpenVINO推理库路径,在OpenVINO安装目录下的deployment/inference_engine目录,若未修改OpenVINO默认安装目录可以不用修改 | | OPENVINO_DIR | OpenVINO推理库路径,在OpenVINO安装目录下的deployment/inference_engine目录,若未修改OpenVINO默认安装目录可以不用修改 |
| NGRAPH_LIB | OpenVINO的ngraph库路径,在OpenVINO安装目录下的deployment/ngraph/lib目录,若未修改OpenVINO默认安装目录可以不用修改 | | NGRAPH_LIB | OpenVINO的ngraph库路径,在OpenVINO安装目录下的deployment/ngraph/lib目录,若未修改OpenVINO默认安装目录可以不用修改 |
| GFLAGS_DIR | gflags库路径 | | GFLAGS_DIR | gflags库路径 |
......
docs/deploy/raspberry/Raspberry.md
浏览文件 @ 69b3b90d
...@@ -126,6 +126,7 @@ OPENCV_DIR=$(pwd)/deps/opencv/ ...@@ -126,6 +126,7 @@ OPENCV_DIR=$(pwd)/deps/opencv/
软件:paddle-lite 2.6.1 软件:paddle-lite 2.6.1
### 测试结果 ### 测试结果
单位ms,num表示paddle-lite下使用的线程数 单位ms,num表示paddle-lite下使用的线程数
|模型|lite(num=4)|输入图片大小| |模型|lite(num=4)|输入图片大小|
| ----| ---- | ----| | ----| ---- | ----|
|mobilenet-v2|136.19|224*224| |mobilenet-v2|136.19|224*224|
...@@ -148,6 +149,7 @@ OPENCV_DIR=$(pwd)/deps/opencv/ ...@@ -148,6 +149,7 @@ OPENCV_DIR=$(pwd)/deps/opencv/
|Xception41|1418.29|224*224| |Xception41|1418.29|224*224|
|Xception65|2094.7|224*224| |Xception65|2094.7|224*224|
从测试结果看建议用户在树莓派上使用MobileNetV1-V3,ShuffleNetV2这类型的小型网络 从测试结果看建议用户在树莓派上使用MobileNetV1-V3,ShuffleNetV2这类型的小型网络
## NCS2部署 ## NCS2部署
......
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