yangjun b0c1878a97 初始化PaddleOCR | 1 jaar geleden | |
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imgs | 1 jaar geleden | |
win | 1 jaar geleden | |
README.md | 1 jaar geleden | |
README_CN.md | 1 jaar geleden | |
__init__.py | 1 jaar geleden | |
config.yml | 1 jaar geleden | |
general_detection_op.cpp | 1 jaar geleden | |
ocr_cpp_client.py | 1 jaar geleden | |
ocr_reader.py | 1 jaar geleden | |
pipeline_http_client.py | 1 jaar geleden | |
pipeline_rpc_client.py | 1 jaar geleden | |
serving_client_conf.prototxt | 1 jaar geleden | |
web_service.py | 1 jaar geleden | |
web_service_det.py | 1 jaar geleden | |
web_service_rec.py | 1 jaar geleden |
(English|简体中文)
PaddleOCR provides two service deployment methods:
./deploy/hubserving
". Please refer to the tutorial./deploy/pdserving
". Please follow this tutorial.This document will introduce how to use the PaddleServing to deploy the PPOCR dynamic graph model as a pipeline online service.
Some Key Features of Paddle Serving:
PaddleServing supports deployment in multiple languages. In this example, two deployment methods, python pipeline and C++, are provided. The comparison between the two is as follows:
Language | Speed | Secondary development | Do you need to compile |
---|---|---|---|
C++ | fast | Slightly difficult | Single model prediction does not need to be compiled, multi-model concatenation needs to be compiled |
python | general | easy | single-model/multi-model no compilation required |
The introduction and tutorial of Paddle Serving service deployment framework reference document.
PaddleOCR operating environment and Paddle Serving operating environment are needed.
Please prepare PaddleOCR operating environment reference link. Download the corresponding paddlepaddle whl package according to the environment, it is recommended to install version 2.2.2.
The steps of PaddleServing operating environment prepare are as follows:
# Install serving which used to start the service
wget https://paddle-serving.bj.bcebos.com/test-dev/whl/paddle_serving_server_gpu-0.8.3.post102-py3-none-any.whl
pip3 install paddle_serving_server_gpu-0.8.3.post102-py3-none-any.whl
# Install paddle-serving-server for cuda10.1
# wget https://paddle-serving.bj.bcebos.com/test-dev/whl/paddle_serving_server_gpu-0.8.3.post101-py3-none-any.whl
# pip3 install paddle_serving_server_gpu-0.8.3.post101-py3-none-any.whl
# Install serving which used to start the service
wget https://paddle-serving.bj.bcebos.com/test-dev/whl/paddle_serving_client-0.8.3-cp37-none-any.whl
pip3 install paddle_serving_client-0.8.3-cp37-none-any.whl
# Install serving-app
wget https://paddle-serving.bj.bcebos.com/test-dev/whl/paddle_serving_app-0.8.3-py3-none-any.whl
pip3 install paddle_serving_app-0.8.3-py3-none-any.whl
note: If you want to install the latest version of PaddleServing, refer to link.
When using PaddleServing for service deployment, you need to convert the saved inference model into a serving model that is easy to deploy.
Firstly, download the inference model of PPOCR
# Download and unzip the OCR text detection model
wget https://paddleocr.bj.bcebos.com/PP-OCRv3/chinese/ch_PP-OCRv3_det_infer.tar -O ch_PP-OCRv3_det_infer.tar && tar -xf ch_PP-OCRv3_det_infer.tar
# Download and unzip the OCR text recognition model
wget https://paddleocr.bj.bcebos.com/PP-OCRv3/chinese/ch_PP-OCRv3_rec_infer.tar -O ch_PP-OCRv3_rec_infer.tar && tar -xf ch_PP-OCRv3_rec_infer.tar
Then, you can use installed paddle_serving_client tool to convert inference model to mobile model.
# Detection model conversion
python3 -m paddle_serving_client.convert --dirname ./ch_PP-OCRv3_det_infer/ \
--model_filename inference.pdmodel \
--params_filename inference.pdiparams \
--serving_server ./ppocr_det_v3_serving/ \
--serving_client ./ppocr_det_v3_client/
# Recognition model conversion
python3 -m paddle_serving_client.convert --dirname ./ch_PP-OCRv3_rec_infer/ \
--model_filename inference.pdmodel \
--params_filename inference.pdiparams \
--serving_server ./ppocr_rec_v3_serving/ \
--serving_client ./ppocr_rec_v3_client/
After the detection model is converted, there will be additional folders of ppocr_det_v3_serving
and ppocr_det_v3_client
in the current folder, with the following format:
|- ppocr_det_v3_serving/
|- __model__
|- __params__
|- serving_server_conf.prototxt
|- serving_server_conf.stream.prototxt
|- ppocr_det_v3_client
|- serving_client_conf.prototxt
|- serving_client_conf.stream.prototxt
The recognition model is the same.
Download the PaddleOCR code, if you have already downloaded it, you can skip this step.
git clone https://github.com/PaddlePaddle/PaddleOCR
# Enter the working directory
cd PaddleOCR/deploy/pdserving/
The pdserver directory contains the code to start the pipeline service and send prediction requests, including:
__init__.py
config.yml # Start the service configuration file
ocr_reader.py # OCR model pre-processing and post-processing code implementation
pipeline_http_client.py # Script to send pipeline prediction request
web_service.py # Start the script of the pipeline server
Run the following command to start the service.
# Start the service and save the running log in log.txt
python3 web_service.py --config=config.yml &>log.txt &
After the service is successfully started, a log similar to the following will be printed in log.txt
Send service request
python3 pipeline_http_client.py
After successfully running, the predicted result of the model will be printed in the cmd window. An example of the result is:
Adjust the number of concurrency in config.yml to get the largest QPS. Generally, the number of concurrent detection and recognition is 2:1
det:
concurrency: 8
...
rec:
concurrency: 4
...
Multiple service requests can be sent at the same time if necessary.
The predicted performance data will be automatically written into the PipelineServingLogs/pipeline.tracer
file.
Tested on 200 real pictures, and limited the detection long side to 960. The average QPS on T4 GPU can reach around 23:
2021-05-13 03:42:36,895 ==================== TRACER ======================
2021-05-13 03:42:36,975 Op(rec):
2021-05-13 03:42:36,976 in[14.472382882882883 ms]
2021-05-13 03:42:36,976 prep[9.556855855855856 ms]
2021-05-13 03:42:36,976 midp[59.921905405405404 ms]
2021-05-13 03:42:36,976 postp[15.345945945945946 ms]
2021-05-13 03:42:36,976 out[1.9921216216216215 ms]
2021-05-13 03:42:36,976 idle[0.16254943864471572]
2021-05-13 03:42:36,976 Op(det):
2021-05-13 03:42:36,976 in[315.4468035714286 ms]
2021-05-13 03:42:36,976 prep[69.5980625 ms]
2021-05-13 03:42:36,976 midp[18.989535714285715 ms]
2021-05-13 03:42:36,976 postp[18.857803571428573 ms]
2021-05-13 03:42:36,977 out[3.1337544642857145 ms]
2021-05-13 03:42:36,977 idle[0.7477961159203756]
2021-05-13 03:42:36,977 DAGExecutor:
2021-05-13 03:42:36,977 Query count[224]
2021-05-13 03:42:36,977 QPS[22.4 q/s]
2021-05-13 03:42:36,977 Succ[0.9910714285714286]
2021-05-13 03:42:36,977 Error req[169, 170]
2021-05-13 03:42:36,977 Latency:
2021-05-13 03:42:36,977 ave[535.1678348214285 ms]
2021-05-13 03:42:36,977 .50[172.651 ms]
2021-05-13 03:42:36,977 .60[187.904 ms]
2021-05-13 03:42:36,977 .70[245.675 ms]
2021-05-13 03:42:36,977 .80[526.684 ms]
2021-05-13 03:42:36,977 .90[854.596 ms]
2021-05-13 03:42:36,977 .95[1722.728 ms]
2021-05-13 03:42:36,977 .99[3990.292 ms]
2021-05-13 03:42:36,978 Channel (server worker num[10]):
2021-05-13 03:42:36,978 chl0(In: ['@DAGExecutor'], Out: ['det']) size[0/0]
2021-05-13 03:42:36,979 chl1(In: ['det'], Out: ['rec']) size[6/0]
2021-05-13 03:42:36,979 chl2(In: ['rec'], Out: ['@DAGExecutor']) size[0/0]
Service deployment based on python obviously has the advantage of convenient secondary development. However, the real application often needs to pursue better performance. PaddleServing also provides a more performant C++ deployment version.
The C++ service deployment is the same as python in the environment setup and data preparation stages, the difference is when the service is started and the client sends requests.
To improve predictive performance, C++ services also provide multiple model concatenation services. Unlike Python Pipeline services, multiple model concatenation requires the pre - and post-model processing code to be written on the server side, so local recompilation is required to generate serving. Specific may refer to the official document: how to compile Serving
Run the following command to start the service.
# Start the service and save the running log in log.txt
python3 -m paddle_serving_server.serve --model ppocr_det_v3_serving ppocr_rec_v3_serving --op GeneralDetectionOp GeneralInferOp --port 8181 &>log.txt &
After the service is successfully started, a log similar to the following will be printed in log.txt
Send service request
Due to the need for pre and post-processing in the C++Server part, in order to speed up the input to the C++Server is only the base64 encoded string of the picture, it needs to be manually modified Change the feed_type field and shape field in ppocr_det_v3_client/serving_client_conf.prototxt to the following:
feed_var {
name: "x"
alias_name: "x"
is_lod_tensor: false
feed_type: 20
shape: 1
}
start the client:
```
python3 ocr_cpp_client.py ppocr_det_v3_client ppocr_rec_v3_client
```
After successfully running, the predicted result of the model will be printed in the cmd window. An example of the result is:
![](./imgs/results.png)
Windows does not support Pipeline Serving, if we want to lauch paddle serving on Windows, we should use Web Service, for more infomation please refer to Paddle Serving for Windows Users
WINDOWS user can only use version 0.5.0 CPU Mode
Prepare Stage:
pip3 install paddle-serving-server==0.5.0
pip3 install paddle-serving-app==0.3.1
cd win
python3 ocr_web_server.py gpu(for gpu user)
or
python3 ocr_web_server.py cpu(for cpu user)
python3 ocr_web_client.py
Q1: No result return after sending the request.
A1: Do not set the proxy when starting the service and sending the request. You can close the proxy before starting the service and before sending the request. The command to close the proxy is:
unset https_proxy
unset http_proxy