## Bert as service ([简体中文](./README_CN.md)|English) In the example, a BERT model is used for semantic understanding prediction, and the text is represented as a vector, which can be used for further analysis and prediction. ### Getting Model This example use model [BERT Chinese Model](https://www.paddlepaddle.org.cn/hubdetail?name=bert_chinese_L-12_H-768_A-12&en_category=SemanticModel) from [Paddlehub](https://github.com/PaddlePaddle/PaddleHub). Install paddlehub first ``` pip install paddlehub ``` run ``` python prepare_model.py 20 ``` the 20 in the command above means max_seq_len in BERT model, which is the length of sample after preprocessing. the config file and model file for server side are saved in the folder bert_seq20_model. the config file generated for client side is saved in the folder bert_seq20_client. ### Getting Dict and Sample Dataset ``` sh get_data.sh ``` this script will download Chinese Dictionary File vocab.txt and Chinese Sample Data data-c.txt ### RPC Inference Service Run ``` python -m paddle_serving_server.serve --model bert_seq20_model/ --port 9292 #cpu inference service ``` Or ``` python -m paddle_serving_server_gpu.serve --model bert_seq20_model/ --port 9292 --gpu_ids 0 #launch gpu inference service at GPU 0 ``` ### RPC Inference before prediction we should install paddle_serving_app. This module provides data preprocessing for BERT model. ``` pip install paddle_serving_app ``` Run ``` head data-c.txt | python bert_client.py --model bert_seq20_client/serving_client_conf.prototxt ``` the client reads data from data-c.txt and send prediction request, the prediction is given by word vector. (Due to massive data in the word vector, we do not print it). ### HTTP Inference Service ``` export CUDA_VISIBLE_DEVICES=0,1 ``` set environmental variable to specify which gpus are used, the command above means gpu 0 and gpu 1 is used. ``` python bert_web_service.py bert_seq20_model/ 9292 #launch gpu inference service ``` ### HTTP Inference ``` curl -H "Content-Type:application/json" -X POST -d '{"words": "hello", "fetch":["pooled_output"]}' http://127.0.0.1:9292/bert/prediction ``` ### Benchmark Model:bert_chinese_L-12_H-768_A-12 GPU:GPU V100 * 1 CUDA/cudnn Version:CUDA 9.2,cudnn 7.1.4 In the test, 10 thousand samples in the sample data are copied into 100 thousand samples. Each client thread sends a sample of the number of threads. The batch size is 1, the max_seq_len is 20, and the time unit is seconds. When the number of client threads is 4, the prediction speed can reach 432 samples per second. Because a single GPU can only perform serial calculations internally, increasing the number of client threads can only reduce the idle time of the GPU. Therefore, after the number of threads reaches 4, the increase in the number of threads does not improve the prediction speed. | client thread num | prepro | client infer | op0 | op1 | op2 | postpro | total | | ------------------ | ------ | ------------ | ----- | ------ | ---- | ------- | ------ | | 1 | 3.05 | 290.54 | 0.37 | 239.15 | 6.43 | 0.71 | 365.63 | | 4 | 0.85 | 213.66 | 0.091 | 200.39 | 1.62 | 0.2 | 231.45 | | 8 | 0.42 | 223.12 | 0.043 | 110.99 | 0.8 | 0.098 | 232.05 | | 12 | 0.32 | 225.26 | 0.029 | 73.87 | 0.53 | 0.078 | 231.45 | | 16 | 0.23 | 227.26 | 0.022 | 55.61 | 0.4 | 0.056 | 231.9 | the following is the client thread num - latency bar chart: ![bert benchmark](../../../doc/bert-benchmark-batch-size-1.png)