# ABTEST in Paddle Serving ([简体中文](./ABTEST_IN_PADDLE_SERVING_CN.md)|English) This document will use an example of text classification task based on IMDB dataset to show how to build a A/B Test framework using Paddle Serving. The structure relationship between the client and servers in the example is shown in the figure below. Note that: A/B Test is only applicable to RPC mode, not web mode. ### Download Data and Models ```shell cd Serving/python/examples/imdb sh get_data.sh ``` ### Processing Data The following Python code will process the data `test_data/part-0` and write to the `processed.data` file. ``` python from imdb_reader import IMDBDataset imdb_dataset = IMDBDataset() imdb_dataset.load_resource('imdb.vocab') with open('test_data/part-0') as fin: with open('processed.data', 'w') as fout: for line in fin: word_ids, label = imdb_dataset.get_words_and_label(line) fout.write("{};{}\n".format(','.join([str(x) for x in word_ids]), label[0])) ``` ### Start Server Here, we [use docker](https://github.com/PaddlePaddle/Serving/blob/develop/doc/RUN_IN_DOCKER.md) to start the server-side service. First, start the BOW server, which enables the `8000` port: ``` shell docker run -dit -v $PWD/imdb_bow_model:/model -p 8000:8000 --name bow-server hub.baidubce.com/paddlepaddle/serving:0.2.0 docker exec -it bow-server bash pip install paddle-serving-server python -m paddle_serving_server.serve --model model --port 8000 >std.log 2>err.log & exit ``` Similarly, start the LSTM server, which enables the `9000` port: ```bash docker run -dit -v $PWD/imdb_lstm_model:/model -p 9000:9000 --name lstm-server hub.baidubce.com/paddlepaddle/serving:0.2.0 docker exec -it lstm-server bash pip install paddle-serving-server python -m paddle_serving_server.serve --model model --port 9000 >std.log 2>err.log & exit ``` ### Start Client Run the following Python code on the host computer to start client. Make sure that the host computer is installed with the `paddle-serving-client` package. ``` go from paddle_serving_client import Client client = Client() client.load_client_config('imdb_bow_client_conf/serving_client_conf.prototxt') client.add_variant("bow", ["127.0.0.1:8000"], 10) client.add_variant("lstm", ["127.0.0.1:9000"], 90) client.connect() with open('processed.data') as f: cnt = {"bow": {'acc': 0, 'total': 0}, "lstm": {'acc': 0, 'total': 0}} for line in f: word_ids, label = line.split(';') word_ids = [int(x) for x in word_ids.split(',')] feed = {"words": word_ids} fetch = ["acc", "cost", "prediction"] [fetch_map, tag] = client.predict(feed=feed, fetch=fetch, need_variant_tag=True) if (float(fetch_map["prediction"][1]) - 0.5) * (float(label[0]) - 0.5) > 0: cnt[tag]['acc'] += 1 cnt[tag]['total'] += 1 for tag, data in cnt.items(): print('[{}](total: {}) acc: {}'.format(tag, data['total'], float(data['acc']) / float(data['total']))) ``` In the code, the function `client.add_variant(tag, clusters, variant_weight)` is to add a variant with label `tag` and flow weight `variant_weight`. In this example, a BOW variant with label of `bow` and flow weight of `10`, and an LSTM variant with label of `lstm` and a flow weight of `90` are added. The flow on the client side will be distributed to two variants according to the ratio of `10:90`. When making prediction on the client side, if the parameter `need_variant_tag=True` is specified, the response will contains the variant tag corresponding to the distribution flow. ### Expected Results ``` python [lstm](total: 1867) acc: 0.490091055169 [bow](total: 217) acc: 0.73732718894 ```