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EasyTransfer is designed to make the development of transfer learning in NLP applications easier.

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EasyTransfer: A Simple and Scalable Deep Transfer Learning Platform for NLP Applications

Intro

The literature has witnessed the success of applying deep Transfer Learning (TL) for many real-world NLP applications, yet it is not easy to build an easy-to-use TL toolkit to achieve such a goal. To bridge this gap, EasyTransfer is designed to facilitate users leveraging deep TL for NLP applications at ease. It was developed in Alibaba in early 2017, and has been used in the major BUs in Alibaba group and achieved very good results in 20+ business scenarios. It supports the mainstream pre-trained ModelZoo, including pre-trained language models (PLMs) and multi-modal models on the PAI platform, integrates the SOTA models for the mainstream NLP applications in AppZoo, and supports knowledge distillation for PLMs. EasyTransfer is very convenient for users to quickly start model training, evaluation, offline prediction, and online deployment. It also provides rich APIs to make the development of NLP and transfer learning easier.

Main Features

  • Language model pre-training tool: it supports a comprehensive pre-training tool for users to pre-train language models such as T5 and BERT. Based on the tool, the user can easily train a model to achieve great results in the benchmark leaderboards such as CLUE, GLUE, and SuperGLUE;
  • ModelZoo with rich and high-quality pre-trained models: supports the Continual Pre-training and Fine-tuning of mainstream LM models such as BERT, ALBERT, RoBERTa, T5, etc. It also supports a multi-modal model FashionBERT developed using the fashion domain data in Alibaba;
  • AppZoo with rich and easy-to-use applications: supports mainstream NLP applications and those models developed inside of Alibaba, e.g.: HCNN for text matching, and BERT-HAE for MRC.
  • Automatic knowledge distillation: supports task-adaptive knowledge distillation to distill knowledge from a teacher model to a small task-specific student model to reduce parameter size while keep comparable performance.
  • Easy-to-use and high-performance distributed strategy: based on the in-house PAI features, it provides easy-to-use and high-performance distributed strategy for multiple CPU/GPU training.

Architecture

image.png

Installation

You can either install from pip

$ pip install easytransfer

or setup from the source:

$ git clone https://github.com/alibaba/EasyTransfer.git
$ cd EasyTransfer
$ python setup.py install

This repo is tested on Python3.6/2.7, tensorflow 1.12.3

Quick Start

Now let's show how to use just 30 lines of code to build a text classification model based on BERT.

from easytransfer import base_model, layers, model_zoo, preprocessors
from easytransfer.datasets import CSVReader, CSVWriter
from easytransfer.losses import softmax_cross_entropy
from easytransfer.evaluators import classification_eval_metrics

class TextClassification(base_model):
    def __init__(self, **kwargs):
        super(TextClassification, self).__init__(**kwargs)
	self.pretrained_model_name = "google-bert-base-en"
        self.num_labels = 2
        
    def build_logits(self, features, mode=None):
        preprocessor = preprocessors.get_preprocessor(self.pretrained_model_name)
        model = model_zoo.get_pretrained_model(self.pretrained_model_name)
        dense = layers.Dense(self.num_labels)
        input_ids, input_mask, segment_ids, label_ids = preprocessor(features)
        _, pooled_output = model([input_ids, input_mask, segment_ids], mode=mode)
        return dense(pooled_output), label_ids

    def build_loss(self, logits, labels):
        return softmax_cross_entropy(labels, self.num_labels, logits)
    
    def build_eval_metrics(self, logits, labels):
        return classification_eval_metrics(logits, labels, self.num_labels)
        
app = TextClassification()
train_reader = CSVReader(input_glob=app.train_input_fp, is_training=True, batch_size=app.train_batch_size)
eval_reader = CSVReader(input_glob=app.eval_input_fp, is_training=False, batch_size=app.eval_batch_size)              
app.run_train_and_evaluate(train_reader=train_reader, eval_reader=eval_reader)

You can find more details or play with the code in our Jupyter/Notebook PAI-DSW.

You can also use AppZoo Command Line Tools to quickly train an App model. Take text classification on SST-2 dataset as an example. First you can download the train.tsv, dev.tsv and test.tsv, then start training:

$ easy_transfer_app --mode train \
    --inputTable=./train.tsv,./dev.tsv \
    --inputSchema=content:str:1,label:str:1 \
    --firstSequence=content \
    --sequenceLength=128 \
    --labelName=label \
    --labelEnumerateValues=0,1 \
    --checkpointDir=./sst2_models/\
    --numEpochs=3 \
    --batchSize=32 \
    --optimizerType=adam \
    --learningRate=2e-5 \
    --modelName=text_classify_bert \
    --advancedParameters='pretrain_model_name_or_path=google-bert-base-en'

And then predict:

$ easy_transfer_app --mode predict \
    --inputTable=./test.tsv \
    --outputTable=./test.pred.tsv \
    --inputSchema=id:str:1,content:str:1 \
    --firstSequence=content \
    --appendCols=content \
    --outputSchema=predictions,probabilities,logits \
    --checkpointPath=./sst2_models/ 

To learn more about the usage of AppZoo, please refer to our documentation.

Tutorials

Here is the CLUE benchmark example

You can find more benchmarks in https://www.yuque.com/easytransfer/cn/rkm4p7

Links

Tutorials:https://www.yuque.com/easytransfer/itfpm9/qtzvuc

ModelZoo:https://www.yuque.com/easytransfer/itfpm9/oszcof

AppZoo:https://www.yuque.com/easytransfer/itfpm9/ky6hky

API docs:http://atp-modelzoo-sh.oss-cn-shanghai.aliyuncs.com/release/eztransfer_docs/html/index.html

Contact Us

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Citation

@article{easytransfer,
    author = {Minghui Qiu and 
	    Peng Li and 
	    Chengyu Wang and 
	    Haojie Pan and 
	    An Wang and 
	    Cen Chen and 
	    Xianyan Jia and 
	    Yaliang Li and 
	    Jun Huang and 
	    Deng Cai and 
	    Wei Lin},
    title = {EasyTransfer - A Simple and Scalable Deep Transfer Learning Platform for NLP Applications
},
    journal = {CIKM 2021},
    url = {https://arxiv.org/abs/2011.09463},
    year = {2021}
}