NTMC-Community/MatchZoo
Facilitating the design, comparison and sharing of deep text matching models.
repo name | NTMC-Community/MatchZoo |
repo link | https://github.com/NTMC-Community/MatchZoo |
homepage | |
language | Python |
size (curr.) | 42050 kB |
stars (curr.) | 2926 |
created | 2017-06-08 |
license | Apache License 2.0 |
MatchZoo
Facilitating the design, comparison and sharing of deep text matching models. MatchZoo 是一个通用的文本匹配工具包,它旨在方便大家快速的实现、比较、以及分享最新的深度文本匹配模型。
🔥News: MatchZoo-py (PyTorch version of MatchZoo) is ready now.
The goal of MatchZoo is to provide a high-quality codebase for deep text matching research, such as document retrieval, question answering, conversational response ranking, and paraphrase identification. With the unified data processing pipeline, simplified model configuration and automatic hyper-parameters tunning features equipped, MatchZoo is flexible and easy to use.
Get Started in 60 Seconds
To train a Deep Semantic Structured Model, import matchzoo and prepare input data.
import matchzoo as mz
train_pack = mz.datasets.wiki_qa.load_data('train', task='ranking')
valid_pack = mz.datasets.wiki_qa.load_data('dev', task='ranking')
Preprocess your input data in three lines of code, keep track parameters to be passed into the model.
preprocessor = mz.preprocessors.DSSMPreprocessor()
train_processed = preprocessor.fit_transform(train_pack)
valid_processed = preprocessor.transform(valid_pack)
Make use of MatchZoo customized loss functions and evaluation metrics:
ranking_task = mz.tasks.Ranking(loss=mz.losses.RankCrossEntropyLoss(num_neg=4))
ranking_task.metrics = [
mz.metrics.NormalizedDiscountedCumulativeGain(k=3),
mz.metrics.MeanAveragePrecision()
]
Initialize the model, fine-tune the hyper-parameters.
model = mz.models.DSSM()
model.params['input_shapes'] = preprocessor.context['input_shapes']
model.params['task'] = ranking_task
model.guess_and_fill_missing_params()
model.build()
model.compile()
Generate pair-wise training data on-the-fly, evaluate model performance using customized callbacks on validation data.
train_generator = mz.PairDataGenerator(train_processed, num_dup=1, num_neg=4, batch_size=64, shuffle=True)
valid_x, valid_y = valid_processed.unpack()
evaluate = mz.callbacks.EvaluateAllMetrics(model, x=valid_x, y=valid_y, batch_size=len(valid_x))
history = model.fit_generator(train_generator, epochs=20, callbacks=[evaluate], workers=5, use_multiprocessing=False)
References
If you’re interested in the cutting-edge research progress, please take a look at awaresome neural models for semantic match.
Install
MatchZoo is dependent on Keras and Tensorflow. Two ways to install MatchZoo:
Install MatchZoo from Pypi:
pip install matchzoo
Install MatchZoo from the Github source:
git clone https://github.com/NTMC-Community/MatchZoo.git
cd MatchZoo
python setup.py install
Models
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DRMM: this model is an implementation of A Deep Relevance Matching Model for Ad-hoc Retrieval.
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MatchPyramid: this model is an implementation of Text Matching as Image Recognition
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ARC-I: this model is an implementation of Convolutional Neural Network Architectures for Matching Natural Language Sentences
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DSSM: this model is an implementation of Learning Deep Structured Semantic Models for Web Search using Clickthrough Data
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CDSSM: this model is an implementation of Learning Semantic Representations Using Convolutional Neural Networks for Web Search
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ARC-II: this model is an implementation of Convolutional Neural Network Architectures for Matching Natural Language Sentences
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MV-LSTM:this model is an implementation of A Deep Architecture for Semantic Matching with Multiple Positional Sentence Representations
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aNMM: this model is an implementation of aNMM: Ranking Short Answer Texts with Attention-Based Neural Matching Model
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DUET: this model is an implementation of Learning to Match Using Local and Distributed Representations of Text for Web Search
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K-NRM: this model is an implementation of End-to-End Neural Ad-hoc Ranking with Kernel Pooling
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CONV-KNRM: this model is an implementation of Convolutional neural networks for soft-matching n-grams in ad-hoc search
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models under development: Match-SRNN, DeepRank, BiMPM ….
Citation
If you use MatchZoo in your research, please use the following BibTex entry.
@inproceedings{Guo:2019:MLP:3331184.3331403,
author = {Guo, Jiafeng and Fan, Yixing and Ji, Xiang and Cheng, Xueqi},
title = {MatchZoo: A Learning, Practicing, and Developing System for Neural Text Matching},
booktitle = {Proceedings of the 42Nd International ACM SIGIR Conference on Research and Development in Information Retrieval},
series = {SIGIR'19},
year = {2019},
isbn = {978-1-4503-6172-9},
location = {Paris, France},
pages = {1297--1300},
numpages = {4},
url = {http://doi.acm.org/10.1145/3331184.3331403},
doi = {10.1145/3331184.3331403},
acmid = {3331403},
publisher = {ACM},
address = {New York, NY, USA},
keywords = {matchzoo, neural network, text matching},
}
Development Team
Contribution
Please make sure to read the Contributing Guide before creating a pull request. If you have a MatchZoo-related paper/project/compnent/tool, send a pull request to this awesome list!
Thank you to all the people who already contributed to MatchZoo!
Jianpeng Hou, Lijuan Chen, Yukun Zheng, Niuguo Cheng, Dai Zhuyun, Aneesh Joshi, Zeno Gantner, Kai Huang, stanpcf, ChangQF, Mike Kellogg
Project Organizers
- Jiafeng Guo
- Institute of Computing Technology, Chinese Academy of Sciences
- Homepage
- Yanyan Lan
- Institute of Computing Technology, Chinese Academy of Sciences
- Homepage
- Xueqi Cheng
- Institute of Computing Technology, Chinese Academy of Sciences
- Homepage
License
Copyright (c) 2015-present, Yixing Fan (faneshion)