/DeepKE

An Open Toolkit for Knowledge Graph Extraction and Construction published at EMNLP2022 System Demonstrations.

Primary LanguagePythonMIT LicenseMIT

Documentation PyPI GitHub Documentation Open In Colab

English | 简体中文

A Deep Learning Based Knowledge Extraction Toolkit
for Knowledge Graph Construction

DeepKE is a knowledge extraction toolkit for knowledge graph construction supporting cnSchemalow-resource, document-level and multimodal scenarios for entity, relation and attribute extraction. We provide documents, Google Colab tutorials, online demo, paper, slides and poster for beginners.

Reading Materials:

Data-Efficient Knowledge Graph Construction, 高效知识图谱构建 (Tutorial on CCKS 2022) [slides]

Efficient and Robust Knowledge Graph Construction (Tutorial on AACL-IJCNLP 2022) [slides]

PromptKG Family: a Gallery of Prompt Learning & KG-related Research Works, Toolkits, and Paper-list [Resources]

Knowledge Extraction in Low-Resource Scenarios: Survey and Perspective [Survey][Paper-list]

Reasoning with Language Model Prompting [Survey][Paper-list]

Related Toolkit:

DoccanoMarkToolLabelStudio:Data Annotation Toolkits

LambdaKG: A library and benchmark for PLM-based KG embeddings

Table of Contents


What's New

Nov, 2022

Sept, 2022

Aug, 2022

June, 2022

May, 2022

  • We have released DeepKE-cnschema with off-the-shelf knowledge extraction models.

Jan, 2022

Dec, 2021

  • We have added dockerfile to create the enviroment automatically.

Nov, 2021

  • The demo of DeepKE, supporting real-time extration without deploying and training, has been released.
  • The documentation of DeepKE, containing the details of DeepKE such as source codes and datasets, has been released.

Oct, 2021

  • pip install deepke
  • The codes of deepke-v2.0 have been released.

Aug, 2019

  • The codes of deepke-v1.0 have been released.

Aug, 2018

  • The project DeepKE startup and codes of deepke-v0.1 have been released.

Prediction Demo

There is a demonstration of prediction. The GIF file is created by Terminalizer. Get the code.


Model Framework

  • DeepKE contains a unified framework for named entity recognition, relation extraction and attribute extraction, the three knowledge extraction functions.
  • Each task can be implemented in different scenarios. For example, we can achieve relation extraction in standard, low-resource (few-shot), document-level and multimodal settings.
  • Each application scenario comprises of three components: Data including Tokenizer, Preprocessor and Loader, Model including Module, Encoder and Forwarder, Core including Training, Evaluation and Prediction.

Quick Start

DeepKE supports pip install deepke.
Take the fully supervised relation extraction for example.

Step1 Download the basic code

git clone --depth 1 https://github.com/zjunlp/DeepKE.git

Step2 Create a virtual environment using Anaconda and enter it.

conda create -n deepke python=3.8

conda activate deepke
  1. Install DeepKE with source code (Recommended)

    python setup.py install
    
    python setup.py develop
  2. Install DeepKE with pip

    pip install deepke

Step3 Enter the task directory

cd DeepKE/example/re/standard

Step4 Download the dataset, or follow the annotation instructions to obtain data

wget 120.27.214.45/Data/re/standard/data.tar.gz

tar -xzvf data.tar.gz

Many types of data formats are supported,and details are in each part.

Step5 Training (Parameters for training can be changed in the conf folder)

We support visual parameter tuning by using wandb.

python run.py

Step6 Prediction (Parameters for prediction can be changed in the conf folder)

Modify the path of the trained model in predict.yaml.The absolute path of the model needs to be used,such as xxx/checkpoints/2019-12-03_ 17-35-30/cnn_ epoch21.pth.

python predict.py
  • ❗NOTE: if you encounter any errors, please refer to the Tips or submit a GitHub issue.

Requirements

python == 3.8

  • torch == 1.5
  • hydra-core == 1.0.6
  • tensorboard == 2.4.1
  • matplotlib == 3.4.1
  • transformers == 3.4.0
  • jieba == 0.42.1
  • scikit-learn == 0.24.1
  • pytorch-transformers == 1.2.0
  • seqeval == 1.2.2
  • tqdm == 4.60.0
  • opt-einsum==3.3.0
  • wandb==0.12.7
  • ujson

Introduction of Three Functions

1. Named Entity Recognition

  • Named entity recognition seeks to locate and classify named entities mentioned in unstructured text into pre-defined categories such as person names, organizations, locations, organizations, etc.

  • The data is stored in .txt files. Some instances as following (Users can label data based on the tools Doccano, MarkTool, or they can use the Weak Supervision with DeepKE to obtain data automatically):

    Sentence Person Location Organization
    本报北京9月4日讯记者杨涌报道:部分省区人民日报宣传发行工作座谈会9月3日在4日在京举行。 杨涌 北京 人民日报
    《红楼梦》由王扶林导演,周汝昌、王蒙、周岭等多位专家参与制作。 王扶林,周汝昌,王蒙,周岭
    秦始皇兵马俑位于陕西省西安市,是世界八大奇迹之一。 秦始皇 陕西省,西安市
  • Read the detailed process in specific README

    • STANDARD (Fully Supervised)

      We provide the off-the-shelf model, DeepKE-cnSchema-NER, which will extract entities in cnSchema without training.

      Step1 Enter DeepKE/example/ner/standard. Download the dataset.

      wget 120.27.214.45/Data/ner/standard/data.tar.gz
      
      tar -xzvf data.tar.gz

      Step2 Training

      The dataset and parameters can be customized in the data folder and conf folder respectively.

      python run.py

      Step3 Prediction

      python predict.py
    • FEW-SHOT

      Step1 Enter DeepKE/example/ner/few-shot. Download the dataset.

      wget 120.27.214.45/Data/ner/few_shot/data.tar.gz
      
      tar -xzvf data.tar.gz

      Step2 Training in the low-resouce setting

      The directory where the model is loaded and saved and the configuration parameters can be cusomized in the conf folder.

      python run.py +train=few_shot

      Users can modify load_path in conf/train/few_shot.yaml to use existing loaded model.

      Step3 Add - predict to conf/config.yaml, modify loda_path as the model path and write_path as the path where the predicted results are saved in conf/predict.yaml, and then run python predict.py

      python predict.py
    • MULTIMODAL

      Step1 Enter DeepKE/example/ner/multimodal. Download the dataset.

      wget 120.27.214.45/Data/ner/multimodal/data.tar.gz
      
      tar -xzvf data.tar.gz

      We use RCNN detected objects and visual grounding objects from original images as visual local information, where RCNN via faster_rcnn and visual grounding via onestage_grounding.

      Step2 Training in the multimodal setting

      • The dataset and parameters can be customized in the data folder and conf folder respectively.
      • Start with the model trained last time: modify load_path in conf/train.yamlas the path where the model trained last time was saved. And the path saving logs generated in training can be customized by log_dir.
      python run.py

      Step3 Prediction

      python predict.py

2. Relation Extraction

  • Relationship extraction is the task of extracting semantic relations between entities from a unstructured text.

  • The data is stored in .csv files. Some instances as following (Users can label data based on the tools Doccano, MarkTool, or they can use the Weak Supervision with DeepKE to obtain data automatically):

    Sentence Relation Head Head_offset Tail Tail_offset
    《岳父也是爹》是王军执导的电视剧,由马恩然、范明主演。 导演 岳父也是爹 1 王军 8
    《九玄珠》是在纵横中文网连载的一部小说,作者是龙马。 连载网站 九玄珠 1 纵横中文网 7
    提起杭州的美景,西湖总是第一个映入脑海的词语。 所在城市 西湖 8 杭州 2
  • !NOTE: If there are multiple entity types for one relation, entity types can be prefixed with the relation as inputs.

  • Read the detailed process in specific README

    • STANDARD (Fully Supervised)

      We provide the off-the-shelf model, DeepKE-cnSchema-RE, which will extract relations in cnSchema without training.

      Step1 Enter the DeepKE/example/re/standard folder. Download the dataset.

      wget 120.27.214.45/Data/re/standard/data.tar.gz
      
      tar -xzvf data.tar.gz

      Step2 Training

      The dataset and parameters can be customized in the data folder and conf folder respectively.

      python run.py

      Step3 Prediction

      python predict.py
    • FEW-SHOT

      Step1 Enter DeepKE/example/re/few-shot. Download the dataset.

      wget 120.27.214.45/Data/re/few_shot/data.tar.gz
      
      tar -xzvf data.tar.gz

      Step 2 Training

      • The dataset and parameters can be customized in the data folder and conf folder respectively.
      • Start with the model trained last time: modify train_from_saved_model in conf/train.yamlas the path where the model trained last time was saved. And the path saving logs generated in training can be customized by log_dir.
      python run.py

      Step3 Prediction

      python predict.py
    • DOCUMENT

      Step1 Enter DeepKE/example/re/document. Download the dataset.

      wget 120.27.214.45/Data/re/document/data.tar.gz
      
      tar -xzvf data.tar.gz

      Step2 Training

      • The dataset and parameters can be customized in the data folder and conf folder respectively.
      • Start with the model trained last time: modify train_from_saved_model in conf/train.yamlas the path where the model trained last time was saved. And the path saving logs generated in training can be customized by log_dir.
      python run.py

      Step3 Prediction

      python predict.py
    • MULTIMODAL

      Step1 Enter DeepKE/example/re/multimodal. Download the dataset.

      wget 120.27.214.45/Data/re/multimodal/data.tar.gz
      
      tar -xzvf data.tar.gz

      We use RCNN detected objects and visual grounding objects from original images as visual local information, where RCNN via faster_rcnn and visual grounding via onestage_grounding.

      Step2 Training

      • The dataset and parameters can be customized in the data folder and conf folder respectively.
      • Start with the model trained last time: modify load_path in conf/train.yamlas the path where the model trained last time was saved. And the path saving logs generated in training can be customized by log_dir.
      python run.py

      Step3 Prediction

      python predict.py

3. Attribute Extraction

  • Attribute extraction is to extract attributes for entities in a unstructed text.

  • The data is stored in .csv files. Some instances as following:

    Sentence Att Ent Ent_offset Val Val_offset
    张冬梅,女,汉族,1968年2月生,河南淇县人 民族 张冬梅 0 汉族 6
    诸葛亮,字孔明,三国时期杰出的军事家、文学家、发明家。 朝代 诸葛亮 0 三国时期 8
    2014年10月1日许鞍华执导的电影《黄金时代》上映 上映时间 黄金时代 19 2014年10月1日 0
  • Read the detailed process in specific README

    • STANDARD (Fully Supervised)

      Step1 Enter the DeepKE/example/ae/standard folder. Download the dataset.

      wget 120.27.214.45/Data/ae/standard/data.tar.gz
      
      tar -xzvf data.tar.gz

      Step2 Training

      The dataset and parameters can be customized in the data folder and conf folder respectively.

      python run.py

      Step3 Prediction

      python predict.py

Notebook Tutorial

This toolkit provides many Jupyter Notebook and Google Colab tutorials. Users can study DeepKE with them.


Tips

1.Using nearest mirror, THU in China, will speed up the installation of Anaconda; aliyun in China, will speed up pip install XXX.

2.When encountering ModuleNotFoundError: No module named 'past',run pip install future .

3.It's slow to install the pretrained language models online. Recommend download pretrained models before use and save them in the pretrained folder. Read README.md in every task directory to check the specific requirement for saving pretrained models.

4.The old version of DeepKE is in the deepke-v1.0 branch. Users can change the branch to use the old version. The old version has been totally transfered to the standard relation extraction (example/re/standard).

5.It's recommended to install DeepKE with source codes. Because user may meet some problems in Windows system with 'pip',and the source code modification will not work,seeissue

6.More related low-resource knowledge extraction works can be found in Knowledge Extraction in Low-Resource Scenarios: Survey and Perspective.

7.Make sure the exact versions of requirements in requirements.txt.


To do

In next version, we plan to add event extraction to the toolkit.

Meanwhile, we will offer long-term maintenance to fix bugs, solve issues and meet new requests. So if you have any problems, please put issues to us.


Citation

Please cite our paper if you use DeepKE in your work

@article{zhang2022deepke,
  title={DeepKE: A Deep Learning Based Knowledge Extraction Toolkit for Knowledge Base Population},
  author={Zhang, Ningyu and Xu, Xin and Tao, Liankuan and Yu, Haiyang and Ye, Hongbin and Qiao, Shuofei and Xie, Xin and Chen, Xiang and Li, Zhoubo and Li, Lei and others},
  journal={arXiv preprint arXiv:2201.03335},
  year={2022}
}

Contributors

Zhejiang University: Ningyu Zhang, Liankuan Tao, Xin Xu, Haiyang Yu, Hongbin Ye, Shuofei Qiao, Peng Wang, Xin Xie, Xiang Chen, Zhoubo Li, Lei Li, Xiaozhuan Liang, Yunzhi Yao, Shumin Deng, Wen Zhang, Guozhou Zheng, Huajun Chen

Community Contributors: thredreams, eltociear

Alibaba Group: Feiyu Xiong, Qiang Chen

DAMO Academy: Zhenru Zhang, Chuanqi Tan, Fei Huang

Other Knowledge Extraction Open-Source Projects