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[ACL 2023] Official resources of "HAHE: Hierarchical Attention for Hyper-Relational Knowledge Graphs in Global and Local Level".

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HAHE

Official resources of "HAHE: Hierarchical Attention for Hyper-Relational Knowledge Graphs in Global and Local Level". Haoran Luo, Haihong E, Yuhao Yang, Yikai Guo, Mingzhi Sun, Tianyu Yao, Zichen Tang, Kaiyang Wan, Meina Song, Wei Lin. ACL 2023 [paper].

Overview

The Global-level Hypergraph-based representation and Local-level Sequence-based representation based on three examples of H-Facts in HKGs:

The overview of HAHE model for Global-level and Local-level Representation of HKGs:

Introduction

This is the Pytorch implementation of HAHE, a novel Hierarchical Attention model for HKG Embedding, including global-level and local-level attentions.

This repository contains the code and data, as well as the optimal configurations to reproduce the reported results.

Requirements and Installation

This project should work fine with the following environments:

  • Python 3.9.16 for data preprocessing, training and evaluation with:
    • torch 1.10.0
    • torch-scatter 2.0.9
    • torch-sparse 0.6.13
    • torch-cluster 1.6.0
    • torch-geometric 2.1.0.post1
    • numpy 1.23.3
  • GPU with CUDA 11.3

All the experiments are conducted on a single 11G NVIDIA GeForce 1080Ti.

Setup with Conda

bash env.sh

How to Run

Step 1. Download raw data

We consider three representative n-ary relational datasets, and the datasets can be downloaded from:

Step 2. Preprocess data

Then we convert the raw data into the required format for training and evaluation. The new data is organized into a directory named data, with a sub-directory for each dataset. In general, a sub-directory contains:

  • train.json: train set
  • valid.json: dev set
  • train+valid.json: train set + dev set
  • test.json: test set
  • all.json: combination of train/dev/test sets, used only for filtered evaluation
  • vocab.txt: vocabulary consisting of entities, relations, and special tokens like [MASK] and [PAD]

Note: JF17K is the only one that provides no dev set.

Step 3. Training & Evaluation

To train and evaluate the HAHE model, please run:

python -u ./src/run.py --name [TEST_NAME] --device [GPU_ID] -vocab_size [VOCAB_SIZE] --vocab_file [VOCAB_FILE] \
                       --train_file [TRAIN_FILE] --test_file [TEST_FILE] --ground_truth_file [GROUND_TRUTH_FILE] \
                       --num_workers [NUM_WORKERS] --num_relations [NUM_RELATIONS] \
                       --max_seq_len [MAX_SEQ_LEN] --max_arity [MAX_ARITY]

Here you should first create two directories to store the parameters and results of HAHE respectively, then you can set parameters of one dataset according to its statisitcs. [TEST_NAME] is the unique name identifying one Training & Evaluation, [GPU_ID] is the GPU ID you want to use. [VOCAB_SIZE] is the number of vocab of the dataset. [VOCAB_FILE] & [TRAIN_FILE] & [TEST_FILE] & [GROUND_TRUTH_FILE] are the paths storing the vocab file("vocab.txt"), train file("train.json"), test file("test.json") and ground truth file("all.json"). [NUM_WORKERS] is the number of workers when reading the data. [NUM_RELATIONS] is the number of relations of the dataset. [MAX_ARITY] is the maximum arity of N-arys in the datast, [MAX_SEQ_LEN] is the maximum length of N-ary sequences, which is equal to (2 * [MAX_ARITY] - 1).

Please modify those hyperparametes according to your needs and characteristics of different datasets.

For JF17K, to train and evalute on this dataset using default hyperparametes, please run:

python -u ./src/run.py --dataset "jf17k" --device "0" --vocab_size 29148 --vocab_file "./data/jf17k/vocab.txt" --train_file "./data/jf17k/train.json" --test_file "./data/jf17k/test.json" --ground_truth_file "./data/jf17k/all.json" --num_workers 1 --num_relations 501 --max_seq_len 11 --max_arity 6 --hidden_dim 256 --global_layers 2 --global_dropout 0.9 --global_activation "elu" --global_heads 4 --local_layers 12 --local_dropout 0.35 --local_heads 4 --decoder_activation "gelu" --batch_size 1024 --lr 5e-4 --weight_deca 0.002 --entity_soft 0.9 --relation_soft 0.9 --hyperedge_dropout 0.85 --epoch 300 --warmup_proportion 0.05

For Wikipeople, to train and evalute on this dataset using default hyperparametes, please run:

python -u ./src/run.py --dataset "wikipeople" --device "0" --vocab_size 35005 --vocab_file "./data/wikipeople/vocab.txt" --train_file "./data/wikipeople/train+valid.json" --test_file "./data/wikipeople/test.json" --ground_truth_file "./data/wikipeople/all.json" --num_workers 1 --num_relations 178 --max_seq_len 13 --max_arity 7 --hidden_dim 256 --global_layers 2 --global_dropout 0.1 --global_activation "elu" --global_heads 4 --local_layers 12 --local_dropout 0.1 --local_heads 4 --decoder_activation "gelu" --batch_size 1024 --lr 5e-4 --weight_deca 0.01 --entity_soft 0.2 --relation_soft 0.1 --hyperedge_dropout 0.99 --epoch 300 --warmup_proportion 0.1

For WD50K, to train and evalute on this dataset using default hyperparametes, please run:

python -u ./src/run.py --dataset "wd50k" --device "0" --vocab_size 47688 --vocab_file "./data/wd50k/vocab.txt" --train_file "./data/wd50k/train+valid.json" --test_file "./data/wd50k/test.json" --ground_truth_file "./data/wd50k/all.json" --num_workers 1 --num_relations 531 --max_seq_len 19 --max_arity 10 --hidden_dim 256 --global_layers 2 --global_dropout 0.1 --global_activation "elu" --global_heads 4 --local_layers 12 --local_dropout 0.1 --local_heads 4 --decoder_activation "gelu" --batch_size 512 --lr 5e-4 --weight_deca 0.01 --entity_soft 0.2 --relation_soft 0.1 --hyperedge_dropout 0.8 --epoch 300 --warmup_proportion 0.1

BibTex

If you find this work is helpful for your research, please cite:

@inproceedings{luo2023hahe,
    title = "{HAHE}: Hierarchical Attention for Hyper-Relational Knowledge Graphs in Global and Local Level",
    author = "Luo, Haoran  and
      E, Haihong  and
      Yang, Yuhao  and
      Guo, Yikai  and
      Sun, Mingzhi  and
      Yao, Tianyu  and
      Tang, Zichen  and
      Wan, Kaiyang  and
      Song, Meina  and
      Lin, Wei",
    booktitle = "Proceedings of the 61st Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers)",
    month = jul,
    year = "2023",
    address = "Toronto, Canada",
    publisher = "Association for Computational Linguistics",
    url = "https://aclanthology.org/2023.acl-long.450",
    doi = "10.18653/v1/2023.acl-long.450",
    pages = "8095--8107",
    abstract = "Link Prediction on Hyper-relational Knowledge Graphs (HKG) is a worthwhile endeavor. HKG consists of hyper-relational facts (H-Facts), composed of a main triple and several auxiliary attribute-value qualifiers, which can effectively represent factually comprehensive information. The internal structure of HKG can be represented as a hypergraph-based representation globally and a semantic sequence-based representation locally. However, existing research seldom simultaneously models the graphical and sequential structure of HKGs, limiting HKGs{'} representation. To overcome this limitation, we propose a novel Hierarchical Attention model for HKG Embedding (HAHE), including global-level and local-level attention. The global-level attention can model the graphical structure of HKG using hypergraph dual-attention layers, while the local-level attention can learn the sequential structure inside H-Facts via heterogeneous self-attention layers. Experiment results indicate that HAHE achieves state-of-the-art performance in link prediction tasks on HKG standard datasets. In addition, HAHE addresses the issue of HKG multi-position prediction for the first time, increasing the applicability of the HKG link prediction task. Our code is publicly available.",
}

For further questions, please contact: luohaoran@bupt.edu.cn.

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