whaleloops/phrase-bert
This is the official repository for the EMNLP 2021 long paper Phrase-BERT: Improved Phrase Embeddings from BERT with an Application to Corpus Exploration. We provide code for training and evaluating Phrase-BERT in addition to the datasets used in the paper.
Usage (Sentence-Transformers)
Using this model becomes easy when you have sentence-transformers installed:
pip install -U sentence-transformers
Our model is tested on pytorch=1.9.0, tranformers=4.8.1, sentence-tranformers = 2.1.0 TODO
Then you can use the model like this:
from sentence_transformers import SentenceTransformer
phrase_list = [ 'play an active role', 'participate actively', 'active lifestyle']
model = SentenceTransformer('whaleloops/phrase-bert')
phrase_embs = model.encode( phrase_list )
[p1, p2, p3] = phrase_embs
As in sentence-BERT, the default output is a list of numpy arrays:
for phrase, embedding in zip(phrase_list, phrase_embs):
print("Phrase:", phrase)
print("Embedding:", embedding)
print("")
An example of computing the dot product of phrase embeddings:
import numpy as np
print(f'The dot product between phrase 1 and 2 is: {np.dot(p1, p2)}')
print(f'The dot product between phrase 1 and 3 is: {np.dot(p1, p3)}')
print(f'The dot product between phrase 2 and 3 is: {np.dot(p2, p3)}')
An example of computing cosine similarity of phrase embeddings:
import torch
from torch import nn
cos_sim = nn.CosineSimilarity(dim=0)
print(f'The cosine similarity between phrase 1 and 2 is: {cos_sim( torch.tensor(p1), torch.tensor(p2))}')
print(f'The cosine similarity between phrase 1 and 3 is: {cos_sim( torch.tensor(p1), torch.tensor(p3))}')
print(f'The cosine similarity between phrase 2 and 3 is: {cos_sim( torch.tensor(p2), torch.tensor(p3))}')
The output should look like:
The dot product between phrase 1 and 2 is: 218.43600463867188
The dot product between phrase 1 and 3 is: 165.48483276367188
The dot product between phrase 2 and 3 is: 160.51708984375
The cosine similarity between phrase 1 and 2 is: 0.8142536282539368
The cosine similarity between phrase 1 and 3 is: 0.6130303144454956
The cosine similarity between phrase 2 and 3 is: 0.584893524646759
Evaluation
Given the lack of a unified phrase embedding evaluation benchmark, we collect the following five phrase semantics evaluation tasks, which are described further in our paper:
- Turney [Download ]
- BiRD [Download]
- PPDB [Download]
- PPDB-filtered [Download]
- PAWS-short [Download Train-split ] [Download Dev-split ] [Download Test-split ]
Change config/model_path.py
with the model path according to your directories and
For evaluation on Turney, run
python eval_turney.py
For evaluation on BiRD, run
python eval_bird.py
for evaluation on PPDB / PPDB-filtered / PAWS-short, run
eval_ppdb_paws.py
with:nohup python -u eval_ppdb_paws.py \ --full_run_mode \ --task <task-name> \ --data_dir <input-data-dir> \ --result_dir <result-storage-dr> \ >./output.txt 2>&1 &
Train your own Phrase-BERT
If you would like to go beyond using the pre-trained Phrase-BERT model, you may train your own Phrase-BERT using data from the domain you are interested in. Please refer to
phrase-bert/phrase_bert_finetune.py
The datasets we used to fine-tune Phrase-BERT are here: training data csv file and validation data csv file.
To re-produce the trained Phrase-BERT, please run:
export INPUT_DATA_PATH=<directory-of-phrasebert-finetuning-data>
export TRAIN_DATA_FILE=<training-data-filename.csv>
export VALID_DATA_FILE=<validation-data-filename.csv>
export INPUT_MODEL_PATH=bert-base-nli-stsb-mean-tokens
export OUTPUT_MODEL_PATH=<directory-of-saved-model>
python -u phrase_bert_finetune.py \
--input_data_path $INPUT_DATA_PATH \
--train_data_file $TRAIN_DATA_FILE \
--valid_data_file $VALID_DATA_FILE \
--input_model_path $INPUT_MODEL_PATH \
--output_model_path $OUTPUT_MODEL_PATH
Citation:
Please cite us if you find this useful:
@inproceedings{phrasebertwang2021,
author={Shufan Wang and Laure Thompson and Mohit Iyyer},
Booktitle = {Empirical Methods in Natural Language Processing},
Year = "2021",
Title={Phrase-BERT: Improved Phrase Embeddings from BERT with an Application to Corpus Exploration}
}
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