Edit model card

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:

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}
}
Downloads last month
8,497
Inference Examples
This model does not have enough activity to be deployed to Inference API (serverless) yet. Increase its social visibility and check back later, or deploy to Inference Endpoints (dedicated) instead.

Model tree for whaleloops/phrase-bert

Finetunes
1 model

Space using whaleloops/phrase-bert 1