This blog-post demonstrate the finbert-embedding pypi package which extracts token and sentence level embedding from FinBERT model (BERT language model fine-tuned on financial news articles). The finbert model was trained and open sourced by Dogu Tan Araci (University of Amsterdam).
BERT, published by Google, is conceptually simple and empirically powerful as it obtained state-of-the-art results on eleven natural language processing tasks.
The objective of this project is to obtain the word or sentence embeddings from FinBERT, pre-trained model by Dogu Tan Araci. FinBERT, which is a BERT language model further trained on financial news articles for adapting financial domain. It achieved the state-of-the-art on FiQA sentiment scoring and Financial PhraseBank dataset. Paper here .
Instead of building and perform fine-tuning for an end-to-end NLP model, You can directly utilize word embeddings from Financial BERT to build NLP models for various downstream tasks eg. Text clustering or Word clustering or Extractive summarization etc.
(Recommended to create a conda env to have isolation and avoid dependency clashes)
pip install finbert-embedding==0.1.4
Note: If you get error in installing this package (common error with Tensorflow):
Installing collected packages: wrapt, tensorflow
Found existing installation: wrapt 1.10.11
ERROR: Cannot uninstall ‘wrapt’. It is a distutils installed project……
then, just do this:
pip install wrapt --upgrade --ignore-installed pip install finbert-embedding==0.1.4
Word embeddings generated are list of 768 dimensional embeddings for each word.
Sentence embedding generated is 768 dimensional embedding which is average of each token.
One can also set
class to extract token/sentence embeddings from any other fine-tuned or even original BERT model. FinBERT model automatically gets downloaded from the dropbox as the class initialization is done i.e.
finbert = FinbertEmbedding()
from finbert_embedding.embedding import FinbertEmbedding text = "Another PSU bank, Punjab National Bank which also reported numbers managed to see a slight improvement in asset quality." # Class Initialization (You can set default 'model_path=None' as your finetuned BERT model path while Initialization) finbert = FinbertEmbedding() word_embeddings = finbert.word_vector(text) sentence_embedding = finbert.sentence_vector(text) print("Text Tokens: ", finbert.tokens) # Text Tokens: ['another', 'psu', 'bank', ',', 'punjab', 'national', 'bank', 'which', 'also', 'reported', 'numbers', 'managed', 'to', 'see', 'a', 'slight', 'improvement', 'in', 'asset', 'quality', '.'] print ('Shape of Word Embeddings: %d x %d' % (len(word_embeddings), len(word_embeddings))) # Shape of Word Embeddings: 21 x 768 print("Shape of Sentence Embedding = ",len(sentence_embedding)) # Shape of Sentence Embedding = 768
A decent representation for a downstream task doesn’t mean that it will be meaningful in terms of cosine distance. Since cosine distance is a linear space where all dimensions are weighted equally. if you want to use cosine distance anyway, then please focus on the rank not the absolute value.
Namely, do not use:
if cosine(A, B) > 0.9, then A and B are similar
Please consider the following instead:
if cosine(A, B) > cosine(A, C), then A is more similar to B than C.
from finbert_embedding.embedding import FinbertEmbedding text = "After stealing money from the bank vault, the bank robber was seen fishing on the Mississippi river bank." finbert = FinbertEmbedding() word_embeddings = finbert.word_vector(text) from scipy.spatial.distance import cosine diff_bank = 1 - cosine(word_embeddings, word_embeddings) same_bank = 1 - cosine(word_embeddings, word_embeddings) print('Vector similarity for similar bank meanings (bank vault & bank robber): %.2f' % same_bank) print('Vector similarity for different bank meanings (bank robber & river bank): %.2f' % diff_bank) # Vector similarity for similar bank meanings (bank vault & bank robber): 0.92 # Vector similarity for different bank meanings (bank robber & river bank): 0.64
According to BERT author Jacob Devlin:
I'm not sure what these vectors are, since BERT does not generate meaningful sentence vectors. It seems that this is doing average pooling over the word tokens to get a sentence vector, but we never suggested that this will generate meaningful sentence representations. And even if they are decent representations when fed into a DNN trained for a downstream task, it doesn't mean that they will be meaningful in terms of cosine distance. (Since cosine distance is a linear space where all dimensions are weighted equally).
However, with the [CLS] token, it does become meaningful if the model has been fine-tuned, where the last hidden layer of this token is used as the “sentence vector” for downstream sequence classification task. This package encode sentence by average pooling over all word tokens. It would be definitely good to experiment with sentence embeddings for similarity purposes.
Happy Deep Learning