--- language: - pt thumbnail: "Portugues BERT for the Legal Domain" tags: - bert - pytorch - tsdae datasets: - rufimelo/PortugueseLegalSentences-v1 license: "mit" widget: - text: "O advogado apresentou [MASK] ao juíz." --- # Legal_BERTimbau ## Introduction Legal_BERTimbau Large is a fine-tuned BERT model based on [BERTimbau](https://huggingface.co/neuralmind/bert-base-portuguese-cased) Large. "BERTimbau Base is a pretrained BERT model for Brazilian Portuguese that achieves state-of-the-art performances on three downstream NLP tasks: Named Entity Recognition, Sentence Textual Similarity and Recognizing Textual Entailment. It is available in two sizes: Base and Large. For further information or requests, please go to [BERTimbau repository](https://github.com/neuralmind-ai/portuguese-bert/)." The performance of Language Models can change drastically when there is a domain shift between training and test data. In order create a Portuguese Language Model adapted to a Legal domain, the original BERTimbau model was submitted to a fine-tuning stage where it was performed 1 "PreTraining" epoch over 200000 cleaned documents (lr: 1e-5, using TSDAE technique) ## Available models | Model | Arch. | #Layers | #Params | | ---------------------------------------- | ---------- | ------- | ------- | |`rufimelo/Legal-BERTimbau-base` |BERT-Base |12 |110M| | `rufimelo/Legal-BERTimbau-large` | BERT-Large | 24 | 335M | ## Usage ```python from transformers import AutoTokenizer, AutoModelForMaskedLM tokenizer = AutoTokenizer.from_pretrained("rufimelo/Legal-BERTimbau-large-TSDAE-v3") model = AutoModelForMaskedLM.from_pretrained("rufimelo/Legal-BERTimbau-large-TSDAE") ``` ### Masked language modeling prediction example ```python from transformers import pipeline from transformers import AutoTokenizer, AutoModelForMaskedLM tokenizer = AutoTokenizer.from_pretrained("rufimelo/Legal-BERTimbau-large-TSDAE-v3") model = AutoModelForMaskedLM.from_pretrained("rufimelo/Legal-BERTimbau-large-TSDAE-v3") pipe = pipeline('fill-mask', model=model, tokenizer=tokenizer) pipe('O advogado apresentou [MASK] para o juíz') # [{'score': 0.5034703612327576, #'token': 8190, #'token_str': 'recurso', #'sequence': 'O advogado apresentou recurso para o juíz'}, #{'score': 0.07347951829433441, #'token': 21973, #'token_str': 'petição', #'sequence': 'O advogado apresentou petição para o juíz'}, #{'score': 0.05165359005331993, #'token': 4299, #'token_str': 'resposta', #'sequence': 'O advogado apresentou resposta para o juíz'}, #{'score': 0.04611917585134506, #'token': 5265, #'token_str': 'exposição', #'sequence': 'O advogado apresentou exposição para o juíz'}, #{'score': 0.04068068787455559, #'token': 19737, 'token_str': #'alegações', #'sequence': 'O advogado apresentou alegações para o juíz'}] ``` ### For BERT embeddings ```python import torch from transformers import AutoModel model = AutoModel.from_pretrained('rufimelo/Legal-BERTimbau-large-TSDAE') input_ids = tokenizer.encode('O advogado apresentou recurso para o juíz', return_tensors='pt') with torch.no_grad(): outs = model(input_ids) encoded = outs[0][0, 1:-1] #tensor([[ 0.0328, -0.4292, -0.6230, ..., -0.3048, -0.5674, 0.0157], #[-0.3569, 0.3326, 0.7013, ..., -0.7778, 0.2646, 1.1310], #[ 0.3169, 0.4333, 0.2026, ..., 1.0517, -0.1951, 0.7050], #..., #[-0.3648, -0.8137, -0.4764, ..., -0.2725, -0.4879, 0.6264], #[-0.2264, -0.1821, -0.3011, ..., -0.5428, 0.1429, 0.0509], #[-1.4617, 0.6281, -0.0625, ..., -1.2774, -0.4491, 0.3131]]) ``` ## Citation If you use this work, please cite BERTimbau's work: ```bibtex @inproceedings{souza2020bertimbau, author = {F{\'a}bio Souza and Rodrigo Nogueira and Roberto Lotufo}, title = {{BERT}imbau: pretrained {BERT} models for {B}razilian {P}ortuguese}, booktitle = {9th Brazilian Conference on Intelligent Systems, {BRACIS}, Rio Grande do Sul, Brazil, October 20-23 (to appear)}, year = {2020} } ```