---
license: mit
language:
- pt
tags:
- gervasio-pt*
- gervasio-ptpt
- gervasio-ptbr
- gervasio-7b-portuguese-ptpt-decoder
- gervasio-7b-portuguese-ptbr-decoder
- portulan
- albertina-pt*
- clm
- gpt
- portuguese
- decoder
- foundation model
datasets:
- PORTULAN/glue-ptpt
- PORTULAN/extraglue
---
This is the model card for Gervásio 7B PT-PT Decoder.
You may be interested in some of the other models in the Albertina (encoders) and Gervásio (decoders) families.
# Gervásio 7B PT-PT
**Gervásio PT-*** is a **fully open** decoder for the **Portuguese language**.
It is a **decoder** of the LLaMA family, based on the neural architecture Transformer and developed over the LLaMA-2 7B model.
Its further improvement through additional training was done over language resources that include new instruction data sets of Portuguese prepared for this purpose ([extraGLUE-Instruct
](https://huggingface.co/datasets/PORTULAN/extraglue-instruct)).
It has different versions that were trained for different variants of Portuguese (PT),
namely for the European variant, spoken in Portugal ([**gervasio-7b-portuguese-ptpt-decoder**](https://huggingface.co/PORTULAN/gervasio-7b-portuguese-ptpt-decoder)), and for the American variant, spoken in Brazil ([**gervasio-7b-portuguese-ptbr-decoder**](https://huggingface.co/PORTULAN/gervasio-7b-portuguese-ptbr-decoder)).
All versions of Gervásio are **openly distributed for free under an open license**, including thus for research and commercial purposes, and given its size, can
be run on consumer-grade hardware.
**Gervásio 7B PT-PT** is developed by NLX-Natural Language and Speech Group, at the University of Lisbon, Faculty of Sciences, Department of Informatics, Portugal.
For the record, its full name is **Gervásio Produz Textos em Português**, to which corresponds the natural acronym **GPT PT**,
and which is known more shortly as Gervásio PT-* or, even more briefly, just as Gervásio, among its acquaintances.
These models are fully documented in the respective [publication](https://arxiv.org/abs/?):
``` latex
@misc{gervasio,
title={Advancing Generative AI for Portuguese with Open Decoder Gervásio~PT*},
author={Rodrigo Santos, João Silva, Luís Gomes, João Rodrigues, António Branco},
year={2024},
eprint={?},
archivePrefix={arXiv},
primaryClass={cs.CL}
}
```
Please use the above cannonical reference when using or citing this model.
# Model Description
**This model card is for Gervásio 7B PT-PT**, with 7 billion parameters, a hidden size of 4096 units, an intermediate size of 11,008 units, 32 attention heads, 32 hidden layers, and a tokenizer obtained using the Byte-Pair Encoding (BPE) algorithm implemented with SentencePiece, featuring a vocabulary size of 32,000.
Gervásio-7B-PTPT-Decoder is distributed under an [MIT license](https://huggingface.co/PORTULAN/gervasio-7b-portuguese-ptbr-decoder/blob/main/LICENSE).
# Training Data
**Gervásio 7B PT-PT** was trained over standard supervised fine-tuning, and to keep some alignment with mainstream benchmarks for English, we resorted to tasks and respective datasets in the GLUE and the SuperGLUE collections.
We selected those datasets where the outcome of their machine translation into European Portuguese could preserve, in the target language, the linguistic properties at stake.
From GLUE, we resorted to the following four tasks:
- MRPC (paraphrase Detection).
- RTE (recognizing Textual Entailment).
- STS-B (semantic textual similarity).
- WNLI (coreference and natural language inference).
And from SuperGLUE, we included these other four tasks:
- BoolQ (yes/no question answering).
- CB (inference with 3 labels).
- COPA (reasoning)
- MultiRC (question answering).
Instruction templates have been manually crafted for each task.
These take the various fields in the dataset and arrange them into a prompt.
These templates are listed in full detail in the [Extraglue dataset](https://huggingface.co/datasets/PORTULAN/extraglue).
# Training Details
We applied supervised fine-tuning with a causal language modeling (CLM) training objective following a zero-out technique during the fine-tuning process.
Specifically, while the entire prompt received attention during fine-tuning, only the response tokens were subjected to back-propagation.
In terms of hyper-parameters, both models were trained with a learning rate of 2 * 10^-5, a weight decay of 0.1, a two-epoch training regime without warm-up, and to ensure the same number of tokens back-propagated per step, we employed an input sequence of 512 tokens with a batch size of 16 and 16 accumulation steps.
Due to hardware limitations that imposed a shorter sequence length (512) compared to the base model (4096), instead of the typical practice of concatenating all training examples and then dividing them into batches with the same input sequence length, we separate each example individually.
In other words, each example occupies the full input sequence length.
To achieve this, we adapted the tokenizer of the base model to accept padding to allow grouping examples with different size into batches while preserving the original input sequence length.
For the model training process, we resorted to an a2-megagpu-16gb Google Cloud A2 VM, equipped with 16 GPUs, 96 vCPUs, and 1.360 GB of RAM.
The training of each model took approximately two hours.
# Evaluation
For testing, we reserved the translated datasets MRPC (similarity) and RTE (inference), from GLUE, and COPA (reasoning/qa), from SuperGLUE, which were taking as representatives of three major types of tasks, and were not seen during training.
We also employ data augmentation techniques to enhance the size and diversity of our dataset.
This involves repurposing the tasks in various ways, such as generation of answers from MultiRC, question generation from BoolQ, and other relevant modifications.
| Model | MRPC (F1) | RTE (F1) | COPA (F1) |
|--------------------------|----------------|----------------|-----------|
| **Gervásio 7B PT-PT** | **0.7273** | **0.8291** | **0.5459**|
| **LLaMA-2** | 0.0328 | 0.0482 | 0.3844 |
| **LLaMA-2 Chat** | 0.5703 | 0.4697 | 0.4737 |
# How to use
You can use this model directly with a pipeline for causal language modeling (CLM):
```python3
>>> from transformers import pipeline
>>> generator = pipeline(model='PORTULAN/gervasio-7b-portuguese-ptpt-decoder')
>>> generator("A música portuguesa é", max_new_tokens=10)
[{'generated_text': 'A música portuguesa é uma das mais ricas do mundo'}]
```
# Acknowledgments
The research reported here was partially supported by: PORTULAN CLARIN—Research Infrastructure for the Science and Technology of Language,
funded by Lisboa 2020, Alentejo 2020 and FCT—Fundação para a Ciência e Tecnologia under the
grant PINFRA/22117/2016; research project GPT-PT - Transformer-based Decoder for the Portuguese Language, funded by FCT—Fundação para a Ciência e Tecnologia under the
grant CPCA-IAC/AV/478395/2022; innovation project
ACCELERAT.AI - Multilingual Intelligent Contact Centers, funded by IAPMEI, I.P. - Agência para a Competitividade e Inovação
under the grant C625734525-00462629, of Plano de Recuperação e Resiliência,
call RE-C05-i01.01 – Agendas/Alianças Mobilizadoras para a Reindustrialização.