wietsedv / xpos

Make the Best of Cross-lingual Transfer: Evidence from POS Tagging with over 100 Languages (ACL 2022)

Home Page:https://aclanthology.org/2022.acl-long.529/

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Make the Best of Cross-lingual Transfer: Evidence from POS Tagging with over 100 Languages

Wietse de VriesMartijn WielingMalvina Nissim

Abstract: Cross-lingual transfer learning with large multilingual pre-trained models can be an effective approach for low-resource languages with no labeled training data. Existing evaluations of zero-shot cross-lingual generalisability of large pre-trained models use datasets with English training data, and test data in a selection of target languages. We explore a more extensive transfer learning setup with 65 different source languages and 105 target languages for part-of-speech tagging. Through our analysis, we show that pre-training of both source and target language, as well as matching language families, writing systems, word order systems, and lexical-phonetic distance significantly impact cross-lingual performance.

Status: Published at ACL 2022. Final version: click here.

@inproceedings{de-vries-etal-2022-make,
    title = "Make the Best of Cross-lingual Transfer: Evidence from {POS} Tagging with over 100 Languages",
    author = "de Vries, Wietse  and
      Wieling, Martijn  and
      Nissim, Malvina",
    booktitle = "Proceedings of the 60th Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers)",
    month = may,
    year = "2022",
    address = "Dublin, Ireland",
    publisher = "Association for Computational Linguistics",
    url = "https://aclanthology.org/2022.acl-long.529",
    pages = "7676--7685",
}

Demo and Models

The main results and discussion of the paper are based on the predictions of 65 fine-tuned XLM-RoBERTa models. A demo and the 65 models can be found in this Hugging Face Space:

Code

Dependencies

If you use Conda environments, you can replicate the exact dependency versions that were used for the experiments:

conda create -n xpos --file conda-linux-64.lock  # if 64-bit Linux
conda create -n xpos --file conda-osx-arm64.lock  # if Apple Silicon
conda activate xpos

Training

You can then train the models with:

python src/train.py udpos --learning_rate=5e-5 --eval_steps=1000 --per_device_batch_size=10 --max_steps=1000 --multi

Tip: append --dry_run to the previous command to only download and cache base models and data without training any models.

Tip: append --language_source {lang_code} (to any command) to only train for one source language. Check language codes in configs/udpos.yaml.

Cross-lingual prediction

Predictions for the best trained models for every target language can be generated with:

python src/predict.py udpos

Tip: append --language_source {lang_code} or --language_target {lang_code} to generate predictions for specific languages.

Tip: append --digest {digest} to generate predictions for a specific training configuration. The digest is the random string of 8 characters in the output path of each model.

Cross-lingual results

Export a csv with test accuracies for every source/target combination with:

python src/results.py udpos -a -e results.csv

Tip: Just like with training and prediction, you can specify specific languages or a specific digest.

Models

Export trained models with:

python src/export.py udpos -e models

Tip: Just like with training and prediction, you can specify specific languages or a specific digest.

About

Make the Best of Cross-lingual Transfer: Evidence from POS Tagging with over 100 Languages (ACL 2022)

https://aclanthology.org/2022.acl-long.529/


Languages

Language:Jupyter Notebook 94.6%Language:Python 5.0%Language:R 0.2%Language:Fortran 0.2%