language:
- aar
- ach
- afr
- aka
- amh
- bam
- bas
- bem
- btg
- eng
- ewe
- fon
- fra
- hau
- ibo
- kbp
- lgg
- lug
- mlg
- nyn
- orm
- som
- sot
- swa
- tir
- yor
- teo
- gez
- wal
- fan
- kau
- kin
- kon
- lin
- nya
- pcm
- ssw
- tsn
- tso
- twi
- wol
- xho
- zul
- nnb
- swc
- ara
pipeline_tag: text-generation
tags:
- UBC
- African
- pytorch
- Chaeetah
- DLNLP
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This is the repository accompanying our ACL 2024 paper Toucan: Many-to-Many Translation for 150 African Language Pairs. We address a notable gap in Natural Language Processing (NLP) by introducing a collection of resources designed to improve Machine Translation (MT) for low-resource languages, with a specific focus on African languages. First, We introduce two language models (LMs), Cheetah-1.2B and Cheetah-3.7B, with 1.2 billion and 3.7 billion parameters respectively. Next, we finetune the aforementioned models to create Toucan, an Afrocentric machine translation model designed to support 156 African language pairs. To evaluate Toucan, we carefully develop an extensive machine translation benchmark, dubbed AfroLingu-MT, tailored for evaluating machine translation. Toucan significantly outperforms other models, showcasing its remarkable performance on MT for African languages. Finally, we train a new model, spBLEU_1K, to enhance translation evaluation metrics, covering 1K languages, including 614 African languages. This work aims to advance the field of NLP, fostering cross-cultural understanding and knowledge exchange, particularly in regions with limited language resources such as Africa.
Cheetah-1.2B
To effectively train a MT language model for African languages, it is crucial to start with a powerful, Afrocentric pretrained language model. For this purpose, we select Cheetah (Adebara et al., 2024), a recently introduced SoTA model with extensive coverage encompassing 517 African languages. One limitation of Cheetah, however, is that it is available only in a base architecture, featuring 580M parameters. Given our objective to develop a large-scale language model for machine translation capabale of serving 156 directions, this base model does not fully meet our requirements. To address this limitation, we embark on training larger and more expansive Afrocentric sequence-to-sequence models. We focus on two sizes: one model with 1.2B parameters and another with 3.7B parameters. We refer to the new models “Cheetah-1.2B” and “Cheetah-3.7B”, respectively, to reflect their enhanced capabilities and parameter scale. These models represent a significant advancement in our efforts to improve machine translation for African languages, offering greater capacities in handling the rich linguistic nuances of African languages. Cheetah Pertaining. To train the new Cheetah models, we utilize the same pre-training dataset employed in training the original Cheetah-base model (Adebara et al., 2024). This strategic choice ensures consistency in the foundational data across models, enabling the advanced Cheetah-1.2B and Cheetah-3.7B versions to build upon the rich linguistic diversity captured in the original dataset. We refer to (Adebara et al., 2024) for more information about the pretraining data of Cheetah models. We employ a learning rate of 0.01, a batch size of 1, 024 sequences, and a maximum sequence length of 1, 024. Each model undergoes pretraining for 1 million steps. The training process is conducted on Google Cloud TPU with 128 cores (v3 − 128) provided by the TensorFlow Research Cloud (TFRC). We provide additional details on pretraining in Section B in the Appendix.
Model | Link |
---|---|
🔥Cheetah-base🔥 | https://huggingface.co/UBC-NLP/cheetah-base |
🔥Cheetah-1.2B🔥 | https://huggingface.co/UBC-NLP/cheetah-1.2B |
3. How to use Cheetah model
Below is an example for using Cheetah-1.2B predict masked tokens.
from transformers import T5Tokenizer, AutoModelForSeq2SeqLM
tokenizer = T5Tokenizer.from_pretrained("UBC-NLP/cheetah-1.2B")
model = AutoModelForSeq2SeqLM.from_pretrained("UBC-NLP/cheetah-1.2B")
yor_prompt="ìròyìn kan nípa owó ìjọba <extra_id_0> kan"
input_ids = tokenizer(yor_prompt, return_tensors="pt").input_ids
outputs = model.generate(input_ids)
print("Cheetah-1.2B - Tokenized input:", tokenizer.tokenize(yor_prompt))
print("Cheetah-1.2B - Decoded output:", tokenizer.decode(outputs[0], skip_special_tokens=True))
Output:
Cheetah-1.2B - Tokenized input: ['▁ìròyìn', '▁kan', '▁nípa', '▁owó', '▁ìjọba', '<extra_id_0>', '▁kan']
Cheetah-1.2B - Decoded output: Nàìjíríà
Supported languages
Please refer to supported-languages
More details about Cheetah's pretraning data, visit Cheetah's GitHub Cheetah paper GitHub More details about Toucan's pretraning data, visit Cheetah's GitHub Toucan paper GitHub
Citation
If you use the pre-trained model (Cheetah-1.2B) for your scientific publication, or if you find the resources in this repository useful, please cite our papers as follows (to be updated):
Toucan's Paper
@inproceedings{elmadany-etal-2024-toucan,
title = "Toucan: Many-to-Many Translation for 150 {A}frican Language Pairs",
author = "Elmadany, AbdelRahim and
Adebara, Ife and
Abdul-Mageed, Muhammad",
editor = "Ku, Lun-Wei and
Martins, Andre and
Srikumar, Vivek",
booktitle = "Findings of the Association for Computational Linguistics ACL 2024",
month = aug,
year = "2024",
address = "Bangkok, Thailand and virtual meeting",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2024.findings-acl.781",
pages = "13189--13206",
}
Cheetah's Paper
@inproceedings{adebara-etal-2024-cheetah,
title = "Cheetah: Natural Language Generation for 517 {A}frican Languages",
author = "Adebara, Ife and
Elmadany, AbdelRahim and
Abdul-Mageed, Muhammad",
editor = "Ku, Lun-Wei and
Martins, Andre and
Srikumar, Vivek",
booktitle = "Proceedings of the 62nd Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers)",
month = aug,
year = "2024",
address = "Bangkok, Thailand and virtual meeting",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2024.acl-long.691",
pages = "12798--12823",
}
Acknowledgments
We gratefully acknowledges support from Canada Research Chairs (CRC), the Natural Sciences and Engineering Research Council of Canada (NSERC; RGPIN-2018-04267), the Social Sciences and Humanities Research Council of Canada (SSHRC; 435-2018-0576; 895-2020-1004; 895-2021-1008), Canadian Foundation for Innovation (CFI; 37771), Digital Research Alliance of Canada, UBC ARC-Sockeye, Advanced Micro Devices, Inc. (AMD), and Google. Any opinions, conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of CRC, NSERC, SSHRC, CFI, the Alliance, AMD, Google, or UBC ARC-Sockeye.