Supernet training of LLMs is of great interest in industrial applications as it confers the ability to produce a palette of smaller models at constant cost, regardless of the number of models (of different size / latency) produced. We propose a new method called Multistage Low-rank Fine-tuning of Super-transformers (MLFS) for parameter-efficient supernet training. We show that it is possible to obtain high-quality encoder models that are suitable for commercial edge applications, and that while decoder-only models are resistant to a comparable degree of compression, decoders can be effectively sliced for a significant reduction in training time.
@article{arxiv.2404.01353,
title = {Efficiently Distilling LLMs for Edge Applications},
author = {Achintya Kundu and Fabian Lim and Aaron Chew and Laura Wynter and Penny Chong and Rhui Dih Lee},
journal= {arXiv preprint arXiv:2404.01353},
year = {2024}
}
Comments
This paper has been accepted for publication in NAACL 2024 (Industry Track)