David Cox
2024
Self-Specialization: Uncovering Latent Expertise within Large Language Models
Junmo Kang
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Hongyin Luo
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Yada Zhu
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Jacob Hansen
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James Glass
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David Cox
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Alan Ritter
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Rogerio Feris
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Leonid Karlinsky
Findings of the Association for Computational Linguistics ACL 2024
Recent works have demonstrated the effectiveness of self-alignment in which a large language model is aligned to follow general instructions using instructional data generated from the model itself starting from a handful of human-written seeds. Instead of general alignment, in this work, we focus on self-alignment for expert domain specialization (e.g., biomedicine, finance). As a preliminary, we quantitively show the marginal effect that generic instruction-following training has on downstream expert domains’ performance. To remedy this, we propose self-specialization - allowing for effective model specialization while achieving cross-task generalization by leveraging only a few labeled seeds. Self-specialization offers a data- and parameter-efficient way of “carving out” an expert model out of a generalist pre-trained LLM. Exploring a variety of popular open large models as a base for specialization, our experimental results in both biomedical and financial domains show that our self-specialized models outperform their base models by a large margin, and even larger models that are generally instruction-tuned or that have been adapted to the target domain by other means.
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Co-authors
- Junmo Kang 1
- Hongyin Luo 1
- Yada Zhu 1
- Jacob Hansen 1
- James Glass 1
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