Simon Baumgartner
2024
PLaD: Preference-based Large Language Model Distillation with Pseudo-Preference Pairs
Rongzhi Zhang
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Jiaming Shen
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Tianqi Liu
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Haorui Wang
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Zhen Qin
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Feng Han
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Jialu Liu
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Simon Baumgartner
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Michael Bendersky
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Chao Zhang
Findings of the Association for Computational Linguistics ACL 2024
Large Language Models (LLMs) have exhibited impressive capabilities in various tasks, yet their vast parameter sizes restrict their applicability in resource-constrained settings. Knowledge distillation (KD) offers a viable solution by transferring expertise from large teacher models to compact student models. However, traditional KD techniques face specific challenges when applied to LLMs, including restricted access to LLM outputs, significant teacher-student capacity gaps, and the inherited mis-calibration issue. In this work, we present PLaD, a novel preference-based LLM distillation framework. PLaD exploits the teacher-student capacity discrepancy to generate pseudo-preference pairs where teacher outputs are preferred over student outputs. Then, PLaD leverages a ranking loss to re-calibrate the student’s estimation of sequence likelihood, which steers the student’s focus towards understanding the relative quality of outputs instead of simply imitating the teacher. PLaD bypasses the need for access to teacher LLM’s internal states, tackles the student’s expressivity limitations, and mitigates the student mis-calibration issue. Through extensive experiments on two sequence generation tasks and with various LLMs, we demonstrate the effectiveness of our proposed PLaD framework.
2020
A Generative Approach to Titling and Clustering Wikipedia Sections
Anjalie Field
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Sascha Rothe
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Simon Baumgartner
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Cong Yu
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Abe Ittycheriah
Proceedings of the Fourth Workshop on Neural Generation and Translation
We evaluate the performance of transformer encoders with various decoders for information organization through a new task: generation of section headings for Wikipedia articles. Our analysis shows that decoders containing attention mechanisms over the encoder output achieve high-scoring results by generating extractive text. In contrast, a decoder without attention better facilitates semantic encoding and can be used to generate section embeddings. We additionally introduce a new loss function, which further encourages the decoder to generate high-quality embeddings.
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Co-authors
- Anjalie Field 1
- Sascha Rothe 1
- Cong Yu 1
- Abe Ittycheriah 1
- Rongzhi Zhang 1
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