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Step-Controlled DPO: Leveraging Stepwise Error for Enhanced Mathematical Reasoning

Authors :
Lu, Zimu
Zhou, Aojun
Wang, Ke
Ren, Houxing
Shi, Weikang
Pan, Junting
Zhan, Mingjie
Li, Hongsheng
Publication Year :
2024

Abstract

Direct Preference Optimization (DPO) has proven effective at improving the performance of large language models (LLMs) on downstream tasks such as reasoning and alignment. In this work, we propose Step-Controlled DPO (SCDPO), a method for automatically providing stepwise error supervision by creating negative samples of mathematical reasoning rationales that start making errors at a specified step. By applying these samples in DPO training, SCDPO can better align the model to understand reasoning errors and output accurate reasoning steps. We apply SCDPO to both code-integrated and chain-of-thought solutions, empirically showing that it consistently improves the performance compared to naive DPO on three different SFT models, including one existing SFT model and two models we finetuned. Qualitative analysis of the credit assignment of SCDPO and DPO demonstrates the effectiveness of SCDPO at identifying errors in mathematical solutions. We then apply SCDPO to an InternLM2-20B model, resulting in a 20B model that achieves high scores of 88.5% on GSM8K and 58.1% on MATH, rivaling all other open-source LLMs, showing the great potential of our method.

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2407.00782
Document Type :
Working Paper