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SoLoPO: Unlocking Long-Context Capabilities in LLMs via Short-to-Long Preference Optimization

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arxiv 2505.11166 v3 pith:UF4I7FY7 submitted 2025-05-16 cs.CL cs.AI

SoLoPO: Unlocking Long-Context Capabilities in LLMs via Short-to-Long Preference Optimization

classification cs.CL cs.AI
keywords long-contexttextbfoptimizationpreferencesolopocontextsshortability
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Despite advances in pretraining with extended context sizes, large language models (LLMs) still face challenges in effectively utilizing real-world long-context information, primarily due to insufficient long-context alignment caused by data quality issues, training inefficiencies, and the lack of well-designed optimization objectives. To address these limitations, we propose a framework named \textbf{S}h\textbf{o}rt-to-\textbf{Lo}ng \textbf{P}reference \textbf{O}ptimization (\textbf{SoLoPO}), decoupling long-context preference optimization (PO) into two components: short-context PO and short-to-long reward alignment (SoLo-RA), supported by both theoretical and empirical evidence. Specifically, short-context PO leverages preference pairs sampled from short contexts to enhance the model's contextual knowledge utilization ability. Meanwhile, SoLo-RA explicitly encourages reward score consistency for the responses when conditioned on both short and long contexts that contain identical task-relevant information. This facilitates transferring the model's ability to handle short contexts into long-context scenarios. SoLoPO is compatible with mainstream preference optimization algorithms, while substantially improving the efficiency of data construction and training processes. Experimental results show that SoLoPO enhances all these algorithms with respect to stronger length and domain generalization abilities across various long-context benchmarks, while achieving notable improvements in both computational and memory efficiency.

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  1. OPSDL: On-Policy Self-Distillation for Long-Context Language Models

    cs.CL 2026-04 unverdicted novelty 6.0

    OPSDL improves long-context LLM performance by having the model self-distill from its short-context capability using point-wise reverse KL divergence on generated tokens, outperforming SFT and DPO on benchmarks withou...