Behavior Injection: Preparing Language Models for Reinforcement Learning
This addresses the problem of unreliable RL outcomes for language model developers, offering an incremental enhancement to prepare models more effectively.
The paper tackled the inconsistency of large language models in reinforcement learning finetuning by proposing behavior injection, a data augmentation method that increased RL performance gains, achieving significant improvements over pre-RL models on reasoning benchmarks.
Reinforcement learning (RL) has emerged as a powerful post-training technique to incentivize the reasoning ability of large language models (LLMs). However, LLMs can respond very inconsistently to RL finetuning: some show substantial performance gains, while others plateau or even degrade. To understand this divergence, we analyze the per-step influence of the RL objective and identify two key conditions for effective post-training: (1) RL-informative rollout accuracy, and (2) strong data co-influence, which quantifies how much the training data affects performance on other samples. Guided by these insights, we propose behavior injection, a task-agnostic data augmentation scheme applied prior to RL. Behavior injection enriches the supervised finetuning (SFT) data by seeding exploratory and exploitative behaviors, effectively making the model more RL-ready. We evaluate our method across two reasoning benchmarks with multiple base models. The results demonstrate that our theoretically motivated augmentation can significantly increase the performance gain from RL over the pre-RL model.