Shattering the Agent-Environment Interface for Fine-Tuning Inclusive Language Models (2305.11455v1)

Abstract: A centerpiece of the ever-popular reinforcement learning from human feedback (RLHF) approach to fine-tuning autoregressive LLMs is the explicit training of a reward model to emulate human feedback, distinct from the LLM itself. This reward model is then coupled with policy-gradient methods to dramatically improve the alignment between LLM outputs and desired responses. In this work, we adopt a novel perspective wherein a pre-trained LLM is itself simultaneously a policy, reward function, and transition function. An immediate consequence of this is that reward learning and LLM fine-tuning can be performed jointly and directly, without requiring any further downstream policy optimization. While this perspective does indeed break the traditional agent-environment interface, we nevertheless maintain that there can be enormous statistical benefits afforded by bringing to bear traditional algorithmic concepts from reinforcement learning. Our experiments demonstrate one concrete instance of this through efficient exploration based on the representation and resolution of epistemic uncertainty. In order to illustrate these ideas in a transparent manner, we restrict attention to a simple didactic data generating process and leave for future work extension to systems of practical scale.