Trusting Your Evidence: Hallucinate Less With Context-aware Decoding

Shi Weijia, Han Xiaochuang, Lewis Mike, Tsvetkov Yulia, Zettlemoyer Luke, Yih Scott Wen-tau. Arxiv 2023

[Paper]    
Applications Attention Mechanism GPT Model Architecture Reinforcement Learning Training Techniques

Language models (LMs) often struggle to pay enough attention to the input context, and generate texts that are unfaithful or contain hallucinations. To mitigate this issue, we present context-aware decoding (CAD), which follows a contrastive output distribution that amplifies the difference between the output probabilities when a model is used with and without context. Our experiments show that CAD, without additional training, significantly improves the faithfulness of different LM families, including OPT, GPT, LLaMA and FLAN-T5 for summarization tasks (e.g., 14.3% gain for LLaMA in factuality metrics). Furthermore, CAD is particularly effective in overriding a model’s prior knowledge when it contradicts the provided context, leading to substantial improvements in tasks where resolving the knowledge conflict is essential.

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