Fine-tuning Aligned Language Models Compromises Safety, Even When Users Do Not Intend To! · The Large Language Model Bible Contribute to LLM-Bible

Fine-tuning Aligned Language Models Compromises Safety, Even When Users Do Not Intend To!

Qi Xiangyu, Zeng Yi, Xie Tinghao, Chen Pin-yu, Jia Ruoxi, Mittal Prateek, Henderson Peter. Arxiv 2023

[Paper]    
Applications Fine Tuning GPT Model Architecture Pretraining Methods RAG Reinforcement Learning Responsible AI Security Tools Training Techniques

Optimizing large language models (LLMs) for downstream use cases often involves the customization of pre-trained LLMs through further fine-tuning. Meta’s open release of Llama models and OpenAI’s APIs for fine-tuning GPT-3.5 Turbo on custom datasets also encourage this practice. But, what are the safety costs associated with such custom fine-tuning? We note that while existing safety alignment infrastructures can restrict harmful behaviors of LLMs at inference time, they do not cover safety risks when fine-tuning privileges are extended to end-users. Our red teaming studies find that the safety alignment of LLMs can be compromised by fine-tuning with only a few adversarially designed training examples. For instance, we jailbreak GPT-3.5 Turbo’s safety guardrails by fine-tuning it on only 10 such examples at a cost of less than $0.20 via OpenAI’s APIs, making the model responsive to nearly any harmful instructions. Disconcertingly, our research also reveals that, even without malicious intent, simply fine-tuning with benign and commonly used datasets can also inadvertently degrade the safety alignment of LLMs, though to a lesser extent. These findings suggest that fine-tuning aligned LLMs introduces new safety risks that current safety infrastructures fall short of addressing – even if a model’s initial safety alignment is impeccable, it is not necessarily to be maintained after custom fine-tuning. We outline and critically analyze potential mitigations and advocate for further research efforts toward reinforcing safety protocols for the custom fine-tuning of aligned LLMs.

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