Document detail
ID

oai:arXiv.org:2405.18776

Topic
Computer Science - Cryptography an... Computer Science - Computation and... Computer Science - Machine Learnin...
Author
Yang, Qin Mohammad, Meisam Wang, Han Payani, Ali Kundu, Ashish Shu, Kai Yan, Yan Hong, Yuan
Category

Computer Science

Year

2024

listing date

6/5/2024

Keywords
models language privacy mechanism
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Abstract

Differentially Private Stochastic Gradient Descent (DP-SGD) and its variants have been proposed to ensure rigorous privacy for fine-tuning large-scale pre-trained language models.

However, they rely heavily on the Gaussian mechanism, which may overly perturb the gradients and degrade the accuracy, especially in stronger privacy regimes (e.g., the privacy budget $\epsilon < 3$).

To address such limitations, we propose a novel Language Model-based Optimal Differential Privacy (LMO-DP) mechanism, which takes the first step to enable the tight composition of accurately fine-tuning (large) language models with a sub-optimal DP mechanism, even in strong privacy regimes (e.g., $0.1\leq \epsilon<3$).

Furthermore, we propose a novel offline optimal noise search method to efficiently derive the sub-optimal DP that significantly reduces the noise magnitude.

For instance, fine-tuning RoBERTa-large (with 300M parameters) on the SST-2 dataset can achieve an accuracy of 92.20% (given $\epsilon=0.3$, $\delta=10^{-10}$) by drastically outperforming the Gaussian mechanism (e.g., $\sim 50\%$ for small $\epsilon$ and $\delta$).

We also draw similar findings on the text generation tasks on GPT-2.

Finally, to our best knowledge, LMO-DP is also the first solution to accurately fine-tune Llama-2 with strong differential privacy guarantees.

The code will be released soon and available upon request.

;Comment: 18 pages, 15 figures

Yang, Qin,Mohammad, Meisam,Wang, Han,Payani, Ali,Kundu, Ashish,Shu, Kai,Yan, Yan,Hong, Yuan, 2024, LMO-DP: Optimizing the Randomization Mechanism for Differentially Private Fine-Tuning (Large) Language Models

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