Towards Understanding Generalization in DP-GD: A Case Study in Training Two-Layer CNNs
DOI:
https://doi.org/10.1609/aaai.v40i30.39731Abstract
Modern deep learning techniques focus on extracting intricate information from data to achieve accurate predictions. However, the training datasets may be crowdsourced and include sensitive information, such as personal contact details, financial data, and medical records. As a result, there is a growing emphasis on developing privacy-preserving training algorithms for neural networks that maintain good performance while preserving privacy. In this paper, we investigate the generalization and privacy performances of the differentially private gradient descent (DP-GD) algorithm, which is a private variant of the gradient descent (GD) by incorporating additional noise into the gradients during each iteration. Moreover, we identify a concrete learning task where DP-GD can achieve superior generalization performance compared to GD in training two-layer Huberized ReLU convolutional neural networks (CNNs). Specifically, we demonstrate that, under mild conditions, a small signal-to-noise ratio can result in GD producing training models with poor test accuracy, whereas DP-GD can yield training models with good test accuracy and privacy guarantees if the signal-to-noise ratio is not too small. This indicates that DP-GD has the potential to enhance model performance while ensuring privacy protection in certain learning tasks. Numerical simulations are further conducted to support our theoretical results.
Published
2026-03-14
How to Cite
Shi, Z., Wang, P., Zhang, C., & Cao, Y. (2026). Towards Understanding Generalization in DP-GD: A Case Study in Training Two-Layer CNNs. Proceedings of the AAAI Conference on Artificial Intelligence, 40(30), 25374–25382. https://doi.org/10.1609/aaai.v40i30.39731
Issue
Section
AAAI Technical Track on Machine Learning VII
