ARIANN: Low-Interaction Privacy-Preserving Deep Learning via Function Secret Sharing
June 08, 2020 ยท Declared Dead ยท ๐ Proceedings on Privacy Enhancing Technologies
"No code URL or promise found in abstract"
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Authors
Thรฉo Ryffel, Pierre Tholoniat, David Pointcheval, Francis Bach
arXiv ID
2006.04593
Category
cs.LG: Machine Learning
Cross-listed
cs.CR,
stat.ML
Citations
129
Venue
Proceedings on Privacy Enhancing Technologies
Last Checked
4 months ago
Abstract
We propose AriaNN, a low-interaction privacy-preserving framework for private neural network training and inference on sensitive data. Our semi-honest 2-party computation protocol (with a trusted dealer) leverages function secret sharing, a recent lightweight cryptographic protocol that allows us to achieve an efficient online phase. We design optimized primitives for the building blocks of neural networks such as ReLU, MaxPool and BatchNorm. For instance, we perform private comparison for ReLU operations with a single message of the size of the input during the online phase, and with preprocessing keys close to 4X smaller than previous work. Last, we propose an extension to support n-party private federated learning. We implement our framework as an extensible system on top of PyTorch that leverages CPU and GPU hardware acceleration for cryptographic and machine learning operations. We evaluate our end-to-end system for private inference between distant servers on standard neural networks such as AlexNet, VGG16 or ResNet18, and for private training on smaller networks like LeNet. We show that computation rather than communication is the main bottleneck and that using GPUs together with reduced key size is a promising solution to overcome this barrier.
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