ShadowNet: A Secure and Efficient On-device Model Inference System for Convolutional Neural Networks
This addresses security concerns for proprietary models deployed on billions of untrusted mobile and edge devices, offering a practical incremental solution.
The paper tackles the problem of model privacy in on-device machine learning by proposing ShadowNet, a system that uses a Trusted Execution Environment (TEE) to protect models while outsourcing linear layers to untrusted accelerators, achieving strong security with reasonable performance as evaluated on five CNNs.
With the increased usage of AI accelerators on mobile and edge devices, on-device machine learning (ML) is gaining popularity. Thousands of proprietary ML models are being deployed today on billions of untrusted devices. This raises serious security concerns about model privacy. However, protecting model privacy without losing access to the untrusted AI accelerators is a challenging problem. In this paper, we present a novel on-device model inference system, ShadowNet. ShadowNet protects the model privacy with Trusted Execution Environment (TEE) while securely outsourcing the heavy linear layers of the model to the untrusted hardware accelerators. ShadowNet achieves this by transforming the weights of the linear layers before outsourcing them and restoring the results inside the TEE. The non-linear layers are also kept secure inside the TEE. ShadowNet's design ensures efficient transformation of the weights and the subsequent restoration of the results. We build a ShadowNet prototype based on TensorFlow Lite and evaluate it on five popular CNNs, namely, MobileNet, ResNet-44, MiniVGG, ResNet-404, and YOLOv4-tiny. Our evaluation shows that ShadowNet achieves strong security guarantees with reasonable performance, offering a practical solution for secure on-device model inference.