Mayank Rathee scite author profile

We present CRYPTFLOW, a first of its kind system that converts TensorFlow inference code into Secure Multi-party Computation (MPC) protocols at the push of a button. To do this, we build three components. Our first component, Athos, is an end-to-end compiler from TensorFlow to a variety of semihonest MPC protocols. The second component, Porthos, is an improved semi-honest 3-party protocol that provides significant speedups for TensorFlow like applications. Finally, to provide malicious secure MPC protocols, our third component, Aramis, is a novel technique that uses hardware with integrity guarantees to convert any semi-honest MPC protocol into an MPC protocol that provides malicious security. The malicious security of the protocols output by Aramis relies on integrity of the hardware and semi-honest security of MPC. Moreover, our system matches the inference accuracy of plaintext TensorFlow.We experimentally demonstrate the power of our system by showing the secure inference of real-world neural networks such as RESNET50 and DENSENET121 over the ImageNet dataset with running times of about 30 seconds for semi-honest security and under two minutes for malicious security. Prior work in the area of secure inference has been limited to semi-honest security of small networks over tiny datasets such as MNIST or CIFAR.

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CrypTFlow2: Practical 2-Party Secure Inference

Rathee

Kumar

et al. 2020

180

124

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Function Secret Sharing for Mixed-Mode and Fixed-Point Secure Computation

Boyle

Chandran

Gilboa

et al. 2021

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SiRnn: A Math Library for Secure RNN Inference

Rathee

Goli

et al. 2021

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Waldo: A Private Time-Series Database from Function Secret Sharing

Dauterman

Rathee

Popa

et al. 2022

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Mayank Rathee

CrypTFlow: Secure TensorFlow Inference

CrypTFlow2: Practical 2-Party Secure Inference

Function Secret Sharing for Mixed-Mode and Fixed-Point Secure Computation

SiRnn: A Math Library for Secure RNN Inference

Waldo: A Private Time-Series Database from Function Secret Sharing

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