Accelerating Fully Homomorphic Encryption in Hardware

Doroz Yarkin; Ozturk Erdinc; Sunar Berk

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Accelerating Fully Homomorphic Encryption in Hardware

机译：加速硬件中的全同态加密

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We present a custom architecture for realizing the Gentry-Halevi fully homomorphic encryption (FHE) scheme. This contribution presents the first full realization of FHE in hardware. The architecture features an optimized multi-million bit multiplier based on the Schönhage Strassen multiplication algorithm. Moreover, a number of optimizations including spectral techniques as well as a precomputation strategy is used to significantly improve the performance of the overall design. When synthesized using 90 nm technology, the presented architecture achieves to realize the encryption, decryption, and recryption operations in 18.1 msec, 16.1 msec, and 3.1 sec, respectively, and occupies a footprint of less than 30 million gates.

机译：我们提出了一种用于实现Gentry-Halevi完全同态加密（FHE）方案的自定义体系结构。这一贡献是FHE在硬件上的首次全面实现。该架构具有基于SchönhageStrassen乘法算法的优化百万位乘法器。此外，包括频谱技术以及预计算策略在内的许多优化措施都被用来显着提高整体设计的性能。当使用90 nm技术进行合成时，所提出的体系结构可以分别在18.1毫秒，16.1毫秒和3.1秒钟内实现加密，解密和重新加密操作，并且占用的门少于3000万。

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来源
《Computers, IEEE Transactions on》 |2015年第6期|1509-1521|共13页
作者
Doroz Yarkin; Ozturk Erdinc; Sunar Berk;
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作者单位

Department of Electronics and Computer Engineering, Worcester Polytechnic Institute, Worcester, MA;

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原文格式 PDF
正文语种 eng
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关键词
Computer architecture; Encryption; Hardware; Indexes; Polynomials; Random access memory; Fully homomorphic encryption; application specific hardware; cryptographic accelerators; large-integer multiplication;

机译：计算机体系结构加密硬件索引多项式随机存取存储器完全同态加密专用硬件加密加速器大整数乘法;

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机译：使用Karatsuba算法的FV同性恋加密方案加速器的硬件/软件共同设计
2. Accelerating number theoretic transform in GPU platform for fully homomorphic encryption [J] . Goey Jia-Zheng, Lee Wai-Kong, Goi Bok-Min, Journal of supercomputing . 2021,第2期

机译：加速GPU平台的数字理论变换，以全同性恋加密
3. Optimised Multiplication Architectures for Accelerating Fully Homomorphic Encryption [J] . Xiaolin Cao, Ciara Moore, Máire ONeill, IEEE Transactions on Computers . 2016,第9期

机译：优化的乘法架构，用于加速全同态加密
4. Accelerating LTV Based Homomorphic Encryption in Reconfigurable Hardware [C] . Yarkin Doroez, Erdinc OEztuerk, Erkay Savas, International workshop on cryptographic hardware and embedded systems . 2015

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5. Accelerating Homomorphic Encryption in the Cloud Environment through High-Level Synthesis and Reconfigurable Resources [D] . Foster, Michael J. 2017

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6. A Lattice-Based Homomorphic Proxy Re-Encryption Scheme with Strong Anti-Collusion for Cloud Computing [O] . Juyan Li, Zhiqi Qiao, Kejia Zhang, 2021

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7. Accelerating LTV based homomorphic encryption in reconfigurable hardware [O] . Doröz Yarkın, Doroz Yarkin, Öztürk Erdinç, 2015

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Accelerating Fully Homomorphic Encryption in Hardware

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