使用fpga实现流水线AES-GCM的高性能GHASH(仅抽象)

Proceedings of the 2014 ACM/SIGDA international symposium on Field-programmable gate arrays Pub Date : 2014-02-26 DOI:10.1145/2554688.2554709

K. M. Abdellatif, R. Chotin-Avot, Z. Marrakchi, H. Mehrez, Qingshan Tang

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引用次数: 0

摘要

AES-GCM已在各种安全应用中得到应用。它由两个部分组成:高级加密标准(AES)引擎和伽罗瓦散列(GHASH)核心。由于固有的计算反馈，系统的性能由GHASH体系结构决定。本文介绍了一种基于流水线Karatsuba Ofman算法(KOA)的GHASH的改进。特别地，通过分析计算过程的复杂性，消除了计算反馈。提出的GHASH核心使用三种不同的AES实现(基于brams的SubBytes，基于复合字段的SubBytes和基于lut的SubBytes)进行评估。提出的AES-GCM架构是使用Xilinx Virtex5 fpga实现的。我们与以前的工作进行了比较，发现我们的体系结构更具有性能效率。/片)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Towards high performance GHASH for pipelined AES-GCM using FPGAs (abstract only)

AES-GCM has been utilized in various security applications. It consists of two components: an Advanced Encryption Standard (AES) engine and a Galois Hash (GHASH) core. The performance of the system is determined by the GHASH architecture because of the inherent computation feedback. This paper introduces a modification for the pipelined Karatsuba Ofman Algorithm (KOA)-based GHASH. In particular, the computation feedback is removed by analyzing the complexity of the computation process. The proposed GHASH core is evaluated with three different implementations of AES ( BRAMs-based SubBytes, composite field-based SubBytes, and LUT-based SubBytes). The presented AES-GCM architectures are implemented using Xilinx Virtex5 FPGAs. Our comparison to previous work reveals that our architectures are more performance-efficient (Thr. /Slices).

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Proceedings of the 2014 ACM/SIGDA international symposium on Field-programmable gate arrays

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