蒙哥马利模乘法和并行二进制幂的可重构硬件实现

Proceedings Euromicro Symposium on Digital System Design. Architectures, Methods and Tools Pub Date : 2002-09-04 DOI:10.1109/DSD.2002.1115373

N. Nedjah, L. M. Mourelle

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引用次数: 25

摘要

模幂和模乘法是RSA密码系统等公钥密码系统的基础计算。对于大操作数，这些操作非常耗时。许多研究工作都是针对这两种操作的有效硬件实现。本文描述了两种架构的特点:第一种架构使用快速Montgomery算法的收缩版本实现模块化乘法，另一种架构实现并行二进制幂算法。后者使用两个Montgomery模乘法器。给出了FPGA原型在空间和时间上的要求。

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Reconfigurable hardware implementation of Montgomery modular multiplication and parallel binary exponentiation

Modular exponentiation and modular multiplication are the cornerstone computations performed in public-key cryptography systems such as RSA cryptosystem. The operations are time consuming for large operands. Much research effort is directed towards an efficient hardware implementation of both operations. This paper describes the characteristics of two architectures: the first one implements modular multiplication using a systolic version of the fast Montgomery algorithm and the other to implement the parallel binary exponentiation algorithm. The latter uses two Montgomery modular multipliers. Results in terms of space and time requirements for an FPGA prototype are given.

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Proceedings Euromicro Symposium on Digital System Design. Architectures, Methods and Tools

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