一种改进的一热剩余数系统的硬件实现

2014 Fifth Argentine Symposium and Conference on Embedded Systems SASE/CASE 2014 Pub Date : 2014-10-02 DOI:10.1109/SASE-CASE.2014.6914463

C. A. Gayoso, Claudio González, L. Arnone, M. Rabini, J. Castiñeira Moreira

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引用次数: 1

摘要

余数系统(RNS)是一种数字表示法，它允许将给定的算术运算在具有确定位数的二进制数字表示法上进行，分成并行执行的几个较小的操作，并使用较小位数的二进制数字表示法。有许多可能的RNS实现，但处理速度最快的一种是所谓的单热剩余数系统(OHRNS)。这种实现的主要缺点是，一个模量为m的操作需要2个数量级的晶体管。本文提出了一种改进的OHRNS，称为OHRNS2，其性能与原始OHRNS相同，但硬件要求明显降低。提出了一种广义系统，称为OHRNSn。

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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An improved hardware implementation of the one hot Residue Number System

Residue Number System (RNS) is a kind of numerical representation that allows to divide a given arithmetic operation done over a binary numerical representation with a determined number of bits, into several smaller operations that are performed in parallel, and use binary numerical representations of smaller number of bits. There are many possible implementations of RNS, but the one of highest processing speed is the so called One Hot Residue Number System (OHRNS). The main disadvantage of this implementation is that it requires order m2 number of transistors for a modulo-m operation. In this paper a modified version of OHRNS, called OHRNS2 is presented, which perform as well as the original OHRNS, but with significant less hardware requirements. A generalized system is also presented, and called OHRNSn.

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2014 Fifth Argentine Symposium and Conference on Embedded Systems SASE/CASE 2014

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