奇数新梅森数变换(ONMNT)的基数-22算法

Signals Pub Date : 2023-10-23 DOI:10.3390/signals4040041
Yousuf Al-Aali, Mounir T. Hamood, Said Boussakta
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引用次数: 0

摘要

本文介绍了正向奇新梅森数变换(ONMNT)和逆奇新梅森数变换(IONMNT)的基数-22快速算法的一种新的推导。这涉及到在有限域中引入新的方程和函数,带来了不同于其他领域的特殊挑战。radix-22算法结合了radix-4算法的减少运算次数和radix-2算法的简单蝴蝶结构的优点,使其适用于各种应用程序,例如轻量级密码、身份验证加密、哈希函数、信号处理和卷积计算。多维线性索引映射技术是推导基数-22算法的常用方法。然而,这种方法并没有对基数-22方法的基本结构和灵活性提供清晰的见解。本文解决了这一限制,并提出了一种基于位解扰技术的推导,该技术可以反转输出序列的顺序,从而以更少的操作实现高效的计算。同时给出了蝴蝶图和信号流图来说明ONMNT和IONMNT的快速算法结构。所提出的方法应该为在轻量级密码和信号处理等应用中有效和灵活地实现ONMNT和IONMNT铺平道路。该算法已在C语言中实现,并通过实例进行了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Radix-22 Algorithm for the Odd New Mersenne Number Transform (ONMNT)
This paper introduces a new derivation of the radix-22 fast algorithm for the forward odd new Mersenne number transform (ONMNT) and the inverse odd new Mersenne number transform (IONMNT). This involves introducing new equations and functions in finite fields, bringing particular challenges unlike those in other fields. The radix-22 algorithm combines the benefits of the reduced number of operations of the radix-4 algorithm and the simple butterfly structure of the radix-2 algorithm, making it suitable for various applications such as lightweight ciphers, authenticated encryption, hash functions, signal processing, and convolution calculations. The multidimensional linear index mapping technique is the conventional method used to derive the radix-22 algorithm. However, this method does not provide clear insights into the underlying structure and flexibility of the radix-22 approach. This paper addresses this limitation and proposes a derivation based on bit-unscrambling techniques, which reverse the ordering of the output sequence, resulting in efficient calculations with fewer operations. Butterfly and signal flow diagrams are also presented to illustrate the structure of the fast algorithm for both ONMNT and IONMNT. The proposed method should pave the way for efficient and flexible implementation of ONMNT and IONMNT in applications such as lightweight ciphers and signal processing. The algorithm has been implemented in C and is validated with an example.
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来源期刊
CiteScore
3.20
自引率
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审稿时长
11 weeks
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