Comparative Study of Keccak SHA-3 Implementations

IF 1.8 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS Cryptography Pub Date : 2023-11-20 DOI:10.3390/cryptography7040060
Alessandra Dolmeta, Maurizio Martina, Guido Masera
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Abstract

This paper conducts an extensive comparative study of state-of-the-art solutions for implementing the SHA-3 hash function. SHA-3, a pivotal component in modern cryptography, has spawned numerous implementations across diverse platforms and technologies. This research aims to provide valuable insights into selecting and optimizing Keccak SHA-3 implementations. Our study encompasses an in-depth analysis of hardware, software, and software–hardware (hybrid) solutions. We assess the strengths, weaknesses, and performance metrics of each approach. Critical factors, including computational efficiency, scalability, and flexibility, are evaluated across different use cases. We investigate how each implementation performs in terms of speed and resource utilization. This research aims to improve the knowledge of cryptographic systems, aiding in the informed design and deployment of efficient cryptographic solutions. By providing a comprehensive overview of SHA-3 implementations, this study offers a clear understanding of the available options and equips professionals and researchers with the necessary insights to make informed decisions in their cryptographic endeavors.
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Keccak SHA-3 实现比较研究
本文对实现 SHA-3 哈希函数的最先进解决方案进行了广泛的比较研究。SHA-3 是现代密码学的重要组成部分,在不同的平台和技术中产生了大量的实现方案。本研究旨在为选择和优化 Keccak SHA-3 实现提供有价值的见解。我们的研究包括对硬件、软件和软硬件(混合)解决方案的深入分析。我们评估了每种方法的优缺点和性能指标。在不同的使用案例中,对包括计算效率、可扩展性和灵活性在内的关键因素进行了评估。我们研究了每种实现方式在速度和资源利用率方面的表现。这项研究旨在提高人们对加密系统的认识,帮助人们在知情的情况下设计和部署高效的加密解决方案。通过对 SHA-3 实现的全面概述,本研究清楚地了解了可用的选项,并为专业人士和研究人员提供了必要的见解,以便他们在加密工作中做出明智的决定。
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来源期刊
Cryptography
Cryptography Mathematics-Applied Mathematics
CiteScore
3.80
自引率
6.20%
发文量
53
审稿时长
11 weeks
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