HW/SW Architecture Exploration for an Efficient Implementation of the Secure Hash Algorithm SHA-256

IF 0.6 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS

Journal of Communications Software and Systems Pub Date : 2021-01-01 DOI:10.24138/JCOMSS-2021-0006

Manel Kammoun, Manel Elleuchi, M. Abid, A. Obeid

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引用次数: 2

Abstract

—Hash functions are used in the majority of security protocol to guarantee the integrity and the authenticity. Among the most important hash functions is the SHA-2 family, which offers higher security and solved the insecurity problems of other popular algorithms as MD5, SHA-1 and SHA-0. However, theses security algorithms are characterized by a certain amount of complex computations and consume a lot of energy. In order to reduce the power consumption as required in the majority of embedded applications, a solution consists to exploit a critical part on accelerator (hardware). In this paper, we propose a hardware/software exploration for the implementation of SHA256 algorithm. For hardware design, two principal design methods are proceeded: Low level synthesis (LLS) and high level synthesis (HLS). The exploration allows the evaluation of performances in term of area, throughput and power consumption. The synthesis results under Zynq 7000 based-FPGA reﬂect a signiﬁcant improvement of about 80% and 15% respectively in FPGA resources and throughput for the LLS hardware design compared to HLS solution. For better efﬁciency, hardware IPs are deduced and implemented within HW/SW system on chip. The experiments are performed using Xilinx ZC 702-based platform. The HW/SW LLS design records a gain of 10% to 25% in term of execution time and 73% in term of power consumption.

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高效实现安全哈希算法SHA-256的硬件/软件架构探索

大多数安全协议都使用哈希函数来保证数据的完整性和真实性。其中最重要的哈希函数是SHA-2家族，它提供了更高的安全性，并解决了MD5, SHA-1和SHA-0等流行算法的不安全问题。然而，这些安全算法的特点是计算量大，能耗大。为了降低大多数嵌入式应用程序所需的功耗，解决方案包括利用加速器(硬件)上的关键部分。在本文中，我们提出了实现SHA256算法的硬件/软件探索。硬件设计主要采用两种设计方法:低级综合(LLS)和高级综合(HLS)。该探索允许在面积，吞吐量和功耗方面评估性能。基于Zynq 7000的FPGA合成结果表明，与HLS解决方案相比，LLS硬件设计的FPGA资源和吞吐量分别显著提高了约80%和15%。为了提高效率，硬件ip被推导并在片上硬件/软件系统中实现。实验在Xilinx zc702平台上进行。HW/SW LLS设计在执行时间方面增加了10%到25%，在功耗方面增加了73%。

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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