嵌入式应用中SHA-256哈希函数的节能实现

2021 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2021-10-14 DOI:10.1109/atc52653.2021.9598264

Binh Kieu-Do-Nguyen, Trong-Thuc Hoang, C. Pham, C. Pham-Quoc

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引用次数: 1

摘要

SHA-256是一种众所周知的算法，广泛应用于许多安全应用中。该算法提供了足够的安全性，并且由于其高并行性，可以在FPGA器件上有效地执行。本文针对基于fpga的嵌入式平台，提出了一种高吞吐量、低硬件资源占用和高能效的SHA-256算法架构。SHA-256计算核利用FPGA的特定架构实现高性能。我们用硬件描述语言实现了SHA-256计算核，使计算核与技术无关。因此，该计算核心适用于构建基于fpga的各种平台的应用程序。我们用模拟板和SoC板进行了几个实验。实验结果表明，该核心在不同FPGA系列上实现时实现了相同的功能、性能和功耗。使用我们的SHA-256计算核心实现的系统可以在139.04 MHz工作，实现高达1.04 Gbps的带宽。在最小配置下，SHA-256计算核功耗仅为0.072 W，非常节能。

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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A Power-efficient Implementation of SHA-256 Hash Function for Embedded Applications

SHA-256 is a well-known algorithm widely used in many security applications. The algorithm provides a sufficient level of safety and can be performed efficiently by FPGA devices due to its high parallelism level. This paper presents a high-throughput, low hardware resources usage, and power-efficiency architecture of the SHA-256 algorithm targeting FPGA-based embedded platforms. The SHA-256 computing core takes advantage of the specific architecture of FPGA to achieve high performance. We implement the SHA-256 computing core with hardware description languages so that the computing core is technology-independent. Therefore, the computing core is suitable for building applications with various FPGA-based platforms. We conduct several experiments with both simulation and SoC boards. The experimental results show that the core achieves the same functionality, performance, and power consumption when implemented on different FPGA families. The implemented system with our SHA-256 computing core can function at 139.04 MHz, achieving a bandwidth of up to 1.04 Gbps. The SHA-256 computing core is power-efficient when consuming only 0.072 W with the minimum configuration.

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2021 International Conference on Advanced Technologies for Communications (ATC)

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