利用硬件软件协同设计优化高速纵深防御CAESAR入围者的实现

Michael Tempelmeier, Maximilian Werner, G. Sigl
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引用次数: 0

摘要

在这项工作中,我们提出了在Xilinx-Zynq7200 SoC上的五种优化实现,用于CAESAR竞赛的高速和深度防御决赛,以寻找经过身份验证的加密密码。我们取消了比赛中使用的标准接口。通过优化硬件和软件之间的接口,我们能够获得性能改进以及减少使用的可编程逻辑。我们实现的性能与纯硬件实现相当,但我们的实现要小50%。与纯软件实现相比,我们的速度快了16倍。比较不同的算法,我们得出结论,Colm允许最快的实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using Hardware Software Codesign for Optimised Implementations of High-Speed and Defence in Depth CAESAR Finalists
In this work, we present five optimised implementations on a Xilinx-Zynq7200 SoC for the high-speed and defence in depth finalists of the CAESAR competition for finding authenticated encryption ciphers. We eliminated the standard interfaces used during the competition. Through optimised interfaces between hardware and software, we were able to get both performance improvements as well as reduction in used programmable logic. The performance of our implementations is comparable to pure hardware implementations, but our implementations are 50% smaller. Compared to pure SW implementations we are 16 times faster. Comparing the different algorithms, we come to the conclusion that Colm allows the fastest implementation.
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