高级加密标准密码引擎的区域高速设计权衡

2015 International Conference on Nascent Technologies in the Engineering Field (ICNTE) Pub Date : 2015-02-05 DOI:10.1109/ICNTE.2015.7029924

V. Suryawanshi, G. C. Manna

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引用次数: 0

摘要

为了保证数据的安全传输，许多应用都使用了加密算法。本文介绍了利用现场可编程图形阵列(FPGA)对分组密码高级加密标准AES-128进行面积和速度提升的优化硬件实现。由于AES有四种转换，其中子字节和混合列转换是在面积和速度方面实现的关键挑战。提出了一种利用逻辑移位和异或运算实现混合列变换的新方法循环移位法。在反馈加密模式下，该硬件实现在最大时钟频率为100.099 MHz时实现了1164.788 Mbps的吞吐量，并且使用了较少的片数2081。

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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Area-high speed design trade-offs for advanced encryption standard cipher engine

For secure data transmission cryptographic algorithms are used for many applications. This paper introduces optimized hardware implementation of area and speed improvement for the block cipher Advanced Encryption Standard (AES-128) using Field Programmable Graphic Array (FPGA). As AES has four transformations among them sub-byte and mix-column transformation are key challenges to implement in terms of area and speed. The proposed implementation proposes new method cyclic shift method for implementation of mix-column transformation which uses logical shift and XOR operation. This hardware implementation achieves throughput 1164.788 Mbps at the maximum clock frequency of 100.099 MHz is, in feedback encryption modes and uses less number of slices 2081.

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2015 International Conference on Nascent Technologies in the Engineering Field (ICNTE)

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