分组密码在现场可编程门阵列上的实现

Q3 Engineering Communications in Science and Technology Pub Date : 2020-12-26 DOI:10.21924/cst.5.2.2020.184

Yusuf Kurniawan, M. A. Rizqulloh

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引用次数: 1

摘要

分组密码用于保护信息系统中的数据不被泄露给未经授权的人。印度尼西亚研究人员开发的许多分组密码算法之一是BCF (block cipher - four)——一种具有128位输入/输出的分组密码，可以接受128位、192位或256位密钥。该算法可用于需要快速实现BCF的嵌入式系统。本研究在FPGA DE2上进行了BCF引擎的设计与实现。本文首次研究了BCF在FPGA中的实现。BCF机的运行由Nios II作为主处理器控制。我们的实验表明，BCF引擎的计算速度比仅使用Nios II / e的BFC实现快2,847倍。我们的贡献介绍了新的分组密码BCF的描述，并使用一种有效的方法在FPGA上首次实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Block cipher four implementation on field programmable gate array

Block ciphers are used to protect data in information systems from being leaked to unauthorized people. One of many block cipher algorithms developed by Indonesian researchers is the BCF (Block Cipher-Four) - a block cipher with 128-bit input/output that can accept 128-bit, 192-bit, or 256-bit keys. The BCF algorithm can be used in embedded systems that require fast BCF implementation. In this study, the design and implementation of the BCF engine were carried out on the FPGA DE2. It is the first research on BCF implementation in FPGA. The operations of the BCF machine were controlled by Nios II as the host processor. Our experiments showed that the BCF engine could compute 2,847 times faster than a BFC implementation using only Nios II / e. Our contribution presents the description of new block cipher BCF and the first implementation of it on FPGA using an efficient method.

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