128位对称密码SEED的硬件实现

Young-ho Seo, Jong-Hyeon Kim, Dong-Wook Kim
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引用次数: 11

摘要

本文介绍了SEED的硬件实现,这是一个韩国标准的128位对称分组密码:设计的目标是FPGA,但SEED的设计技术独立于其他应用,如ASIC或基于核心的设计。因此,在改变设计目标的情况下,不需要修改设计,也不需要为了重用设计而进行微小的修改。设计由圆键生成部分、f函数部分、控制部分和圆过程部分组成。由于SEED算法需要大量的硬件资源,所以除S-Box外,每个单元只设计一次,并按顺序运行。因此,最小化了门的数量,并在FPGA中拟合了SEED算法,而不需要额外的组件。另外,在altera10ke中,资源使用率约为80%。设计采用ALTERA 10k库在SYNOPSYS合成工具中进行合成,并在MAX+PLUSII FPGA工具中进行仿真。SEED设计的时钟频率为5 MHz,使用145个时钟。所以加密速率是4.4 Mbps。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hardware implementation of 128-bit symmetric cipher SEED
This paper presents a hardware implementation of SEED, which is a Korean standard 128-bit symmetric block cipher: the target of the design was FPGA, but SEED was designed technology-independently for other applications such as ASIC or core-based designs. Hence in the case of changing the target of design, it is not necessary to modify design or to need minor modification in order to reuse the design. The design consists of round key generation part, F-function part, control part and round process part. Since SEED algorithm requires a lot of hardware resources, each unit was designed only once, except S-Box, and operated sequentially. Therefore the number of gates was minimized and SEED algorithm was fitted in FPGA without additional components. Also it was confirmed that the rate of resource usage is about 80% in ALTERA 10 KE. The design was synthesized in SYNOPSYS synthesis tool using ALTERA 10 K library and was simulated in MAX+PLUSII FPGA tool. The SEED design operates in a clock frequency of 5 MHz and uses 145 clocks. So encryption rate is 4.4 Mbps.
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