Taehwan Park, Hwajeong Seo, Bongjin Bae, Howon Kim
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引用次数: 7
Abstract
A lot of Internet of Things devices has resource-restricted environment, so it is difficult to implement the existing block ciphers such as AES, PRESENT. By this reason, there are lightweight block ciphers, such as SIMON, SPECK, and Simeck, support various block/key sizes. These lightweight block ciphers can support the security on the IoT devices. In this paper, we propose efficient implementation methods and performance results for the Simeck family block cipher proposed in CHES 2015 on an 8-bit ATmega128-based STK600 board. The proposed methods can be adapted in the 8-bit microprocessor environment such as Arduino series which are one of famous devices for IoT application. The optimized on-the-fly (OTF) speed is on average 14.42 times faster and the optimized OTF memory is 1.53 times smaller than those obtained in the previous research. The speed-optimized encryption and the memory-optimized encryption are on average 12.98 times faster and 1.3 times smaller than those obtained in the previous studies, respectively.
很多物联网设备都存在资源受限的环境,现有的AES、PRESENT等分组密码难以实现。由于这个原因,有轻量级的块密码,如SIMON、SPECK和Simeck,支持各种块/密钥大小。这些轻量级分组密码可以支持物联网设备的安全性。在本文中,我们在基于8位atmega128的STK600板上,提出了在CHES 2015中提出的Simeck家族分组密码的有效实现方法和性能结果。本文提出的方法可以适用于8位微处理器环境,如著名的物联网应用设备之一Arduino系列。优化后的OTF (on- The -fly)速度比之前的研究平均提高了14.42倍,优化后的OTF内存比之前的研究平均减少了1.53倍。速度优化的加密和内存优化的加密分别比之前的研究平均快12.98倍和1.3倍。
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