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引用次数: 2
摘要
这项工作旨在改进安全物联网通信所需的加密算法的设计策略。提出了轻量级密码(KLEIN、Midori和PRINCE) s盒模块的简化硬件体系结构。所提出的s盒是基于最小项复用技术设计的,以获得最小的逻辑门硬件。可以观察到,替换层中包含的修改后的s盒导致整个密码的资源利用率降低。与最先进的密码的其他实现相比,该体系结构在吞吐量和能量方面也实现了更好的性能。每个密码的仿真结果都是根据PAR (Place and Route)报告确定的,并在相同的FPGA平台上进行公平的比较,以实现比较的一致性。
Substitution Permutation Network based Lightweight Ciphers with Improved Substitution Layers for Secure IoT Applications
This work aims to improve the design strategies of encryption algorithms desirable for secure IoT communication. Reduced hardware architectures for S-box modules of the lightweight ciphers specifically KLEIN, Midori and PRINCE are proposed. The proposed S-boxes are designed based on reuse of minterms technique to obtain minimum hardware in terms of logic gates. It is observed that the modified S-box contained in the substitution layer results in a decrease in the resource utilization of the overall cipher. The architectures also achieve better performance in terms of throughput and energy as compared to the other implementations of state-of-the-art ciphers. Simulation results for each cipher are determined from the PAR (Place and Route) report, and are compared fairly on the same FPGA platforms to bring uniformity in comparison.
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