LED分组密码在FPGA上的高效实现

2019 First International Conference of Intelligent Computing and Engineering (ICOICE) Pub Date : 2019-12-01 DOI:10.1109/ICOICE48418.2019.9035193

M. Al-Shatari, F. Hussin, A. Aziz, G. Witjaksono, M. S. Rohmad, Xuan-Tu Tran

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引用次数: 8

摘要

LED是一种针对资源受限设备的超轻量级分组密码。目前该密码的硬件结构利用了大的逻辑面积、低频率和低吞吐量。为了改善区域利用率和性能之间的平衡，本文实现了一种迭代的基于轮的LED分组密码结构。LED算法有64位和128位密钥大小。本文主要研究具有64位块大小的64位密钥。该算法在各种现场可编程门阵列(FPGA)器件上实现。该设计在多个Altera和Xilinx设备上使用Altera Quartus II、ModelSim和Xilinx ISE模拟器进行了验证。低成本和高端FPGA设备都是目标。考虑了面积和性能之间的权衡，并对性能进行了优化。利用现有文献对吞吐量和最大工作频率进行了基准测试，获得了更好的性能。结果表明，与最近设计的基于圆形的LED分组密码相比，在最大工作频率和吞吐量方面有了很大的改进，并且减少了面积利用率。

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An Efficient Implementation of LED Block Cipher on FPGA

LED is an ultra-lightweight block cipher targeting resource-constrained devices. The current hardware architectures of this cipher utilize large logic area, operate in low frequencies and have low throughput. To improve the trade-offs between area utilization and performance, an iterative round-based architecture of LED block cipher is implemented in this paper. LED algorithm is available in 64-bit and 128-bit key sizes. In this paper, the focus is on the 64-bit key with 64-bit block size. This algorithm is implemented on various Field Programmable Gate Array (FPGA) devices. The design is verified on several Altera and Xilinx devices using Altera Quartus II, ModelSim and Xilinx ISE simulators. Both low-cost and high-end FPGA devices were targeted. Tradeoffs between area and performance were considered, with the optimization for performance. The throughput and maximum operating frequency are benchmarked with the existing literature and better performance is achieved. The results show large improvements in maximum operating frequency and throughput as well as reduction in area utilization compared to recent designs of round-based LED block cipher.

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来源期刊

2019 First International Conference of Intelligent Computing and Engineering (ICOICE)

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