FPGA中短笛分组密码的轻量级硬件架构

2020 5th International Conference on Advanced Technologies for Signal and Image Processing (ATSIP) Pub Date : 2020-09-01 DOI:10.1109/ATSIP49331.2020.9231586

Ayoub Mhaouch, W. Elhamzi, Mohamed Atri

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引用次数: 10

摘要

Piccolo分组密码是一种用于硬件的轻量级分组加密。硬件设备的计算资源有限，内存小。在本文中，我们提出了一种通过在面积和速度之间进行权衡的实现方案。我们在FPGA上采用迭代和4位串行两种不同架构实现了128位密钥的Piccolo分组密码算法。在Xilinx Spartan-3上进行了拟议的实施。迭代实现实现了76%的资源利用率。这个实现需要31个时钟周期来执行加密或解密。因此，它的吞吐量为151.1 Mbps。该串行实现在面积方面进行了优化，以降低成本。它实现了54%的资源利用率，占用496个时钟周期，吞吐量为6.39 Mbps。

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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Lightweight Hardware Architectures for the Piccolo Block Cipher in FPGA

The Piccolo block cipher is a lightweight block encryption for hardware use. Hardware devices are equipped with limited computation resources and small memory. In this paper, we propose an implementation to carry out through several trade-offs between area and speed. We implemented the Piccolo block cipher algorithm with 128-bit key in two different architectures on FPGA: the iterative and the 4-bit serial architectures. The proposed implementation was performed on Xilinx Spartan-3. The iterative implementation achieves 76% of resource utilization. This implementation takes 31 clock cycles to perform the encryption or decryption. So, it results in a throughput of 151.1 Mbps. The serial implementation was optimized in terms of area to reduce the cost. It achieves 54% of resource utilization and takes 496 clock cycles resulting in a throughput of 6.39 Mbps.

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2020 5th International Conference on Advanced Technologies for Signal and Image Processing (ATSIP)

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