Lightweight Ciphers on a 65 nm ASIC A Comparative Study on Energy Consumption

2020 IEEE Computer Society Annual Symposium on VLSI (ISVLSI) Pub Date : 2020-07-01 DOI:10.1109/isvlsi49217.2020.000-2

Bastian Richter, A. Moradi

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Abstract

Low energy consumption is an important factor in today's technologies as many devices run on a battery and there are new applications which require long runtimes with very small batteries. As many of these devices are connected to some kind of network, they require encryption/decryption to securely transmit data. Hence, the energy consumption of the cipher is an important factor for the battery life. We evaluate the energy consumption of lightweight ciphers implemented on a custom 65 nm ASIC. Since the energies to measure are very small, we first introduce, compare and evaluate two techniques to precisely measure the energy consumption of a real cryptographic core. In our comparative investigations, using the PRINCE block cipher we examine the effect of the design architecture (round-based versus unrolled) on the amount of energy consumption. In addition to considering other effects (like fixed key versus random key), we compare round-based implementations of different block ciphers (PRINCE, MIDORI and SKINNY) under similar settings providing first such practical investigations.

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65纳米ASIC上的轻量级密码器及其能耗比较研究

低能耗是当今技术的一个重要因素，因为许多设备都是靠电池运行的，而且有一些新的应用需要用非常小的电池长时间运行。由于这些设备中的许多都连接到某种网络，因此它们需要加密/解密才能安全地传输数据。因此，密码的能量消耗是影响电池寿命的重要因素。我们评估了在定制的65nm ASIC上实现的轻量级密码的能耗。由于要测量的能量非常小，我们首先介绍，比较和评估两种技术来精确测量真实加密核心的能量消耗。在我们的比较调查中，使用PRINCE分组密码，我们检查了设计架构(圆形与展开)对能耗量的影响。除了考虑其他影响(如固定密钥与随机密钥)之外，我们还比较了在类似设置下不同分组密码(PRINCE, MIDORI和SKINNY)的基于轮的实现，提供了第一次这样的实际调查。

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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2020 IEEE Computer Society Annual Symposium on VLSI (ISVLSI)

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