基于仿真的密码功能单元抗dpa性评估方法及其在CMOS和MCML技术中的应用

2007 International Conference on Embedded Computer Systems: Architectures, Modeling and Simulation Pub Date : 2007-07-16 DOI:10.1109/ICSAMOS.2007.4285753

F. Regazzoni, S. Badel, T. Eisenbarth, J. Großschädl, A. Poschmann, Z. Deniz, Marco Macchetti, L. Pozzi, C. Paar, Y. Leblebici, P. Ienne

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引用次数: 46

摘要

本文探讨了MOS电流模式逻辑(MCML)抵抗差分功率分析(DPA)攻击的能力。实际上，在MCML中实现的电路在功耗和功率分布与输入信号模式的依赖关系方面都具有独特的特性。因此，MCML适用于保护加密硬件免受DPA和类似的侧信道攻击。为了证明不同逻辑风格对功率分析攻击的有效性，采用CMOS和MCML技术实现了Kasumi算法的非线性双目标函数(称为替换盒S7)，并使用spice级仿真得出的功率走线执行了一组攻击。虽然所有的密钥都是针对CMOS发现的，但对MCML的攻击只有极少数是成功的。

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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A Simulation-Based Methodology for Evaluating the DPA-Resistance of Cryptographic Functional Units with Application to CMOS and MCML Technologies

This paper explores the resistance of MOS current mode logic (MCML) against differential power analysis (DPA) attacks. Circuits implemented in MCML, in fact, have unique characteristics both in terms of power consumption and the dependency of the power profile from the input signal pattern. Therefore, MCML is suitable to protect cryptographic hardware from DPA and similar side-channel attacks. In order to demonstrate the effectiveness of different logic styles against power analysis attacks, the non-linear bijective function of the Kasumi algorithm (known as substitution box S7) was implemented with CMOS and MCML technology, and a set of attacks was performed using power traces derived from SPICE-level simulations. Although all keys were discovered for CMOS, only very few attacks to MCML were successful.

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来源期刊

2007 International Conference on Embedded Computer Systems: Architectures, Modeling and Simulation

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