嵌入式密码系统的低能耗安全优化

International Conference on Hardware/Software Codesign and System Synthesis, 2004. CODES + ISSS 2004. Pub Date : 1900-01-01 DOI:10.1109/CODES+ISSS.2004.38

C. Gebotys

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引用次数: 0

摘要

未来的嵌入式和无线设备将越来越强大，支持许多应用，包括最重要的应用之一;安全。尽管许多无线和嵌入式设备由于其紧凑的尺寸而对总线探测攻击提供了更多的抵抗，但必须分析对电源/电磁攻击的易感性。本文提出了在密码软件中优化合成新型低能量掩蔽对策的方法。特别提出了一种以能量开销最小为目标的键掩模模型。使用实际功率测量的实验结果显示，与以前的研究相比，支持高达2.5的能源开销节约和提高安全性。随着pda、手机、线卡加速器等安全应用的出现，优化低能耗对策以抵抗电源/电磁攻击对于支持未来安全的嵌入式设备至关重要。

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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Low energy security optimization in embedded cryptographic systems

Future embedded and wireless devices are increasingly powerful supporting many applications including one of the most crucial; security. Although many wireless and embedded devices offer more resistance to bus probing attacks due to their compact size, susceptibility to power/electromagnetic attacks must be analyzed. This work presents optimized synthesis of new low energy masking countermeasures into cryptographic software. In particular a model for key masking with the objective of minimizing energy overhead is presented. Experimental results using real power measurements are shown to support up to 2.5 energy overhead savings and improved security compared to previous research. With the emergence of security applications in PDAs, cell phones, line card accelerators, etc, optimizing low energy countermeasures for resistance to power/ electromagnetic attacks is crucial for supporting future secure embedded devices.

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International Conference on Hardware/Software Codesign and System Synthesis, 2004. CODES + ISSS 2004.

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