使用多路复用器的安全、低开销电路混淆技术

2016 International Great Lakes Symposium on VLSI (GLSVLSI) Pub Date : 2016-05-18 DOI:10.1145/2902961.2903000

Xueyan Wang, Xiaotao Jia, Qiang Zhou, Yici Cai, Jianlei Yang, Mingze Gao, G. Qu

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引用次数: 24

摘要

电路混淆技术被提出用来隐藏电路的功能，以阻止对集成电路(IC)的逆向工程攻击。我们认为，一个好的混淆方法应该具有较低的设计复杂度和较低的性能开销，但会导致较高的正则攻击复杂度。然而，现有的混淆技术并不能满足所有这些需求。在本文中，我们提出了一种多项式混淆方案，该方案利用特殊设计的多路复用器(mux)来取代明智选择的逻辑门。基于一种利用集成电路拓扑结构信息的栅极分类方法，选择了待混淆的候选逻辑门。我们证明了该方案对所有已知的攻击具有弹性，因此它是安全的。在ISCAS 85/89和MCNC基准测试套件上进行了实验，以评估由于混淆造成的性能开销。

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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Secure and low-overhead circuit obfuscation technique with multiplexers

Circuit obfuscation techniques have been proposed to conceal circuit's functionality in order to thwart reverse engineering (RE) attacks to integrated circuits (IC). We believe that a good obfuscation method should have low design complexity and low performance overhead, yet, causing high RE attack complexity. However, existing obfuscation techniques do not meet all these requirements. In this paper, we propose a polynomial obfuscation scheme which leverages special designed multiplexers (MUXs) to replace judiciously selected logic gates. Candidate to-be-obfuscated logic gates are selected based on a novel gate classification method which utilizes IC topological structure information. We show that this scheme is resilient to all the known attacks, hence it is secure. Experiments are conducted on ISCAS 85/89 and MCNC benchmark suites to evaluate the performance overhead due to obfuscation.

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2016 International Great Lakes Symposium on VLSI (GLSVLSI)

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