Structural transformation for best-possible obfuscation of sequential circuits

Li Li, H. Zhou
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引用次数: 43

Abstract

Obfuscation is a technique that makes comprehending a design difficult and hides the secrets in the design. An obfuscation is called best-possible if the obfuscated design leaks no more information than any other design of the same function. In this paper, we prove that any best-possible obfuscation of a sequential circuit can be accomplished by a sequence of four operations: retiming, resynthesis, sweep, and conditional stuttering. Based on this fundamental result, we also develop a key-based obfuscation scheme to protect design Intellectual Properties (IPs) against piracy. The novel obfuscation method embeds a secret key in the power-up state of IC, which is only known by the IP rights owner. Without the key, the IC still functions but its efficiency will be much degraded. Unlike existing IC metering techniques, the secret key in our approach is implicit thus it can also be used as a hidden watermark. Potential attacks and the countermeasures are thoroughly examined, and experimental results demonstrate the effectiveness of the method.
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结构转换的最佳可能混淆顺序电路
混淆是一种使理解设计变得困难并隐藏设计秘密的技术。如果混淆的设计不会比相同功能的任何其他设计泄露更多的信息,则称为最佳可能。在本文中,我们证明了顺序电路的任何最佳混淆都可以通过四种操作来完成:重定时、重合成、扫描和条件卡顿。基于这一基本结果,我们还开发了一种基于密钥的混淆方案来保护设计知识产权(ip)免受盗版。该方法在集成电路的上电状态中嵌入一个只有知识产权所有者知道的密钥。如果没有密钥,集成电路仍然可以工作,但其效率将大大降低。与现有的IC计量技术不同,我们的方法中的密钥是隐式的,因此它也可以用作隐藏水印。对潜在的攻击和应对措施进行了深入的研究,实验结果证明了该方法的有效性。
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