Intellectual Property Protection of Sequential Circuits Using Digital Watermarking

First International Conference on Industrial and Information Systems Pub Date : 2006-08-01 DOI:10.1109/ICIIS.2006.365790

S. Subbaraman, P.S. Nandgawe

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引用次数: 9

Abstract

The aspect of intellectual property protection (IPP) has created a deep concern in recent years which has forced the IP owners to incorporate some sort of signature or watermark in their designs. In this regard, Oliveira have suggested a technique of modifying the state transition graph (STG) of sequential circuits incorporating digital watermark in such a way that it is impossible for anyone to even imagine that the watermark exists in the design. Moreover, it assists the IP owner to prove in a court of law his ownership in case of suspected piracy of the design. We have used this technique on a 5-bit sequence detector with a 3-bit signature that helps to detect the piracy. The comparison of simulation results of both watermarked and non-watermarked circuit, using ModelSim simulator, indicate no change in the maximum operating frequency of the circuit. This is the outcome of our work and has not been reported in the literature earlier. Also, the test results of piracy detection circuit confirm that only one output of this detection circuit can monitor the internal state of the sequential machine, thereby detecting the piracy. The details of these are presented in this paper

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基于数字水印的顺序电路知识产权保护

近年来，知识产权保护(IPP)问题引起了人们的高度关注，迫使知识产权所有者在其设计中加入某种形式的签名或水印。在这方面，Oliveira提出了一种修改包含数字水印的顺序电路的状态转移图(STG)的技术，使任何人都无法想象设计中存在水印。此外，它有助于知识产权所有者在涉嫌盗版设计的情况下在法庭上证明其所有权。我们已经在一个具有3位签名的5位序列检测器上使用了这种技术，以帮助检测盗版。使用ModelSim模拟器对加水印电路和未加水印电路的仿真结果进行比较，电路的最大工作频率没有变化。这是我们工作的结果，以前文献中没有报道过。另外，盗版检测电路的测试结果证实，该检测电路只有一个输出可以监控顺序机的内部状态，从而检测盗版。本文详细介绍了这些方法

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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First International Conference on Industrial and Information Systems

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