Functional polymorphism for intellectual property protection

2016 IEEE International Symposium on Hardware Oriented Security and Trust (HOST) Pub Date : 2016-05-03 DOI:10.1109/HST.2016.7495557

J. McDonald, Yong C. Kim, T. Andel, M. A. Forbes, J. McVicar

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引用次数: 12

Abstract

Polymorphic gates and circuits have been used in the past to design evolutionary components that can sense the environment. In general, polymorphic gates can change their function based on environmental properties such as temperature and power. In the modern digital logic threat landscape, adversarial reverse engineering and illegal cloning pose two risks for hardware-based applications with embedded intellectual property (IP). In this paper, we implement the concept of functional polymorphism at the design level using realized polygates and consider its application for IP protection in specific digital supply chain settings. We introduce a transformation algorithm for general circuits that utilize polygates to produce variants of a target circuit or component. We provide results of a case study analysis on traditional combinational benchmark circuits and components that illustrates efficacy of the approach for circuit watermarking and the ability to defeat adversarial reverse engineering as part of the supply chain lifecycle.

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知识产权保护的功能多态性

在过去，多态门和电路已经被用来设计能够感知环境的进化组件。一般来说，多态门可以根据温度和功率等环境特性改变其功能。在现代数字逻辑威胁环境中，对抗性逆向工程和非法克隆给嵌入式知识产权(IP)硬件应用带来了两大风险。在本文中，我们使用已实现的多栅极在设计层面实现了功能多态性的概念，并考虑了其在特定数字供应链设置中的知识产权保护应用。我们介绍了一种通用电路的转换算法，该算法利用多栅极来产生目标电路或元件的变体。我们提供了传统组合基准电路和组件的案例研究分析结果，说明了电路水印方法的有效性以及作为供应链生命周期的一部分击败对抗性逆向工程的能力。

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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2016 IEEE International Symposium on Hardware Oriented Security and Trust (HOST)

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