Model building attacks on Physically Unclonable Functions using genetic programming

I. Saha, Ratan Rahul Jeldi, R. Chakraborty
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引用次数: 29

Abstract

Design, implementation and characterization of Physically Unclonable Functions (PUFs) in silicon have drawn considerable research interest in recent years. However, side-by-side, there are concerns that these PUF circuits, although physically unclonable, might be vulnerable to computational model-building attacks that compromise their security. In this work, we have used ideas from evolutionary computation, specifically genetic programming, to build accurate and compact mathematical models to approximate the response of FPGA-based ring oscillator PUFs (RO-PUFs). Hence, we have demonstrated the feasibility of a computationally simple scheme to model FPGA-based PUFs, and we believe this work will pave the way for similar attempts to attack more sophisticated PUF implementations.
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利用遗传编程对物理不可克隆函数的模型构建攻击
物理不可克隆功能(puf)的设计、实现和表征近年来引起了广泛的研究兴趣。然而,这些PUF电路虽然在物理上是不可克隆的,但也可能容易受到计算模型构建攻击的影响,从而危及其安全性。在这项工作中,我们使用了进化计算的思想,特别是遗传规划,来建立精确和紧凑的数学模型来近似基于fpga的环形振荡器puf (ro - puf)的响应。因此,我们已经证明了一种计算简单的方案来模拟基于fpga的PUF的可行性,我们相信这项工作将为攻击更复杂的PUF实现的类似尝试铺平道路。
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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