并不是所有的前馈MUX puf都产生唯一的签名

A. Ayling, S. V. S. Avvaru, K. Parhi
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引用次数: 2

摘要

物理不可克隆功能(puf)的一个基本特性是它们产生的唯一输出不能被其他芯片复制,即使具有相同的电路和布局设计。前馈puf (FF puf)的几种配置根据其芯片间变化进行评估,这是一种唯一性度量。一般来说,puf被认为是唯一的,因为它们的路径延迟分布是对称的,通常是高斯分布。在本文中,我们证明了某些FF puf会导致路径延迟分布偏斜,从而导致唯一性差。在这些puf中,总延迟差是对称高斯分布和非对称半高斯分布的和。我们还计算了经验估计,并通过模拟每个FF配置中的200个puf来验证我们的观察结果。观察到(1)具有一个中间仲裁器和奇数个前馈环路的FF puf和(2)级联或单独配置的FF puf在芯片间的变化会降低。这是第一次观察并证明这类puf的非唯一性。
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Not All Feed-Forward MUX PUFs Generate Unique Signatures
A fundamental property of physical unclonable functions (PUFs) is that they generate unique outputs that cannot be reproduced by another chip, even with an identical circuit and layout design. Several configurations of feed-forward PUFs (FF PUFs) are evaluated in terms of their interchip variation, a measure of uniqueness. In general, PUFs are considered to be unique due to symmetry in their path delay distributions, which are typically Gaussian. In this paper, we prove that certain FF PUFs can result in skewed path delay distributions leading to poor uniqueness. In these PUFs, the total delay difference is sum of a symmetric Gaussian distribution and an asymmetric half-Gaussian distribution. We also compute empirical estimates and verify our observations by simulating 200 PUFs in each FF configuration. It is observed that (1) FF PUFs with one intermediate arbiter and odd number of feed-forward loops and (2) FF PUFs in cascade or separate configurations have degraded interchip variation. This is the first study to observe and prove the non-uniqueness property of such PUFs.
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