Design and implementation of a group-based RO PUF

C. Yin, G. Qu, Qiang Zhou
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引用次数: 53

Abstract

The silicon physical unclonable functions (PUF) utilize the uncontrollable variations during integrated circuit (IC) fabrication process to facilitate security related applications such as IC authentication. In this paper, we describe a new framework to generate secure PUF secret from ring oscillator (RO) PUF with improved hardware efficiency. Our work is based on the recently proposed group-based RO PUF with the following novel concepts: an entropy distiller to filter the systematic variation; a simplified grouping algorithm to partition the ROs into groups; a new syndrome coding scheme to facilitate error correction; and an entropy packing method to enhance coding efficiency and security. Using RO PUF dataset available in the public domain, we demonstrate these concepts can create PUF secret that can pass the NIST randomness and stability tests. Compared to other state-of-the-art RO PUF design, our approach can generate an average of 72% more PUF secret with the same amount of hardware.
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基于组的RO PUF的设计与实现
硅物理不可克隆功能(PUF)利用集成电路(IC)制造过程中的不可控变化来促进集成电路认证等安全相关应用。本文提出了一种基于环振(RO) PUF生成安全PUF秘密的新框架,提高了硬件效率。我们的工作是基于最近提出的基于组的RO PUF,具有以下新概念:熵蒸馏器过滤系统变化;一种简化的分组算法将ROs分组;一种便于纠错的新型证候编码方案并采用熵填充方法提高编码效率和安全性。使用公共领域可用的RO PUF数据集,我们演示了这些概念可以创建可以通过NIST随机性和稳定性测试的PUF秘密。与其他最先进的RO PUF设计相比,我们的方法可以在相同数量的硬件下平均多生成72%的PUF秘密。
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