14nm HKMG FinFET平台上的嵌入式PUF:一种适用于5G时代物联网安全解决方案的新型2位otp存储器

2019 Symposium on VLSI Technology Pub Date : 2019-01-01 DOI:10.23919/VLSIT.2019.8776515

E. Hsieh, H. W. Wang, C. H. Liu, S. Chung, T. P. Chen, S.A. Huang, T. J. Chen, O. Cheng

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引用次数: 7

摘要

本文提出了一种新的介质击穿方案，采用每单元2位(2B/C)的概念来实现高密度OTP PUF。该PUF具有$10^{5}{\text{x}}$的大窗口，具有良好的抗高温干扰能力，在150°C烘烤下具有优异的保存性，特别适用于汽车应用。在安全性方面，该PUF具有接近理想的汉明距离正态分布和较窄的汉明权重分布。误码率很低，在25°C时为0.78%，在150°C时为1.95%，以256位阵列为基准。最后，该PUF对来自机器学习过程的黑客攻击进行了安全测试，证明其具有较高的安全性。总体而言，拟议的2B/C OTP PUF在5G时代展示了物联网安全的巨大潜力。

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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Embedded PUF on 14nm HKMG FinFET Platform: A Novel 2-bit-per-cell OTP-based Memory Feasible for IoT Secuirty Solution in 5G Era

In this work, a novel concept of 2-bit-per-cell (2B/C) is introduced to realize high-density OTP PUF from a new scheme of dielectric breakdown. This PUF shows $10^{5}{\text{x}}$ of large window, good immunity to high-temperature disturbance, and excellent retention under 150°C baking, which are particularly for automotive applications. In terms of security, this PUF exhibits near ideal normal distribution of hamming distance and narrow distribution of hamming weight. The bit error rates are low, 0.78% at 25°C and 1.95% at 150°C, benchmarked on a 256-bit array. Finally, the security test of this PUF against the hackers' attack from the machine learning process has been proved to have high security. Overall, the proposed 2B/C OTP PUF demonstrated great potential for IoT security in 5G era.

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2019 Symposium on VLSI Technology

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