Randomness, Uniqueness, and Steadiness Evaluation of Physical Unclonable Functions

2021 9th International Conference on Information and Communication Technology (ICoICT) Pub Date : 2021-08-03 DOI:10.1109/ICoICT52021.2021.9527493

Rivaldo Ludovicus Sembiring, Rizka Reza Pahlevi, Parman Sukarno

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引用次数: 3

Abstract

The development of the Internet of Things (IoT) can be found in various places. However, multiple kinds of attacks have also increased. IoT devices are very vulnerable to attacks, both physical and non-physical, because of their unmanned nature. In non-physical attacks, the most important thing is to secure the data on memory devices. Physical unclonable function (PUF) is the strongest and lightest method to securing memory devices and can be used on unmanned IoT devices. The advantage of PUF over current classical cryptography types is its compatibility on IoT devices with limited computing resources. However, before PUF can be claimed to provide security property, it must meet the evaluation indicators: randomness, uniqueness, and steadiness. PUF can be the best solution for securing data on IoT devices because the encryption process does not put a secret key on the device. Instead, the key is generated randomly. This research is evaluating two different PUF chips with the same PUF design. We designed the arbiter PUF on the FPGA and evaluated the results of the responses given. Through rigorous experiments, this research succeeded to evaluate the three indicators of PUF where the randomness is 54.43%:45.4%, and 25.88%: 74.2%, the uniqueness between chip is 69.53%, and lastly, the steadiness is 89.84%, and 91.41%.

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物理不可克隆函数的随机性、唯一性和稳定性评价

物联网(IoT)的发展随处可见。然而，多种类型的攻击也有所增加。物联网设备由于其无人驾驶的性质，非常容易受到物理和非物理攻击。在非物理攻击中，最重要的是保护内存设备上的数据。物理不可克隆功能(PUF)是保护存储设备的最强大、最轻的方法，可以用于无人驾驶的物联网设备。PUF相对于当前经典加密类型的优势在于其在计算资源有限的物联网设备上的兼容性。但是，在声称PUF具有安全性之前，它必须满足评价指标:随机性、唯一性和稳定性。PUF可能是保护物联网设备上数据的最佳解决方案，因为加密过程不会在设备上放置密钥。相反，密钥是随机生成的。本研究评估了具有相同PUF设计的两种不同的PUF芯片。我们在FPGA上设计了仲裁PUF，并对给出的响应结果进行了评估。通过严谨的实验，本研究成功地评价了PUF的三个指标，其中随机性分别为54.43%、45.4%、25.88%、74.2%，芯片之间的唯一性分别为69.53%，稳定性分别为89.84%、91.41%。

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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来源期刊

2021 9th International Conference on Information and Communication Technology (ICoICT)

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