针对平衡可控性触发器设计的硬件木马检测方法

IF 1.7 4区 计算机科学 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Embedded Systems Letters Pub Date : 2023-09-25 DOI:10.1109/LES.2023.3318591
Wei-Ting Hsu;Pei-Yu Lo;Chi-Wei Chen;Chin-Wei Tien;Sy-Yen Kuo
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引用次数: 0

摘要

由于集成电路产业的全球化,HT 已成为物联网的一个严重威胁。为了逃避功能验证,HT 往往在门级网表中至少有一个触发信号,其转换概率非常低。基于这一特性,以往的研究将不平衡可控性作为检测 HT 的一个特征,认为具有不平衡可控性的信号总是伴随着低转换概率。然而,与之前的方法相比,本研究发现了一种新的 HT 类型,即过渡概率低但可控性平衡。因此,当前的不平衡可控性检测器在这种情况下是不够的。针对这一局限,我们提出了一种基于概率的检测方法,利用无监督异常分析来检测 HT。我们提出的方法不仅能检测所提出的 HT,还能检测 Trusthub 上的 580 种木马基准。实验结果表明,我们提出的检测器优于其他检测器,在 580 个基准上实现了 100% 的总体真阳性率和 0.37% 的假阳性率。
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Hardware Trojan Detection Method Against Balanced Controllability Trigger Design
HT has become a serious threat to the Internet of Things due to the globalization of the integrated circuit industry. To evade functional verification, HTs tend to have at least one trigger signal at the gate-level netlist with a very low transition probability. Based on this nature, previous studies use imbalanced controllability as a feature to detect HTs, assuming that signals with imbalanced controllability are always accompanied by low transition probability. However, this study has found out a way to create a new type of HT that has low transition probability but balanced controllability, against previous methods. Hence, current imbalanced controllability detectors are inadequate in this scenario. To address this limitation, we propose a probability-based detection method that uses unsupervised anomaly analysis to detect HTs. Our proposed method detects not only the proposed HT but also the 580 Trojan benchmarks on Trusthub. Experimental results show that our proposed detector outperforms other detectors, achieving an overall 100% true positive rate and 0.37% false positive rate on the 580 benchmarks.
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来源期刊
IEEE Embedded Systems Letters
IEEE Embedded Systems Letters Engineering-Control and Systems Engineering
CiteScore
3.30
自引率
0.00%
发文量
65
期刊介绍: The IEEE Embedded Systems Letters (ESL), provides a forum for rapid dissemination of latest technical advances in embedded systems and related areas in embedded software. The emphasis is on models, methods, and tools that ensure secure, correct, efficient and robust design of embedded systems and their applications.
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