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Golden Chip-Free Trojan Detection Leveraging Trojan Trigger’s Side-Channel Fingerprinting

Jiaji He, Haocheng Ma, Yanjiang Liu, Yiqiang Zhao

2020ACM Transactions on Embedded Computing Systems23 citationsDOI

Abstract

Hardware Trojans (HTs) have become a major threat for the integrated circuit industry and supply chain and have motivated numerous developments of HT detection schemes. Although the side-channel HT detection approach is among the most promising solutions, most of the previous methods require a trusted golden chip reference. Furthermore, detection accuracy is often influenced by environmental noise and process variations. In this article, a novel electromagnetic (EM) side-channel fingerprinting-based HT detection method is proposed. Different from previous methods, the proposed solution eliminates the requirement of a trusted golden fabricated chip. Rather, only the genuine RTL code is required to generate the EM signatures as references. A factor analysis method is utilized to extract the spectral features of the HT trigger’s EM radiation, and then a k -means clustering method is applied for HT detection. Experimentation on two selected sets of Trust-Hub benchmarks has been performed on FPGA platforms, and the results show that the proposed framework can detect all dormant HTs with a high confidence level.

Topics & Concepts

Computer scienceHardware TrojanTrojanSide channel attackChipField-programmable gate arrayEmbedded systemHardware security moduleProcess (computing)Channel (broadcasting)Code (set theory)Computer hardwareCryptographyComputer securityTelecommunicationsOperating systemSet (abstract data type)Programming languagePhysical Unclonable Functions (PUFs) and Hardware SecurityIntegrated Circuits and Semiconductor Failure AnalysisNeuroscience and Neural Engineering
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