Abstract
Hardware Trojan (HT), intellectual property (IP) piracy, and overproduction of integrated circuit (IC) are three threats that may happen in untrusted fabrication foundries. HTs are malicious circuitry changes in the IC layout. They affect side-channels (IC parameters) such as path-delay or power consumption. Therefore, HT detection methods based on side-channel analysis have been proposed. They can detect an HT only if its effects on side-channels are significant among the alteration of side-channels, caused by process1 and environment2 variations. IC design modifications at different abstraction levels have been proposed to facilitate HT detection methods after fabrication, such as modifying a circuit to make the paths3 of the circuit more sensitive to HTs. Such modifications are known as design-for-trust (DfTr). In addition, key-based modifications have been proposed to protect IPs/ICs from IP piracy and IC overproduction. This approach is known as masking or obfuscation, and it modifies a circuit such that it does not correctly work without applying a correct key. In this work, we propose a DfTr method based on leveraging the masking approach. It improves HT detection methods based on path-delay analysis. As a matter of fact, the delay of shorter paths varies less than that of longer ones. Therefore, the objective of the proposed DfTr is to generate fake short paths for nets that only belong to long paths. Our layout level experiments show that the proposed DfTr masks the functionality of circuits and, on average, increases the HT detectability of path-delay-based detection methods by 10%.
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