Abstract

The microcircuit industry is witnessing a massive outsourcing of the fabrication of ICs (Integrated Circuit), as well as the use of third party IP (Intellectual Property) and COTS (Commercial Off-The-Shelf) tools during IC design. These issues raise new security challenges and threats. In particular, it brings up multiple opportunities for the insertion of malicious logic, commonly referred to as a hardware Trojan, in the IC. Testing is typically used along the IC development lifecycle to verify the functional correctness of a given chip. However, the complexity of modern ICs, together with resource and time limitations, makes exhaustive testing commonly unfeasible. In this paper, we propose a game-theoretic approach for testing digital circuits that takes into account the decision-making process of intelligent attackers responsible for the infection of ICs with hardware Trojans. Testing for hardware Trojans is modeled as a zero-sum game between malicious manufacturers or designers (i.e., the attacker) who want to insert Trojans, and testers (i.e., the defender) whose goal is to detect the Trojans. The game results in multiple possible mixed strategy Nash equilibria that allow to identify optimum test sets that increase the probability of detecting and defeating hardware Trojans in digital logic. Results also show that the minimum number of Trojan classes tested by the defender and the fines imposed to the attacker can deter rational as well as irrational attackers from infecting circuits with Trojans.

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