International Association for Cryptologic Research

International Association
for Cryptologic Research

IACR News item: 23 January 2023

Tahoura Mosavirik, Saleh Khalaj Monfared, Maryam Saadat Safa, Shahin Tajik
ePrint Report ePrint Report
The threat of chip-level tampering and its detection is a widely researched field. Hardware Trojan insertions are prominent examples of such tamper events. Altering the placement and routing of a design or removing a part of a circuit for side-channel leakage/fault sensitivity amplification are other instances of such attacks. While semi- and fully-invasive physical verification methods can confidently detect such stealthy tamper events, they are costly, time-consuming, and destructive. On the other hand, virtually all proposed non-invasive side-channel methods suffer from noise and, therefore, have low confidence. Moreover, they require activating the tampered part of the circuit (e.g., the Trojan trigger) to compare and detect the modification. In this work, we introduce a general non-invasive post-silicon tamper detection technique applicable to all sorts of tamper events at the chip level without requiring the activation of the malicious circuit. Our method relies on the fact that all classes of physical modifications (regardless of their physical, activation, or action characteristics) alter the impedance of the chip. Hence, characterizing the impedance can lead to the detection of the tamper events. To sense the changes in the impedance, we deploy known RF tools, namely, scattering parameters, in which we inject sine wave signals with high frequencies to the power distribution network (PDN) of the system and measure the “echo” of the signal. The reflected signals in various frequency bands reveal different tamper events based on their impact size on the die. To validate our claims, we performed extensive measurements on several proof-of-concept tampered hardware implementations realized on an FPGA manufactured with a 28 nm technology. Based on these groundbreaking results, we demonstrate that stealthy hardware Trojans, as well as sophisticated modifications of P&R, can be detected with high confidence.
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