Noemie Beringuier-Boher scite author profile

Semi-invasive fault injection attacks are powerful techniques well-known by attackers and secure embedded system designers. When performing such attacks, the selection of the fault injection parameters is of utmost importance and usually based on the experience of the attacker. Surprisingly, there exists no formal and general approach to characterize the target behavior under attack. In this work, we present a novel methodology to perform a fast characterization of the fault injection impact on a target, depending on the possible attack parameters. We experimentally show our methodology to be a successful one when targeting different algorithms such as DES and AES encryption and then extend to the full characterization with the help of deep learning. Finally, we show how the characterization results are transferable between different targets.

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Increasing the security level of analog IPs by using a dedicated vulnerability analysis methodology

Beringuier-Boher

Hély

Beroulle

et al. 2013

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Noemie Beringuier-Boher

Voltage Glitch Attacks on Mixed-Signal Systems

Body Biasing Injection Attacks in Practice

A Fast Characterization Method for Semi-invasive Fault Injection Attacks

Increasing the security level of analog IPs by using a dedicated vulnerability analysis methodology

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