A Reliable Architecture for the Advanced Encryption Standard
G Di Natale, M Doulcier, ML Flottes… - 2008 13th European …, 2008 - ieeexplore.ieee.org
In this paper we propose an on-line self-test architecture for hardware implementations of
advanced encryption standard (AES). The solution assumes a parallel architecture and
exploits the inherent spatial replications of this implementation. We show that our solution is
very effective for on-line fault detection while keeping the area overhead very low. Moreover,
it does not weak the device with respect to side-channel attacks based on power analysis.
advanced encryption standard (AES). The solution assumes a parallel architecture and
exploits the inherent spatial replications of this implementation. We show that our solution is
very effective for on-line fault detection while keeping the area overhead very low. Moreover,
it does not weak the device with respect to side-channel attacks based on power analysis.
A reliable architecture for the Advanced Encryption Standard
GD Natale, M Doulcier, ML Flottes… - Proceedings of the 2008 …, 2008 - dl.acm.org
In this paper we propose an on-line self-test architecture for hardware implementations of
Advanced Encryption Standard (AES). The solution assumes a parallel architecture and
exploits the inherent spatial replications of this implementation. We show that our solution is
very effective for on-linefault detection while keeping the area overhead verylow. Moreover,
it does not weak the device with respectto side-channel attacks based on power analysis.
Advanced Encryption Standard (AES). The solution assumes a parallel architecture and
exploits the inherent spatial replications of this implementation. We show that our solution is
very effective for on-linefault detection while keeping the area overhead verylow. Moreover,
it does not weak the device with respectto side-channel attacks based on power analysis.
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