Abstract:
Recent studies have shown that an attacker can retrieve confidential information from cryptographic hardware (e.g. the secret key) by introducing internal faults. A secur...View moreMetadata
Abstract:
Recent studies have shown that an attacker can retrieve confidential information from cryptographic hardware (e.g. the secret key) by introducing internal faults. A secure and reliable implementation of cryptographic algorithms in hardware must be able to detect or correct such malicious attacks. Error detection/correction (EDC), through fault tolerance, could be an effective way to mitigate such fault attacks in cryptographic hardware. To this end, we analyze the area, delay, and power overhead for designing the S-Box, which is one of the main complex blocks in the Advanced Encryption Standard (AES), with error detection and correction capability. We use multiple Parity Predictions (PPs), based on various error correcting codes, to detect and correct errors. Various coding techniques are presented, which include simple parity prediction, split parity codes, Hamming, Hsiao, and LDPC codes. The S-Box, GF(p), and PP circuits are synthesized from the specifications, while the decoding and correction circuits are combined to form the complete designs. The analysis shows a comparison of the different approaches characterized by their error detection capability.
Date of Conference: 22-24 March 2010
Date Added to IEEE Xplore: 15 April 2010
ISBN Information: