Kean Hong Boey scite author profile

Side channel attacks permit the recovery of the secret key held within a cryptographic device. This paper presents a new EM attack in the frequency domain, using a power spectral density analysis that permits the use of variable spectral window widths for each trace of the data set and demonstrates how this attack can therefore overcome both inter and intra-round random insertion type countermeasures. We also propose a novel re-alignment method exploiting the minimal power markers exhibited by electromagnetic emanations. The technique can be used for the extraction and re-alignment of round data in the time domain.

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Security of AES Sbox designs to power analysis

Boey¹,

Hodgers²,

Lu³

et al. 2010

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Cryptographic devices with the Advanced Encryption Standard (AES) encryption algorithm are vulnerable to side channel attack, in particular, differential power analysis (DPA). Differential power analysis can be used to reveal the secret key in AES by monitoring the power consumption of the internal circuit and applying statistical processing. In this paper, an evaluation of power analysis attacks of six different AES Sbox designs, namely sum of product (SOP), product of sum (POS), table lookup (TBL), composite field (CF), positive polarity Reed-Miller (PPRM) and 3 stages PPRM, is presented. Comparison of the different AES Sbox implementations in terms of size, performance and SNR analysis is also performed. The resultsshow that the composite field Sbox design is more resistant to attack and smaller than other Sbox designs but operates at a slower speed. This paper also presents a Random Clock mechanism that can be used to increase the resistance of the AES composite field Sbox design to power analysis attack by reducing the overall SNR by 78%.

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Kean Hong Boey

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