Side channel attacks (SCAs) have been considered as great threats to modern cryptosystems, including RSA and elliptic curve public key cryptosystems. This is because the main computations involved in these systems, as the Modular Exponentiation (ME) in RSA and scalar multiplication (SM) in elliptic curve system, are potentially vulnerable to SCAs. Montgomery Powering Ladder (MPL) has been shown to be a good choice for ME and SM with counter-measures against certain side-channel attacks. However, recent research shows that MPL is still vulnerable to some advanced attacks [21, 30 and 34]. In this thesis, an improved sequence masking technique is proposed to enhance the MPL's resistance towards Differential Power Analysis (DPA). Based on the new technique, a modified MPL with countermeasure in both data and computation sequence is developed and presented. Two efficient hardware architectures for original MPL algorithm are also presented by using binary and radix-4 representations, respectively.
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