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2019-12-30
Venkatesh, K, Pratibha, K, Annadurai, Suganya, Kuppusamy, Lakshmi.  2019.  Reconfigurable Architecture to Speed-up Modular Exponentiation. 2019 International Carnahan Conference on Security Technology (ICCST). :1-6.

Diffie-Hellman and RSA encryption/decryption involve computationally intensive cryptographic operations such as modular exponentiation. Computing modular exponentiation using appropriate pre-computed pairs of bases and exponents was first proposed by Boyko et al. In this paper, we present a reconfigurable architecture for pre-computation methods to compute modular exponentiation and thereby speeding up RSA and Diffie-Hellman like protocols. We choose Diffie-Hellman key pair (a, ga mod p) to illustrate the efficiency of Boyko et al's scheme in hardware architecture that stores pre-computed values ai and corresponding gai in individual block RAM. We use a Pseudo-random number generator (PRNG) to randomly choose ai values that are added and corresponding gai values are multiplied using modular multiplier to arrive at a new pair (a, ga mod p). Further, we present the advantage of using Montgomery and interleaved methods for batch multiplication to optimise time and area. We show that a 1024-bit modular exponentiation can be performed in less than 73$μ$s at a clock rate of 200MHz on a Xilinx Virtex 7 FPGA.