Advances in Electrical and Computer Engineering (May 2013)

Karatsuba-Ofman Multiplier with Integrated Modular Reduction for GF(2m)

  • CUEVAS-FARFAN, E.,
  • MORALES-SANDOVAL, M.,
  • MORALES-REYES, A.,
  • FEREGRINO-URIBE, C.,
  • ALGREDO-BADILLO, I.,
  • KITSOS, P.,
  • CUMPLIDO, R.

DOI
https://doi.org/10.4316/aece.2013.02001
Journal volume & issue
Vol. 13, no. 2
pp. 3 – 10

Abstract

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In this paper a novel GF(2m) multiplier based on Karatsuba-Ofman Algorithm is presented. A binary field multiplication in polynomial basis is typically viewed as a two steps process, a polynomial multiplication followed by a modular reduction step. This research proposes a modification to the original Karatsuba-Ofman Algorithm in order to integrate the modular reduction inside the polynomial multiplication step. Modular reduction is achieved by using parallel linear feedback registers. The new algorithm is described in detail and results from a hardware implementation on FPGA technology are discussed. The hardware architecture is described in VHDL and synthesized for a Virtex-6 device. Although the proposed field multiplier can be implemented for arbitrary finite fields, the targeted finite fields are recommended for Elliptic Curve Cryptography. Comparing other KOA multipliers, our proposed multiplier uses 36% less area resources and improves the maximum delay in 10%.

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