IEEE Conference on Acoustics, Speech, and Signal
Processing, ICASSP 2003, pages 625-
628,
High Radix Parallel Architecture For GF(p) Elliptic Curve Processor
Adnan Gutub and Mohammad K. Ibrahim
ABSTRACT
A new GF(p) cryptographic processor
architecture for elliptic curve encryption/decryption is proposed in this
paper. The architecture takes advantage of projective coordinates to convert GF(p) inversion needed in elliptic point operations into several
multiplication steps. Unlike existing sequential designs, we show that
projecting into (X/Z,Y/Z) leads to a much better
improved performance than conventional choice of projecting into the current
(X/Z2,Y/Z3). We also
propose to use high radix modulo multipliers which give a wide range of
area-time trade-offs. The proposed architecture is a significant challenger for
implementing data security systems based on elliptic curve cryptography.