Title :
Hardware Complexity of Modular Multiplication and Exponentiation
Author :
David, Jean Pierre ; Kalach, Kassem ; Tittley, Nicolas
Author_Institution :
Univ. de Montreal, Montreal
Abstract :
Large integer modular multiplication (MM) and modular exponentiation (ME) are the foundation of most public-key cryptosystems, specifically RSA, Diffie-Helleman, EIGamal, and the elliptic curve cryptosystems. Thus, MM algorithms have been studied widely and extensively. Most of the work is based on the well-known Montgomery multiplication method and its variants, which require standard multiplication operations. Despite their better complexity orders, Karatsuba and FFT algorithms seem to rarely be used for hardware implementation. In this paper, we review their hardware complexity and propose original implementations of MM and ME that become useful for 24-bit operators (Karatsuba algorithm) or 373-bit operators (FFT algorithm).
Keywords :
computational complexity; public key cryptography; Montgomery multiplication; hardware complexity; integer modular multiplication; modular exponentiation; public-key cryptosystem; Arithmetic; Communication system security; Data communication; Data security; Electronic commerce; Elliptic curve cryptography; Hardware; Helium; Public key cryptography; Web and internet services; Cryptography; Hardware Complexity; Modular Arithmetic; Multiplication;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.2007.1084
