Title :
Processor Array Architectures for Scalable Radix 4 Montgomery Modular Multiplication Algorithm
Author :
Ibrahim, Atef ; Gebali, Fayez ; Elsimary, Hamed ; Nassar, Amin
Author_Institution :
Dept. of Microelectron., Electron. Res. Inst., Cairo, Egypt
fDate :
7/1/2011 12:00:00 AM
Abstract :
This paper presents a systematic methodology for exploring possible processor arrays of scalable radix 4 modular Montgomery multiplication algorithm. In this methodology, the algorithm is first expressed as a regular iterative expression, then the algorithm data dependence graph and a suitable affine scheduling function are obtained. Four possible processor arrays are obtained and analyzed in terms of speed, area, and power consumption. To reduce power consumption, we applied low power techniques for reducing the glitches and the Expected Switching Activity (ESA) of high fan-out signals in our processor array architectures. The resulting processor arrays are compared to other efficient ones in terms of area, speed, and power consumption.
Keywords :
cryptography; graph theory; iterative methods; multiplying circuits; affine scheduling function; algorithm data dependence graph; cryptography; expected switching activity; glitch reduction; low power technique; power consumption reduction; processor array architecture; regular iterative expression; scalable radix 4 Montgomery modular multiplication algorithm; Algorithm design and analysis; Arrays; Equations; Hardware; Indexes; Power demand; Timing; Montgomery multiplication; Processor array; cryptography; low power modular multipliers.; scalability; secure communications;
Journal_Title :
Parallel and Distributed Systems, IEEE Transactions on
DOI :
10.1109/TPDS.2010.196
