DocumentCode
2333
Title
Low-Complexity Multiplier for 
Based on All-One Polynomials
Author
Jiafeng Xie ; Meher, Pramod Kumar ; Jianjun He
Author_Institution
Sch. of Inf. Sci. & Eng., Central South Univ., Changsha, China
Volume
21
Issue
1
fYear
2013
fDate
Jan. 2013
Firstpage
168
Lastpage
173
Abstract
This paper presents an area-time-efficient systolic structure for multiplication over GF(2m) based on irreducible all-one polynomial (AOP). We have used a novel cut-set retiming to reduce the duration of the critical-path to one XOR gate delay. It is further shown that the systolic structure can be decomposed into two or more parallel systolic branches, where the pair of parallel systolic branches has the same input operand, and they can share the same input operand registers. From the application-specific integrated circuit and field-programmable gate array synthesis results we find that the proposed design provides significantly less area-delay and power-delay complexities over the best of the existing designs.
Keywords
Galois fields; application specific integrated circuits; field programmable gate arrays; logic design; logic gates; multiplying circuits; polynomials; XOR gate delay; application-specific integrated circuit; area-time-efficient systolic structure; cut-set retiming; field-programmable gate array synthesis; input operand registers; irreducible all-one polynomial; low-complexity multiplier; parallel systolic branches; power-delay complexities; Complexity theory; Cryptography; Delay; Logic gates; Polynomials; Registers; Very large scale integration; All-one polynomial; finite field; systolic design;
fLanguage
English
Journal_Title
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
Publisher
ieee
ISSN
1063-8210
Type
jour
DOI
10.1109/TVLSI.2011.2181434
Filename
6129532
Link To Document