A unified bit-parallel arithmetic processor using redundant binary representation

Author

Chen, Sau-Gee

Author_Institution

Microelectron. & Inf. Sci. Res. Center, Nat. Chiao Tung Univ., Hsinchu, Taiwan

fYear

1989

fDate

22-24 March 1989

Firstpage

91

Lastpage

96

Abstract

An addition rule for signed-digit representation (SDR), generalized from the addition rule of redundant binary representation, is proposed which is free from carry-propagation. The MSD (most significant digit)-first multiplication operation is easily devised by incorporating hardware redundancy with the redundancy in this addition rule. By combining all the MSD-first arithmetic operations, a unified arithmetic processor is obtained which can perform division, multiplication, and square-root operations. This unified processor is similar in structure to an array multiplier. It provides three advantages over the conventional arithmetic unit: (1) higher speed, (2) more functional capability, and (3) better area utilization. It is also suitable for VLSI implementation.<>

Keywords

digital arithmetic; fault tolerant computing; redundancy; VLSI implementation; addition rule; area utilization; division; hardware redundancy; multiplication; redundant binary representation; signed-digit representation; square-root operations; unified bit-parallel arithmetic processor; Arithmetic; Computational Intelligence Society; Hardware; Information science; Very large scale integration;

fLanguage

English

Publisher

ieee

Conference_Titel

Computers and Communications, 1989. Conference Proceedings., Eighth Annual International Phoenix Conference on

Conference_Location

Scottsdale, AZ, USA

Print_ISBN

0-8186-1918-x

Type

conf

DOI

10.1109/PCCC.1989.37367

Filename

37367