Novel residue arithmetic processors for high speed digital signal processing

Author

Skavantzos, Alexander ; Abdallah, Mohammad

Author_Institution

Dept. of Electr. & Comput. Eng., Louisiana State Univ., Baton Rouge, LA, USA

Volume

1

fYear

1998

fDate

1-4 Nov. 1998

Firstpage

187

Abstract

A novel class of multi-moduli residue number system (RNS) processors based on sets of forms {2/sup n1/-1,2/sup n1/+1,2/sup n2/-1,2/sup n2/+1,...,2/sup nL/-1,2/sup nL/+1} is presented. The moduli 2/sup ni/-1 and 2/sup ni/+1 are called conjugates of each other. The new RNS processors result in hardware-efficient 2-level implementations for the weighted-to-RNS and RNS-to-weighted conversions, achieve very large dynamic ranges and imply fast and efficient RNS processing. When compared to conventional processors of the same number of moduli and the same dynamic range, the proposed new processors offer the following benefits: (1) hardware savings of 25% to 40% for the weighted-to-RNS conversion, (2) a reduction of over 80% in the complexity of the final Chinese remainder theorem (CRT) involved in the RNS-to-weighted conversion.

Keywords

computational complexity; residue number systems; signal processing; Chinese remainder theorem; RNS processors; RNS-to-weighted conversion; complexity reduction; dynamic range; hardware savings; hardware-efficient 2-level implementations; high speed digital signal processing; multi-moduli residue number system; residue arithmetic processors; weighted-to-RNS conversion; Cathode ray tubes; Convolution; Digital arithmetic; Digital filters; Digital signal processing; Dynamic range; Equations; Filtering; Hardware;

fLanguage

English

Publisher

ieee

Conference_Titel

Signals, Systems & Computers, 1998. Conference Record of the Thirty-Second Asilomar Conference on

Conference_Location

Pacific Grove, CA, USA

ISSN

1058-6393

Print_ISBN

0-7803-5148-7

Type

conf

DOI

10.1109/ACSSC.1998.750851

Filename

750851