Computational design alternatives with microprocessor-based systems

Author

Lillevik, Sigurd L. ; Fisher, P. David

Author_Institution

Dept. of Electr. Eng., Utah State Univ., Logan, UT, USA

fYear

1978

fDate

25-27 Oct. 1978

Firstpage

267

Lastpage

273

Abstract

This paper examines and characterizes four elemental hardware computational design alternatives (CDA´s) and presents a structured approach to computational section design which incorporates a rigorous, theoretic foundation. The DIRECT CDA incorporates a single microprocessor (μP) and memory. The AU CDA contains a μP, memory, and arithmetic unit. A μP, memory, and calculator chip comprise the CALC CDA. Finally, several μP´s and memories in a Master/Slave arrangement implement the multiple-μP mμP CDA. A common set of attributes - precision, speed and cost - facilitates comparison. Using these attributes, Multiattribute Utility Theory assesses a numeric quantity, the utility, to represent each CDA´s relative usefulness. Thus, design involves selecting the CDA with the greatest utility.

Keywords

design engineering; microcomputers; utility theory; μP; CALC CDA; DIRECT CDA; arithmetic unit; calculator chip; computational section design; cost; elemental hardware computational design alternatives; master-slave arrangement; memory; microprocessor-based systems; multiattribute utility theory; numeric quantity; precision; single microprocessor; speed; structured approach; Calculators; Equations; Flowcharts; Flyback transformers; Gold; Hardware; Software;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Arithmetic (ARITH), 1978 IEEE 4th Symposium on

Conference_Location

Santa Monica, CA

Type

conf

DOI

10.1109/ARITH.1978.6155787

Filename

6155787