Design of a trinary multiplier using polarization encoded optical shadow casting

Author

Terhoeve, John M. ; Kent, Renee M.

Author_Institution

General Dynamics, Dayton, OH, USA

fYear

1990

fDate

21-25 May 1990

Firstpage

250

Abstract

The technique of polarization-encoded optical shadow casting (POSC) is used to design a 2-b by 2-b trinary multiplier. The design algorithms for implementing the appropriate source plane, input planes, and output mask for the multiplier are demonstrated for serial operation. A novel design approach for enhancing the serial implementation is proposed. This design algorithmic scheme is implemented and verified by computer simulation of the multiplier. The proposed trinary multiplier design illustrates the applicability of the POSC design algorithms. An extension to the algorithms originally proposed by A.A.S. Awwal and M.A. Karim (1987, 1988, 1989) accommodates the complexities of multivalued logic designs with multiple input bits (resulting in many minterms) and many output bits

Keywords

digital simulation; logic CAD; optical information processing; computer simulation; digital simulation; input planes; multiple input bits; multivalued logic designs; output mask; parallel operation; polarization encoded optical shadow casting; serial implementation; serial operation; source plane; trinary multiplier; Algorithm design and analysis; Casting; Equations; High speed optical techniques; Light emitting diodes; Logic design; Optical design; Optical design techniques; Optical interconnections; Optical polarization;

fLanguage

English

Publisher

ieee

Conference_Titel

Aerospace and Electronics Conference, 1990. NAECON 1990., Proceedings of the IEEE 1990 National

Conference_Location

Dayton, OH

Type

conf

DOI

10.1109/NAECON.1990.112774

Filename

112774