الفهرس 
AbstractOnly 14 pages are availabe for public view
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Abstract
Most of computational devices and communication systems depend on electronic and semiconductor technologies which have been used since inception with advancement and technology design era. Although these conventional electronic technologies based on Binary Logic which has become tedious and cumbersome, but it have reached very high speeds to achieve a huge numbers of computational operations per second. Due to the demand of high computational speed for processing big data that requires complex data manipulations in a timely manner, the need for extending classical logic to construct new multi-valued optical models becomes a challenging and promising research area. This paper establishes a novel octal-valued logic design model with new optical gates construction based on the hypothesis of Light Color State Model to provide an efficient solution to the limitations of computational processing inherent in the electronics computing. We provide new mathematical definitions for both of the binary OR function and the PLUS operation in multi valued logic that is used as the basis of novel construction for the optical full adder model. Some case studies were used through a hardware simulation designed to assure the validity of the proposed adder. These cases and the comparison between the proposed model and the classic models proved that the proposed optical 8-valued logic models provide significantly more information to be packed within a single bit and therefore its abilities of data representation and processing are increased.