Title :
Area-efficient implication circuits for very dense Lukasiewicz logic arrays
Author :
Mills, Jonathan W.
Author_Institution :
Indiana Univ., Bloomington, IN, USA
Abstract :
A one-diode circuit for negated implication is derived from a 12-transistor Lukasiewicz implication circuit. The derivation also yields an adjustable three-transistor implication circuit with maximum error less than 1% of full scale. Two Lukasiewicz logic arrays are proposed that use area-efficient implementations of the one-diode and three-transistor implication circuits. The very dense diode-tower LLA contains 36000 implications in an area that previously held 92 implications; the three-transistor LLA contains 1990 implications. Both LLAs double the number of inputs per pin on the IC package. Very dense LLAs make LLA-based architectures practical. As an example, an LLA retina that detects edges in 15 ns is described
Keywords :
MOS integrated circuits; integrated logic circuits; logic arrays; MOS integrated circuits; VLSI; area efficient implication circuits; negated implication; one-diode circuit; three-transistor implication circuits; very dense Lukasiewicz logic arrays; Analog circuits; Analog computers; Cost accounting; Electronic circuits; Electronics packaging; Fuzzy logic; Logic arrays; Logic circuits; Milling machines; Schottky diodes;
Conference_Titel :
Multiple-Valued Logic, 1992. Proceedings., Twenty-Second International Symposium on
Conference_Location :
Sendai
Print_ISBN :
0-8186-2680-1
DOI :
10.1109/ISMVL.1992.186808
