Title :
Iterative Realization of Multivalued Logic Systems
Author_Institution :
Department of Computer Science, University of Southwestern Louisiana
fDate :
4/1/1979 12:00:00 AM
Abstract :
The realization of multivalued combinational functions and sequential machines by using arrays of one type of cells is considered. The algebra used for the multivalued logic system has two binary operations and a set of unary operations. Each of these operations is realized by a cellular array. The cells are combinational and implemented by using binary logic gates. The cells are also designed so that all unrestricted multiple faults in arrays of these cells are detectable. Multivalued combinational functions, storage elements, and sequential machines are realized by interconnecting the arrays realizing the operations.
Keywords :
+ gate; Cell; U gates; cellular array; fault detection; gate; general fault; multiple faults; multivalued logic.; Algebra; Circuit faults; Circuit testing; Integrated circuit interconnections; Large scale integration; Logic circuits; Microprocessors; Multivalued logic; Power generation economics; Read-write memory; + gate; Cell; U gates; cellular array; fault detection; gate; general fault; multiple faults; multivalued logic.;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1979.1675351
