FIELD: physics.
SUBSTANCE: method includes first obtaining an initial mathematical description of the operating law of n-input logic converters in the form of a general Zhegalkin polynomial, developing and implementing a driver circuit of all 2n monotonous conjunctions of the Zhegalkin polynomial, developing and implementing two serial circuits, each comprising (2n-1) two-input non-equivalence elements.
EFFECT: creating library modules of polynomial logic converters in HDL languages, and real-time readjustment of logic converters to realising a given logic function.
7 dwg
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