Abstract
A novel Josephson logic gate called the asymmetrical interferometer device (AID) is presented. It is composed of a pair of asymmetrical interferometers whose outputs are injected into a single junction. The interferometers are individually operated as two input OR and the single junction is worked as AND. <tex xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">(A + B) (C + D)</tex> operation is accomplished by only one AID gate. They have a serial fan-in capability due to their magnetic coupling scheme. The gate size is reduced by half, compared with the previous current injection logic (CIL) gate. With these AID gates, a high-speed two-bit dual rail adder circuit is configured, which provides the logic circuits performing with both true and complement inputs and without any timing circuits. The AID gate fabricated by standard 5-µm Pb-alloy technology showed a wide margin over ±20 percent that was in good agreement with statically designed characteristics. Experimental adder operation was also successfully performed.
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