Prospect of single flux quantum logic in superconducting digital electronics

Abstract

This paper presents a study on the merits of single flux quantum (SFQ) logic in superconducting digital electronics. With no requirements for an external RF clock source, the speed of SFQ logic circuits can exceed 100 GHz, orders of magnitude higher than latching logic circuits. Use of overdamped junctions in SFQ circuits makes this logic available for already developed high-Tc junctions. Simulations show the operation of SFQ circuits at above 10 GHz with the junctions having characteristics similar to those of YBa2Cu3O7-x/Au/YBa2Cu3O7-x planar junctions. A similar concept is applied to NbN circuits operable above 10 K. A flip-flop counter using NbN junctions with Vm (1.5 mV)=3 mV and Delta =1.9 mV to model 12 K operation has been successfully simulated up to 5 GHz. Operating margins of only 26% on MVTL shift register were obtained by simulations, which is comparable to the margins for SFQ logic circuits. A counting SFQ analogue-to-digital converter can be improved by using an output buffered quantizer.