Title :
Josephson shift register design and layout
Author :
Przybysz, John X. ; Blaugher, R.D. ; Buttyan, J.
Author_Institution :
Westinghouse Res. & Dev. Center, Pittsburgh, PA, USA
fDate :
3/1/1989 12:00:00 AM
Abstract :
Integrated circuit chips were designed and fabricated, based on a Josephson shift register circuit that simulated operation at 25 GHz using the SPICE program. The 6.25-mm2 chip featured a twelve-gate, four-stage shift register fabricated with Nb/AlOx/Nb Josephson junctions with a design value of 2000 A/cm2 critical current density. SUPERCOMPACT, a general program for the design of monolithic microwave integrated circuits, was used to model the effects of layout geometry on the uniformity and phase coherence of logic gate bias currents. A layout geometry for the superconductive transmission lines and thin-film bias resistors was developed. The original SPICE-designed circuit was modified as a result of these calculations. Modeling indicated that bias current variations could be limited to 3% for all possible logic states of the shift register, and phase coherence of the gates could be maintained to within 2° at 10 GHz. The fundamental soundness of the circuit design was demonstrated by the proper operation of fabricated shift registers
Keywords :
circuit CAD; circuit layout CAD; shift registers; superconducting junction devices; superconducting logic circuits; 10 to 25 GHz; Josephson junctions; Josephson shift register circuit; Nb-AlOx-Nb junctions; SPICE program; SPICE-designed circuit; SUPERCOMPACT; bias current variations; circuit design; critical current density; design; four-stage shift register; layout; logic gate bias currents; operation; phase coherence; simulated operation; superconductive transmission lines; thin-film bias resistors; Circuit simulation; Coherence; Computational geometry; Critical current density; Integrated circuit layout; Integrated circuit modeling; Josephson junctions; Niobium; SPICE; Shift registers;
Journal_Title :
Magnetics, IEEE Transactions on
