Systems and methods for superconducting devices used in superconducting circuits and scalable computing

Assignee

• 1372934 B.C. LTD. · CA

Inventors

• Mark W. Johnson · Vancouver, CA
• Paul I. Bunyk · Weallup Lake, US
• Andrew J. Berkley · Vancouver, CA
• Richard G. Harris · North Vancouver, CA
• Kelly T. R. Boothby · Vancouver, CA
• Loren J. Swenson · San Jose, US
• Emile M. Hoskinson · Vancouver, CA
• Christopher B. Rich · Vancouver, CA
• Jan Johansson · Vancouver, CA

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH03M1/66
• WIPO fieldBasic communication processes
• WIPO sectorElectrical engineering

Abstract

Approaches useful to operation of scalable processors with ever larger numbers of logic devices (e.g., qubits) advantageously take advantage of QFPs, for example to implement shift registers, multiplexers (i.e., MUXs), de-multiplexers (i.e., DEMUXs), and permanent magnetic memories (i.e., PMMs), and the like, and/or employ XY or XYZ addressing schemes, and/or employ control lines that extend in a “braided” pattern across an array of devices. Many of these described approaches are particularly suited for implementing input to and/or output from such processors. Superconducting quantum processors comprising superconducting digital-analog converters (DACs) are provided. The DACs may use kinetic inductance to store energy via thin-film superconducting materials and/or series of Josephson junctions, and may use single-loop or multi-loop designs. Particular constructions of energy storage elements are disclosed, including meandering structures. Galvanic connections between DACs and/or with target devices are disclosed, as well as inductive connections.