Edge graph mapping using analog information with dynamically updated weighting factors for a surface GKP code

Assignee

• AMAZON TECHNOLOGIES, INC. · US

Inventors

• Christopher Chamberland · Yorktown Heights, US
• Kyungjoo Noh · Pasadena, US
• Fernando Brandao · Pasadena, US

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG06F11/104
• WIPO fieldComputer technology
• WIPO sectorElectrical engineering

Abstract

A fault tolerant quantum error correction protocol is implemented for a surface code comprising Gottesman Kitaev Preskill (GKP) qubits. Analog information is determined when measuring position or momentum shifts, wherein the analog information indicates a closeness of the shift to a decision boundary. The analog information is further used to determine confidence values for error corrected measurements from the GKP qubits of the surface code. These confidence values are used to dynamically determine edge weights in a matching graph used to decode syndrome measurements of the surface code, wherein the confidence values are obtained using a maximum-likelihood decoding protocol for two-qubit gates. Space-time correlated edges and other edges are included in the matching graph and weighted based at least in part on confidence values for qubits forming the respective edges.