Lowering Connectivity Requirements for Bivariate Bicycle Codes Using Morphing Circuits

Shaw, Mackenzie H.; Terhal, B.M.

Lowering Connectivity Requirements for Bivariate Bicycle Codes Using Morphing Circuits

Journal article (2025)

Authors

Mackenzie H. Shaw QCD/Terhal Group, QuTech Advanced Research Centre

B.M. Terhal Discrete Mathematics and Optimization, QuTech Advanced Research Centre

Research Group

QCD/Terhal Group

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Published Date

2025

Language

English

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Research Group

QCD/Terhal Group

Abstract

In reference Bravyi et al., [Nature (London) 627, 778 (2024)NATUAS0028-083610.1038/s41586-024-07107-7], Bravyi et al. found examples of bivariate bicycle (BB) codes with similar logical performance to the surface code but with an improved encoding rate. In this work, we generalize a novel parity-check circuit design principle called morphing circuits and apply it to BB codes. We define a new family of BB codes whose parity check circuits require a qubit connectivity of degree five instead of six while maintaining their numerical performance. Logical input or output to an ancillary surface code is also possible in a biplanar layout. Finally, we develop a general framework for designing morphing circuits and present a sufficient condition for its applicability to two-block group algebra codes.

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