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Generating fault-tolerant cluster states from crystal structures

Publication ,  Journal Article
Newman, M; de Castro, LA; Brown, KR
Published in: Quantum
July 13, 2020

Measurement-based quantum computing (MBQC) is a promising alternative to traditional circuit-based quantum computing predicated on the construction and measurement of cluster states. Recent work has demonstrated that MBQC provides a more general framework for fault-tolerance that extends beyond foliated quantum error-correcting codes. We systematically expand on that paradigm, and use combinatorial tiling theory to study and construct new examples of fault-tolerant cluster states derived from crystal structures. Included among these is a robust self-dual cluster state requiring only degree-3 connectivity. We benchmark several of these cluster states in the presence of circuit-level noise, and find a variety of promising candidates whose performance depends on the specifics of the noise model. By eschewing the distinction between data and ancilla, this malleable framework lays a foundation for the development of creative and competitive fault-tolerance schemes beyond conventional error-correcting codes.

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Published In

Quantum

DOI

EISSN

2521-327X

Publication Date

July 13, 2020

Volume

4

Related Subject Headings

  • 51 Physical sciences
  • 49 Mathematical sciences
 

Citation

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Newman, M., de Castro, L. A., & Brown, K. R. (2020). Generating fault-tolerant cluster states from crystal structures. Quantum, 4. https://doi.org/10.22331/q-2020-07-13-295
Newman, M., L. A. de Castro, and K. R. Brown. “Generating fault-tolerant cluster states from crystal structures.” Quantum 4 (July 13, 2020). https://doi.org/10.22331/q-2020-07-13-295.
Newman M, de Castro LA, Brown KR. Generating fault-tolerant cluster states from crystal structures. Quantum. 2020 Jul 13;4.
Newman, M., et al. “Generating fault-tolerant cluster states from crystal structures.” Quantum, vol. 4, July 2020. Scopus, doi:10.22331/q-2020-07-13-295.
Newman M, de Castro LA, Brown KR. Generating fault-tolerant cluster states from crystal structures. Quantum. 2020 Jul 13;4.

Published In

Quantum

DOI

EISSN

2521-327X

Publication Date

July 13, 2020

Volume

4

Related Subject Headings

  • 51 Physical sciences
  • 49 Mathematical sciences