arXiv quant-ph

Robust GHZ State Preparation via Majority-Voted Boundary Measurements

Jean-Baptiste Waring, Sébastien Le Beux, Christophe Pere

arXiv · 2026 · arXiv:2602.19405

Informatique quantique

arXiv 2026 Jean-Baptiste Waring, Sébastien Le Beux, Christophe Pere

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Résumé

Preparing high-fidelity Greenberger-Horne-Zeilinger (GHZ) states on noisy quantum hardware remains challenging due to cumulative gate errors and decoherence. We introduce Group-Majority-Voting (Group-MV), a dynamic-circuit protocol that partitions arbitrary coupling graphs, prepares local GHZ states in parallel, and fuses them via majority-voted mid-circuit measurements. The majority vote over redundant boundary links mitigates measurement errors that would otherwise propagate through classical feedforward. We evaluate Group-MV on simulated Heavy-hex and Grid topologies for 30 through 60 qubits under a realistic noise regime. Group-MV generalizes to arbitrary GHZ sizes on arbitrary coupling topologies, achieving 2.4x higher fidelity than the Line Dynamic method while tracking the unitary baseline within 3%.

Citation

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@misc{jeanbaptiste2026260219405,
  title         = {Robust GHZ State Preparation via Majority-Voted Boundary Measurements},
  author        = {Jean-Baptiste Waring and Sébastien Le Beux and Christophe Pere},
  year          = {2026},
  eprint        = {2602.19405},
  archivePrefix = {arXiv},
  primaryClass  = {quant-ph}
}

Remerciements

Ces travaux ont été soutenus en partie par le Conseil de recherches en sciences naturelles et en génie du Canada (CRSNG) et par le Fonds de recherche du Québec — Nature et technologies (FRQNT).