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Robust Error Accumulation Suppression for Quantum Circuits

Quantum Physics 2025-07-22 v3

Abstract

We present a \textit{robust error accumulation suppression} (\textbf{REAS}) technique to manage errors in quantum computers. Our method reduces the accumulation of errors in any quantum circuit composed of single- or two-qubit gates expressed as eiσθe^{-i \sigma\theta } for Pauli operators σ\sigma and θ[0,π)\theta \in [0,\pi), which forms a universal gate set. For coherent errors -- which include gate overrotation and crosstalk -- we demonstrate a reduction of the error scaling in an LL-depth circuit from O(L)O(L) to O(L)O(\sqrt{L}). This asymptotic error suppression behavior can be proven in a regime where all gates -- including those constituting the error-suppressing protocol itself -- are noisy. Going beyond coherent errors, we derive the general form of decoherence noise that can be suppressed by REAS. Lastly, we experimentally demonstrate the effectiveness of our approach regarding realistic errors using 100-qubit circuits with up to 64 two-qubit gate layers on IBM Quantum processors.

Keywords

Cite

@article{arxiv.2401.16884,
  title  = {Robust Error Accumulation Suppression for Quantum Circuits},
  author = {Tatsuki Odake and Philip Taranto and Nobuyuki Yoshioka and Toshinari Itoko and Kunal Sharma and Antonio Mezzacapo and Mio Murao},
  journal= {arXiv preprint arXiv:2401.16884},
  year   = {2025}
}

Comments

10 + 13 pages, 7 figures; close to published version

R2 v1 2026-06-28T14:31:32.133Z