English

Fidelity decay and error accumulation in random quantum circuits

Quantum Physics 2025-07-09 v4 Disordered Systems and Neural Networks Mathematical Physics math.MP

Abstract

We present a comprehensive analysis of fidelity decay and error accumulation in faulty quantum circuit models. Our work devises an analytical bound for the average fidelity between desired and faulty output states, accounting for errors that may arise during the implementation of two-qubit gates and multi-qubit permutations. It is shown that fidelity decays exponentially with both circuit depth and the number of qubits raised to an architecture-dependent power, and determine the decay rates as a function of the two types of errors. Furthermore, we establish a robust linear relationship between fidelity and the heavy output frequency used in Quantum Volume tests to benchmark quantum processors, under the considered errors protocol. These findings pave the way for predicting the behavior of fidelity in the presence of specific errors and offer insights into the best strategies for increasing Quantum Volume.

Keywords

Cite

@article{arxiv.2404.11444,
  title  = {Fidelity decay and error accumulation in random quantum circuits},
  author = {Nadir Samos Sáenz de Buruaga and Rafał Bistroń and Marcin Rudziński and Rodrigo Miguel Chinita Pereira and Karol Życzkowski and Pedro Ribeiro},
  journal= {arXiv preprint arXiv:2404.11444},
  year   = {2025}
}

Comments

v4. Main: 11 pages and 4 figures + Appendices: 34 pages and 9 figures. SciPost resubmission with minor corrections

R2 v1 2026-06-28T15:57:24.877Z