Physical Review X (Sep 2021)

Cross-Verification of Independent Quantum Devices

  • C. Greganti,
  • T. F. Demarie,
  • M. Ringbauer,
  • J. A. Jones,
  • V. Saggio,
  • I. Alonso Calafell,
  • L. A. Rozema,
  • A. Erhard,
  • M. Meth,
  • L. Postler,
  • R. Stricker,
  • P. Schindler,
  • R. Blatt,
  • T. Monz,
  • P. Walther,
  • J. F. Fitzsimons

DOI
https://doi.org/10.1103/PhysRevX.11.031049
Journal volume & issue
Vol. 11, no. 3
p. 031049

Abstract

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Quantum computers are on the brink of surpassing the capabilities of even the most powerful classical computers, which naturally raises the question of how one can trust the results of a quantum computer when they cannot be compared to classical simulation Here, we present a cross-verification technique that exploits the principles of measurement-based quantum computation to link quantum circuits of different input size, depth, and structure. Our technique enables consistency checks of quantum computations between independent devices, as well as within a single device. We showcase our protocol by applying it to five state-of-the-art quantum processors, based on four distinct physical architectures: nuclear magnetic resonance, superconducting circuits, trapped ions, and photonics, with up to six qubits and up to 200 distinct circuits.