Scalable calibration of large superconducting quantum processors for high-performance operation

ORAL

Abstract

Efficient and robust calibration is critical for the operation of quantum processing units as their qubit count and fidelity requirements increase. Here, we present results for scalable calibration of a 50-qubit superconducting quantum processor, and show that the duration of the calibration is almost constant with the number of qubits. We discuss the impact of drive and flux cross-talk on the fidelity of simultaneous single- and two-qubit gates on large quantum processors and consider different mitigation strategies. Finally, we verify our calibration approach by demonstrating over 99 % median CZ-fidelity on a 50-qubit processor.

Presenters

  • Antti Vepsalainen

    • IQM Quantum Computers

Authors

  • Antti Vepsalainen

    • IQM Quantum Computers

  • Janos Adam

    • IQM Quantum Computers

  • Jeffrey Chan

    • IQM Quantum Computers

  • Frank Deppe

    • IQM Quantum Computers

  • Olexiy Fedorets

    • IQM Quantum Computers

  • Zheming Gao

    • IQM Quantum Computers

  • Juha Hassel

    • IQM Quantum Computers

  • Johannes Heinsoo

    • IQM Quantum Computers

  • Eric Hyyppä

    • IQM Quantum Computers

  • Hsiang-Sheng Ku

    • IQM Quantum Computers

  • Julia Lamprich

    • IQM Quantum Computers

  • Wei Liu

    • IQM Quantum Computers

  • Alessandro Landra

    • IQM Quantum Computers

  • Nizar Lethif

    • IQM Quantum Computers

  • Fabian Marxer

    • IQM Quantum Computers

  • Jakub Mrożek

    • IQM Quantum Computers

  • Caspar Ockeloen-Korppi

    • IQM Quantum Computers

  • Matti Partanen

    • IQM Quantum Computers

  • Mykhailo Savytskyi

    • IQM Quantum Computers

  • Indrajeet Sagar

    • IQM Quantum Computers

  • Brian Tarasinski

    • IQM Quantum Computers

  • Alpo Välimaa

    • IQM Quantum Comptuers
    • IQM Quantum Computers

  • Jaap J Wesdorp

    • IQM Quantum Computers

  • Nicola Wurz

    • IQM Quantum Computers