Data-driven optimal control of quantum gates

POSTER

Abstract

Improving the fidelity of quantum gates is essential for advancing quantum computing applications, though it is often hindered by experimental burden and error interference in closed-loop optimization. In this work, we implement a quantum-classical hybrid optimization process, combining a classical simulator with experimental hardware to iteratively improve gate fidelity by refining the control-pulse envelope. We further employ machine-learning-assisted protocols to reconstruct quantum processes and mitigate state-preparation-and-measurement errors, requiring significantly fewer measurements compared to standard tomography methods. Using a gradient-based optimizer, we achieve high-fidelity two-qubit gates for superconducting qubits. Our results demonstrate a substantial reduction in measurement cost and data overhead, providing an efficient framework for enhancing gate performance in practical quantum computing applications.

*This work is supported by the Knut and Alice Wallenberg through the Wallenberg Center for Quantum Technology (WACQT).

Presenters

  • TANGYOU HUANG

    • Chalmers University of Technology

Authors

  • TANGYOU HUANG

    • Chalmers University of Technology

  • Akshay Gaikwad

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Tahereh Abad

    • Chalmers Univ of Tech
    • Chalmers University of Technology

  • Liangyu Chen

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Anuj Aggarwal

    • Chalmers University of Technology

  • Halldór Jakobsson

    • Chalmers University of Technology

  • Amr Osman

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Hangxi Li

    • Chalmers Univ of Tech

  • Daryoush Shiri

    • Chalmers Univ of Tech

  • Tong Liu

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Andreas Nylander

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Marcus Rommel

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Anita F Fadavi Roudsari

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Marco Caputo

    • VTT

  • Joonas Govenius

    • VTT Technical Research Centre of Finland Ltd.
    • VTT

  • Grönberg Leif

    • VTT

  • Michele Giannelli

    • Chalmers University of Technology
    • Chalmers Uiv of Tech

  • Mamta Dahiya

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Ilya N Moskalenko

    • Aalto University

  • Marko Kuzmanovic

    • Aalto University

  • Jonas Bylander

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Anton Frisk Kockum

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Gheorghe S Paraoanu

    • Aalto University

  • Giovanna Tancredi

    • Chalmers
    • Chalmers University of Technology
    • Chalmers Univ of Tech