Idle tomography: Efficient gate characterization for N-qubit processors

ORAL

Abstract

Quantum process tomography is famously unscalable to many qubits. But the problem is actually the size of the model — arbitrary N-qubit process matrices — rather than the number of qubits. The vast majority of possible N-qubit errors will not occur in real processors. Here, we introduce a concrete reduced model of low-weight (few-qubit) errors on N qubits. It has O(N2) parameters, and captures all the commonly conceived failure modes. Then, we introduce a simple and transparent tomography protocol for measuring the error rates, whose complexity scales very efficiently with N. We demonstrate it with simulations and experimental results.

*Sandia National Labs is managed and operated by National Technology and Engineering Solutions of Sandia, LLC, a subsidiary of Honeywell International, Inc., for the U.S. Dept. of Energy’s National Nuclear Security Administration under contract DE-NA0003525. The views expressed in the article do not necessarily represent the views of the DOE, IARPA, the ODNI, or the U.S. Government.

Presenters

  • Robin Blume-Kohout

    • Center for Computing Research, Sandia National Laboratories
    • Sandia National Laboratories

Authors

  • Robin Blume-Kohout

    • Center for Computing Research, Sandia National Laboratories
    • Sandia National Laboratories

  • Erik Nielsen

    • Sandia National Laboratories

  • Kenneth Rudinger

    • Center for Computing Research, Sandia National Laboratories
    • Sandia National Laboratories
    • Sandia Natl Labs

  • Kevin Young

    • Sandia National Laboratories

  • Mohan Sarovar

    • Sandia National Laboratories
    • Sandia National Laboratories California

  • Timothy Proctor

    • Sandia National Laboratories