A device-oriented optimizer for solving ground state problems on an approximate quantum computer, Part II: Experiments for interacting spin and molecular systems

ORAL

Abstract

Hybrid quantum-classical algorithms can be used to find variational solutions to generic quantum problems. Here, we present an experimental implementation of a device-oriented optimizer that uses superconducting quantum hardware. The experiment relies on feedback between the quantum device and classical optimization software which is robust to measurement noise. Our device-oriented approach uses naturally available interactions for the preparation of trial states. We demonstrate the application of this technique for solving interacting spin and molecular structure problems.

Authors

  • Abhinav Kandala

    IBM T.J Watson Research Center, IBM T. J. Watson Research Center

  • Antonio Mezzacapo

    IBM T.J Watson Research Center, IBM T. J. Watson Research Center

  • Kristan Temme

    IBM T.J Watson Research Center, IBM T. J. Watson Research Center

  • Sergey Bravyi

    IBM T.J Watson Research Center, IBM T. J. Watson Research Center

  • Maika Takita

    IBM T.J. Watson Research Center, IBM T.J Watson Research Center, IBM T. J. Watson Research Center

  • Jose Chavez-Garcia

    IBM T J Watson Res Ctr, IBM T.J Watson Research Center, IBM T. J. Watson Research Center

  • Antonio C\'orcoles

    IBM T J Watson Res Ctr, IBM T.J Watson Research Center, IBM T. J. Watson Research Center

  • John Smolin

    IBM T.J Watson Research Center, IBM T. J. Watson Research Center

  • Jerry Chow

    IBM, IBM T J Watson Research Center, IBM T J Watson Res Ctr, IBM TJ Watson Research Center, IBM T.J Watson Research Center, IBM T. J. Watson Research Center

  • Jay Gambetta

    IBM T J Watson Res Ctr, IBM T.J Watson Research Center, IBM T. J. Watson Research Center