Implementation of a Quantum Variational Eigensolver in Superconducting Qubits

Mollie Schwartz; Jarrod McClean; Chris Macklin; Jonathan Carter; Wibe de Jong; Irfan Siddiqi

Implementation of a Quantum Variational Eigensolver in Superconducting Qubits

ORAL

Abstract

The quantum variational eigensolver (QVE) represents an efficient implementation of quantum simulation that relies on a synergy between classical and quantum computing components. In this approach, a classical computer is used to map the target Hamiltonian onto a fermionic Hilbert space and to perform a variational update of the estimated ground state. This test state is then prepared in the quantum system, enabling an efficient estimation of the expectation value of the Hamiltonian and reducing the requirements for coherent qubit evolution. We present experimental progress toward implementing a QVE in superconducting qubits, capitalizing on the flexibility and scalability of the transmon cQED architecture.

March 14, 2016, 10:00 AM – March 14, 2016, 10:12 AM

Authors

Mollie Schwartz
- Quantum Nanoelectronics Laboratory, UC Berkeley
- Quantum Nanoelectronics Laboratory, University of California, Berkeley
Jarrod McClean
- Computational Research Division, Lawrence Berkeley National Laboratory
Chris Macklin
- Quantum Nanoelectronics Laboratory, UC Berkeley
- Quantum Nanoelectronics Laboratory, UC Berkeley; Computational Research Division, Lawrence Berkeley National Laboratory
- Quantum Nanoelectronics Laboratory, University of California, Berkeley
Jonathan Carter
- Computational Research Division, Lawrence Berkeley National Laboratory
Wibe de Jong
- Computational Research Division, Lawrence Berkeley National Laboratory
Irfan Siddiqi
- Quantum Nanoelectronics Laboratory, UC Berkeley
- Univ of California - Berkeley
- Department of Physics, UC Berkeley
- University of California, Berkeley
- Quantum Nanoelectronics Laboratory, UC Berkeley; Materials Sciences Division, Lawrence Berkeley National Laboratory
- Quantum Nanoelectronics Laboratory, University of California, Berkeley