Gate set tomography on more than two qubits

Erik Nielsen; Robin Blume-Kohout; Kevin Young; Mohan Sarovar; Kenneth Rudinger; Timothy Proctor

Gate set tomography on more than two qubits

ORAL

Abstract

Quantum tomography is often deemed impractical for “large” quantum information processors of more than 2 qubits. Quantum process tomography and gate set tomography (GST) can be, and have been, used to probe the behavior of gates on 1-2 qubits, but are rarely applied to 3 or more qubits. This stems in large part from the sheer number of parameters that need to be probed in standard gate tomography: O(16^N) for N qubits. We present a framework for intelligently reducing this parameter explosion to poly(N) parameters. Using reduced models that capture physically plausible errors (e.g., few-qubit interactions and Pauli stochastic noise), we show how to perform gate set tomography effectively on larger systems. We present results from applying these methods to processors with 3+ qubits.

^*Sandia National Laboratories is a multimission laboratory managed and operated by National Technology and Engineering Solutions of Sandia, LLC., a wholly owned subsidiary of Honeywell International, Inc., for the U.S. Department of Energy’s National Nuclear Security Administration under contract DE-NA-00

March 7, 2018, 1:03 PM – March 7, 2018, 1:15 PM

Presenters

Erik Nielsen
- Sandia National Laboratories

Authors

Erik Nielsen
- Sandia National Laboratories
Robin Blume-Kohout
- Sandia National Laboratories
- Center for Computing Research, Sandia National Laboratories
- Center for Computing Research, Sandia Natl Labs
- Center for Computing Research, Sandia National Labs
- Sandia Natl Laboratories
- Sandia National Labs
Kevin Young
- Sandia National Laboratories
- Sandia National Labs
Mohan Sarovar
- Sandia National Laboratories
Kenneth Rudinger
- Center for Computing Research, Sandia National Laboratories
- Center for Computing Research, Sandia Natl Labs
Timothy Proctor
- Sandia National Laboratories