Efficient Arbitrary Simultaneously Entangling Gates on a trapped-ion quantum computer

Nikodem Grzesiak; Reinhold Blumel; Kristin Beck; Kenneth Wright; Vandiver Chaplin; Jason Amini; Neal Pisenti; Shantanu Debnath; Jwo-Sy Chen; Yunseong Nam

Efficient Arbitrary Simultaneously Entangling Gates on a trapped-ion quantum computer

ORAL

Abstract

Entanglement is a key ingredient in quantum computing. On a trapped ion quantum computer, parallel entangling operations have traditionally been implemented with the help of nonlinear solvers. In this talk, I will present an exact, linear protocol that entangles multiple arbitrary pairs of trapped-ion qubits. The protocol is efficient and can leverage the all-to-all connectivity available on trapped-ion quantum computers to implement up to quadratically many two-qubit gates at the same time. [arXiv:1905.09294]

March 2, 2020, 10:00 AM – March 2, 2020, 10:12 AM

Presenters

Nikodem Grzesiak
- IonQ, Inc

Authors

Nikodem Grzesiak
- IonQ, Inc
Reinhold Blumel
- IonQ, Inc
Kristin Beck
- IonQ, Inc
Kenneth Wright
- IonQ, Inc
Vandiver Chaplin
- IonQ, Inc
Jason Amini
- IonQ, Inc
Neal Pisenti
- IonQ, Inc
Shantanu Debnath
- IonQ, Inc
Jwo-Sy Chen
- National Institute of Standards and Technology Boulder
- IonQ, Inc
Yunseong Nam
- IonQ
- IONQ
- IonQ, Inc