Invited Speakers

AbstractAdolfo del Campo (University of Luxembourg)

Probing the universality of topological defect formation in a quantum annealer

AbstractPatrick Coles (Los Alamos National Laboratory)

Landscapes, trainability, and scalability of variational quantum algorithms

AbstractSteven M. Disseler (Northrop Grumman Corporation)

Demonstration of a highly controllable quantum processor for advanced annealing algorithms

AbstractAndras Gilyén (Caltech)

(Sub) Exponential advantage of adiabatic quantum computation with no sign problem

AbstractRichard Harris (D-Wave Systems)

Outrunning the bear: Quantum annealing in the presence of an environment

AbstractItay Hen (University of Southern California)

Non-stoquasticity and non-simulability in AQC

AbstractSeth Lloyd (Massachusetts Institute of Technology)

Quantum machine learning on quantum annealers

AbstractPeter Love (Tufts University)

Semiclassicality and noncontextuality of Hamiltonians

AbstractGlen Mbeng (University of Innsbruck)

Variational counter diabatic drivings in rotating frames

AbstractEvgeny Mozgunov (University of Southern California)

Adiabatic theorem for unbounded Hamiltonians of superconducting circuits

AbstractMasayuki Ohzeki (Tohoku University)

How to perform iterative-structured machine learning by quantum annealer

AbstractGuido Pagano (Rice University)

From quantum algorithms to out-of-equilibrium phenomena in interacting spin chains

AbstractZhihui Wang (NASA Ames Research Center)

Symmetry and error mitigation in quantum alternating operator ansatz