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 |