Explanipedia

Nonlinear dynamics as a ground-state solution on quantum computers Open

Albert J. Pool, Alejandro D. Somoza, Conor Mc Keever, Michael Lubasch, Birger Horstmann · 2024

Computer science Physics

For the solution of time-dependent nonlinear differential equations, we present variational quantum algorithms (VQAs) that encode both space and time in qubit registers. The spacetime encoding enables us to obtain the entire time evolution…

Towards Adiabatic Quantum Computing Using Compressed Quantum Circuits Open

Conor Mc Keever, Michael Lubasch · 2024

Computer science Physics Mathematics

We describe tensor network algorithms to optimize quantum circuits for adiabatic quantum computing. To suppress diabatic transitions, we include counterdiabatic driving in the optimization and utilize variational matrix product operators t…

Towards adiabatic quantum computing using compressed quantum circuits Open

Conor Mc Keever, Michael Lubasch · 2023

Computer science Physics Mathematics

We describe tensor network algorithms to optimize quantum circuits for adiabatic quantum computing. To suppress diabatic transitions, we include counterdiabatic driving in the optimization and utilize variational matrix product operators t…

Realization of quantum signal processing on a noisy quantum computer Open

Yuta Kikuchi, Conor Mc Keever, Luuk Coopmans, Michael Lubasch, Marcello Benedetti · 2023

Computer science Mathematics Physics

Quantum signal processing (QSP) is a powerful toolbox for the design of quantum algorithms and can lead to asymptotically optimal computational costs. Its realization on noisy quantum computers without fault tolerance, however, is challeng…

Research data supporting "Realization of quantum signal processing on a noisy quantum computer" Open

Yuta Kikuchi, Conor Mc Keever, Luuk Coopmans, Michael Lubasch, Marcello Benedetti · 2023

Computer science Physics Mathematics

Experimental and numerical data for figures supporting the article "Realization of quantum signal processing on a noisy quantum computer".

Research data supporting "Realization of quantum signal processing on a noisy quantum computer" Open

Yuta Kikuchi, Conor Mc Keever, Luuk Coopmans, Michael Lubasch, Marcello Benedetti · 2023

Computer science Physics Mathematics

Experimental and numerical data for figures supporting the article "Realization of quantum signal processing on a noisy quantum computer".

Classically optimized Hamiltonian simulation Open

Conor Mc Keever, Michael Lubasch · 2023

Computer science Physics Mathematics

Hamiltonian simulation is a promising application for quantum computers to achieve a quantum advantage. We present classical algorithms based on tensor network methods to optimize quantum circuits for this task. We show that, compared to T…

Realization of quantum signal processing on a noisy quantum computer Open

Yuta Kikuchi, Conor Mc Keever, Luuk Coopmans, Michael Lubasch, Marcello Benedetti · 2023

Computer science Mathematics Physics

Quantum signal processing (QSP) is a powerful toolbox for the design of quantum algorithms and can lead to asymptotically optimal computational costs. Its realization on noisy quantum computers without fault tolerance, however, is challeng…

Stable iPEPO Tensor-Network Algorithm for Dynamics of Two-Dimensional Open Quantum Lattice Models Open

Conor Mc Keever, M. H. Szymańska · 2021

Physics Computer science

Being able to accurately describe the dynamics steady states of driven and/or dissipative but quantum correlated lattice models is of fundamental importance in many areas of science: from quantum information to biology. An efficient numeri…

Dynamics of two-dimensional open quantum lattice models with tensor networks Open

Conor Mc Keever, M. H. Szymańska · 2020

Physics Computer science

Being able to describe accurately the dynamics and steady-states of driven and/or dissipative but quantum correlated lattice models is of fundamental importance in many areas of science: from quantum information to biology. An efficient nu…

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