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Quantum Algorithm for Solving the Advection Equation using Hamiltonian Simulation

arXiv
Authors: Peter Brearley, Sylvain Laizet

Year

2023

Paper ID

53442

Status

Preprint

Abstract Read

~2 min

Abstract Words

116

Citations

N/A

Abstract

A quantum algorithm for solving the advection equation by embedding the discrete time-marching operator into Hamiltonian simulations is presented. One-dimensional advection can be simulated directly since the central finite difference operator for first-order derivatives is anti-Hermitian. Here, this is extended to industrially relevant, multi-dimensional flows with realistic boundary conditions and arbitrary finite difference stencils. A single copy of the initial quantum state is required and the circuit depth grows linearly with the required number of time steps, the sparsity of the time-marching operator and the inverse of the allowable error. Statevector simulations of a scalar transported in a two-dimensional channel flow and lid-driven cavity configuration are presented as a proof of concept of the proposed approach.

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  • A quantum algorithm for solving the advection equation by embedding the discrete time-marching operator into Hamiltonian simulations is presented.

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