A low-rank solver for the stochastic unsteady Navier–Stokes problem

Here we study a low-rank iterative solver for the unsteady Navier–Stokes equations for incompressible flows with a stochastic viscosity. The equations are discretized using the stochastic Galerkin method, and we consider an all-at-once formulation where the algebraic systems at all the time steps ar...

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Veröffentlicht in:	Computer methods in applied mechanics and engineering 2020-03, Vol.364 (C)
Hauptverfasser:	Elman, Howard C., Su, Tengfei
Format:	Artikel
Sprache:	eng
Schlagworte:	all-at-once system low-rank tensor approximation MATHEMATICS AND COMPUTING stochastic Galerkin method time-dependent Navier–Stokes
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creator	Elman, Howard C. Su, Tengfei
description	Here we study a low-rank iterative solver for the unsteady Navier–Stokes equations for incompressible flows with a stochastic viscosity. The equations are discretized using the stochastic Galerkin method, and we consider an all-at-once formulation where the algebraic systems at all the time steps are collected and solved simultaneously. The problem is linearized with Picard’s method. To efficiently solve the linear systems at each step, we use low-rank tensor representations within the Krylov subspace method, which leads to significant reductions in storage requirements and computational costs. Combined with effective mean-based preconditioners and the idea of inexact solve, we show that only a small number of linear iterations are needed at each Picard step. The proposed algorithm is tested with a model of flow in a two-dimensional symmetric step domain with different settings to demonstrate the computational efficiency.
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subjects	all-at-once system low-rank tensor approximation MATHEMATICS AND COMPUTING stochastic Galerkin method time-dependent Navier–Stokes
title	A low-rank solver for the stochastic unsteady Navier–Stokes problem
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