A scalable block- preconditioning strategy for divergence-conforming B-spline discretizations of the Stokes problem

A. Cortes, L. Dalcin, A. Sarmiento, N. Collier, and V. Calo
Computer Methods in Applied Mechanics and Engineering, (In Press), (2016)

A scalable block- preconditioning strategy for divergence-conforming B-spline discretizations of the Stokes problem

Keywords

Isogeometric analysis; B-spline compatible vector field discretization; Krylov subspace methods; Block preconditioners; Stokes flow

Abstract

​The recently introduced divergence-conforming B-spline discretizations allow the construction of smooth discrete velocity–pressure pairs for viscous incompressible flows that are at the same time inf–supinf–sup stable and pointwise divergence-free. When applied to the discretized Stokes problem, these spaces generate a symmetric and indefinite saddle-point linear system. The iterative method of choice to solve such system is the Generalized Minimum Residual Method. This method lacks robustness, and one remedy is to use preconditioners. For linear systems of saddle-point type, a large family of preconditioners can be obtained by using a block factorization of the system. In this paper, we show how the nesting of “black-box” solvers and preconditioners can be put together in a block triangular strategy to build a scalable block preconditioner for the Stokes system discretized by divergence-conforming B-splines. Besides the known cavity flow problem, we used for benchmark flows defined on complex geometries: an eccentric annulus and hollow torus of an eccentric annular cross-section.

Code

DOI: org/10.1016/j.cma.2016.10.014

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