Low-order preconditioning of the Stokes equations

Abstract

A well-known strategy for building effective preconditioners for higher-order discretizations of some PDEs, such as Poisson's equation, is to leverage effective preconditioners for their low-order analogs. In this work, we show that high-quality preconditioners can also be derived for the Taylor-Hood discretization of the Stokes equations in much the same manner. In particular, we investigate the use of geometric multigrid based on the Q1iso Q2/ Q1 discretization of the Stokes operator as a preconditioner for the Q2/Q1 discretization of the Stokes system. We utilize local Fourier analysis to optimize the damping parameters for Vanka and Braess-Sarazin relaxation schemes and to achieve robust convergence. These results are then verified and compared against the measured multigrid performance. While geometric multigrid can be applied directly to the Q2/Q1 system, our ultimate motivation is to apply algebraic multigrid within solvers for Q2/Q1 systems via the Q1iso Q2/ Q1 discretization, which will be considered in a companion paper.