Cell‐by‐cell approximate Schur complement technique in preconditioning of meshfree discretized piezoelectric equations

Abstract: The radial point interpolation meshfree discretization is a very efficient numerical framework for the analysis of piezoelectricity, in which the fundamental electrostatic equations governing piezoelectric media are solved without mesh generation. Due to the mechanical-electrical coupling property and the piezoelectric constant, the discrete linear system is sparse, of generalized saddle point form and often very ill conditioned. In this work, we propose a technique for constructing a family of cell-by-cell ap… Show more

“…Then A −1 is approximated by L −T L −1 . We comment here that other types of inexact solvers can also be applied, for example, the methods introduced in [13,14,32]. We denote the corresponding inexact approximations of PD 1 to PD 4 as P D 1 to P D 4 .…”

Schur Complement Based Preconditioners for Twofold and Block Tridiagonal Saddle Point Problems

“…Then A −1 is approximated by L −T L −1 . We comment here that other types of inexact solvers can also be applied, for example, the methods introduced in [13,14,32]. We denote the corresponding inexact approximations of PD 1 to PD 4 as P D 1 to P D 4 .…”

Schur Complement Based Preconditioners for Twofold and Block Tridiagonal Saddle Point Problems

A generalized relaxed block positive-semidefinite splitting preconditioner for generalized saddle point linear system

A general class of constraint preconditioners for generalized saddle point linear systems