Mixed-Dimensional Auxiliary Space Preconditioners
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This work introduces nodal auxiliary space preconditioners for discretizations of mixed-dimensional partial differential equations. We first consider the continuous setting and generalize the regular decomposition to this setting. With the use of conforming mixed finite element spaces, we then expand these results to the discrete case and obtain a decomposition in terms of nodal Lagrange elements. In turn, nodal preconditioners are proposed analogous to the auxiliary space preconditioners of Hiptmair and Xu (2007). Numerical experiments show the performance of this preconditioner in the context of flow in fractured porous media.
- University of Bergen Norway
Multigrid methods; domain decomposition for boundary value problems involving PDEs, finite element method, Numerical Analysis (math.NA), Finite element, Rayleigh-Ritz and Galerkin methods for boundary value problems involving PDEs, 510, auxiliary space preconditioning, iterative method, FOS: Mathematics, fracture flow, Preconditioners for iterative methods, algebraic multigrid method, Mathematics - Numerical Analysis
Multigrid methods; domain decomposition for boundary value problems involving PDEs, finite element method, Numerical Analysis (math.NA), Finite element, Rayleigh-Ritz and Galerkin methods for boundary value problems involving PDEs, 510, auxiliary space preconditioning, iterative method, FOS: Mathematics, fracture flow, Preconditioners for iterative methods, algebraic multigrid method, Mathematics - Numerical Analysis
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