This paper describes a telescopic solver for two dimensional h adaptive grids with point singularities. The input for the telescopic solver is an h refined two dimensional computational mesh with rectangular finite elements. The candidates for point singularities are first localized over the mesh by using a greedy algorithm. Having the candidates for point singularities, we execute either a direct solver, that performs multiple refinements towards selected point singularities and executes a parallel direct solver algorithm which has logarithmic cost with respect to refinement level. The direct solvers executed over each candidate for point singularity return local Schur complement matrices that can be merged together and submitted to iterat...
This thesis deals with the formulation of a computationally efficient adaptive grid system for two-d...
A local multilevel product algorithm and its additive version are analyzed for linear systems arisin...
Adaptive Mesh Refinement (AMR) is a numerical technique for locally tailoring the resolution computa...
AbstractThis paper describes a telescopic solver for two dimensional h adaptive grids with point sin...
This paper describes a telescopic solver for two dimensional h adaptive grids with point singulariti...
AbstractIn this paper we present a theoretical proof of linear computational cost and complexity for...
This paper describes a direct solver algorithm for a sequence of finite element meshes that are h-re...
International audienceWe propose a new practical adaptive refinement strategy for $hp$-finite elemen...
International audienceThe use of modern discretization technologies such as Hybrid High-Order (HHO) ...
In this paper we describe in detail the computational algorithm used by our parallel multigrid ellip...
We analyse the performance of direct solvers when applied to a system of linear equations arising fr...
International audienceThis paper introduces a local multilevel mesh refinement strategy that automat...
For elliptic equations in three dimensions, the runtime of discontinuous Galerkin methods typically ...
In this article we introduce a fast iterative solver for sparse matrices arising from the finite ele...
A new triangular mesh adaptivity algorithm for elliptic PDEs that combines a posteriori error estima...
This thesis deals with the formulation of a computationally efficient adaptive grid system for two-d...
A local multilevel product algorithm and its additive version are analyzed for linear systems arisin...
Adaptive Mesh Refinement (AMR) is a numerical technique for locally tailoring the resolution computa...
AbstractThis paper describes a telescopic solver for two dimensional h adaptive grids with point sin...
This paper describes a telescopic solver for two dimensional h adaptive grids with point singulariti...
AbstractIn this paper we present a theoretical proof of linear computational cost and complexity for...
This paper describes a direct solver algorithm for a sequence of finite element meshes that are h-re...
International audienceWe propose a new practical adaptive refinement strategy for $hp$-finite elemen...
International audienceThe use of modern discretization technologies such as Hybrid High-Order (HHO) ...
In this paper we describe in detail the computational algorithm used by our parallel multigrid ellip...
We analyse the performance of direct solvers when applied to a system of linear equations arising fr...
International audienceThis paper introduces a local multilevel mesh refinement strategy that automat...
For elliptic equations in three dimensions, the runtime of discontinuous Galerkin methods typically ...
In this article we introduce a fast iterative solver for sparse matrices arising from the finite ele...
A new triangular mesh adaptivity algorithm for elliptic PDEs that combines a posteriori error estima...
This thesis deals with the formulation of a computationally efficient adaptive grid system for two-d...
A local multilevel product algorithm and its additive version are analyzed for linear systems arisin...
Adaptive Mesh Refinement (AMR) is a numerical technique for locally tailoring the resolution computa...