AbstractIn this paper we present a dynamic programming algorithm for finding optimal elimination trees for computational grids refined towards point or edge singularities. The elimination tree is utilized to guide the multi-frontal direct solver algorithm. Thus, the criterion for the optimization of the elimination tree is the computational cost associated with the multi-frontal solver algorithm executed over such tree. We illustrate the paper with several examples of optimal trees found for grids with point, isotropic edge and anisotropic edge mixed with point singularity. We show the comparison of the execution time of the multi-frontal solver algorithm with results of MUMPS solver with METIS library, implementing the nested dissection al...
In this paper we analyze two dimensional grids with point and edge singularities in order to develop...
This paper describes a direct solver algorithm for a sequence of finite element meshes that are h-re...
In this paper, we analyze two-dimensional grids with point and edge singularities in order to develo...
In this paper we present a dynamic programming algorithm for finding optimal elimination trees for c...
AbstractIn this paper we present a dynamic programming algorithm for finding optimal elimination tre...
AbstractIn this paper we present the optimization of the energy consumption for the multi-frontal so...
We construct quasi-optimal elimination trees for 2D finite element meshes with singularities.These t...
We consider a class of two- and three-dimensional h-refined meshes generated by an adaptive finite e...
We consider a class of two- and three-dimensional h-refined meshes generated by an adaptive finite e...
We construct quasi-optimal elimination trees for 2D finite element meshes with singularities. These ...
AbstractIn this paper we present a theoretical proof of linear computational cost and complexity for...
AbstractIn this paper we present a multi-criteria optimization of element partition trees and result...
AbstractIn this paper, we present a multi-frontal solver algorithm for the adaptive finite element m...
In this paper we analyze the optimality of the volume and neighbors algorithm constructing eliminati...
We analyse the performance of direct solvers when applied to a system of linear equations arising fr...
In this paper we analyze two dimensional grids with point and edge singularities in order to develop...
This paper describes a direct solver algorithm for a sequence of finite element meshes that are h-re...
In this paper, we analyze two-dimensional grids with point and edge singularities in order to develo...
In this paper we present a dynamic programming algorithm for finding optimal elimination trees for c...
AbstractIn this paper we present a dynamic programming algorithm for finding optimal elimination tre...
AbstractIn this paper we present the optimization of the energy consumption for the multi-frontal so...
We construct quasi-optimal elimination trees for 2D finite element meshes with singularities.These t...
We consider a class of two- and three-dimensional h-refined meshes generated by an adaptive finite e...
We consider a class of two- and three-dimensional h-refined meshes generated by an adaptive finite e...
We construct quasi-optimal elimination trees for 2D finite element meshes with singularities. These ...
AbstractIn this paper we present a theoretical proof of linear computational cost and complexity for...
AbstractIn this paper we present a multi-criteria optimization of element partition trees and result...
AbstractIn this paper, we present a multi-frontal solver algorithm for the adaptive finite element m...
In this paper we analyze the optimality of the volume and neighbors algorithm constructing eliminati...
We analyse the performance of direct solvers when applied to a system of linear equations arising fr...
In this paper we analyze two dimensional grids with point and edge singularities in order to develop...
This paper describes a direct solver algorithm for a sequence of finite element meshes that are h-re...
In this paper, we analyze two-dimensional grids with point and edge singularities in order to develo...