In this paper we analyze two dimensional grids with point and edge singularities in order to develop an efficient graph grammar based multi-frontal direct solver algorithm. We express these grids by hypergraph models. For these meshes we define a sequence of graph grammar productions expressing the construction of frontal matrices, elimination of fully assembled nodes, merging of resulting Schur complements, and repeating the process of elimination and merging until a single frontal matrix remains. The dependency relation between graph grammar productions is analyzed, and the dependency graph is plot, which is equivalent to the elimination tree of the multi-frontal solver algorithm. We utilize classical multi-frontal solver algorithm, and t...
In this paper, we present a multi-frontal direct solver for one-dimensional iso-geometric finite ele...
AbstractThis paper introduces a grammar-based model for developing a multi-thread multi-frontal para...
In this paper, we present a multi-frontal direct solver for one-dimensional iso-geometric finite ele...
In this paper we analyze two dimensional grids with point and edge singularities in order to develop...
In this paper we analyze two dimensional grids with point and edge singularities in order to develop...
AbstractIn this paper, we present a multi-frontal solver algorithm for the adaptive finite element m...
This paper describes the application of hypergraph grammars to drive linear computationalcost solver...
This paper describes the application of hypergraph grammars to drive linear computationalcost solver...
Abstract This paper describes the application of hypergraph grammars to drive a linear computational...
AbstractThis paper introduces the graph grammar based model for developing multi-thread multi-fronta...
This paper introduces the graph grammar based model for developing multi-thread multi-frontal parall...
Tyt. z nagłówka.Bibliogr. s. 99-101.This paper describes the application of hypergraph grammars to d...
AbstractThe paper presents the graph grammar based multi-thread multi-frontal parallel direct solver...
In this paper we present a hypergraph grammar based multi-frontal solver for three dimensional grids...
Abstract In this paper, we present a multi-frontal direct solver for one-dimensional iso-geometric f...
In this paper, we present a multi-frontal direct solver for one-dimensional iso-geometric finite ele...
AbstractThis paper introduces a grammar-based model for developing a multi-thread multi-frontal para...
In this paper, we present a multi-frontal direct solver for one-dimensional iso-geometric finite ele...
In this paper we analyze two dimensional grids with point and edge singularities in order to develop...
In this paper we analyze two dimensional grids with point and edge singularities in order to develop...
AbstractIn this paper, we present a multi-frontal solver algorithm for the adaptive finite element m...
This paper describes the application of hypergraph grammars to drive linear computationalcost solver...
This paper describes the application of hypergraph grammars to drive linear computationalcost solver...
Abstract This paper describes the application of hypergraph grammars to drive a linear computational...
AbstractThis paper introduces the graph grammar based model for developing multi-thread multi-fronta...
This paper introduces the graph grammar based model for developing multi-thread multi-frontal parall...
Tyt. z nagłówka.Bibliogr. s. 99-101.This paper describes the application of hypergraph grammars to d...
AbstractThe paper presents the graph grammar based multi-thread multi-frontal parallel direct solver...
In this paper we present a hypergraph grammar based multi-frontal solver for three dimensional grids...
Abstract In this paper, we present a multi-frontal direct solver for one-dimensional iso-geometric f...
In this paper, we present a multi-frontal direct solver for one-dimensional iso-geometric finite ele...
AbstractThis paper introduces a grammar-based model for developing a multi-thread multi-frontal para...
In this paper, we present a multi-frontal direct solver for one-dimensional iso-geometric finite ele...