AbstractIn this paper we present a theoretical proof of linear computational cost and complexity for a recently developed direct solver driven by hypergraph grammar productions. The solver is specialized for computational meshes with point singularities in two and three dimensions. Linear complexity is achieved due to utilizing the special structure of such grids. We describe the algorithm and estimate the exact computational cost on an example of a two-dimensional mesh containing a single point singularity. We extend this reasoning to the three dimensional meshes
AbstractIn this paper we present a dynamic programming algorithm for finding optimal elimination tre...
This paper describes a telescopic solver for two dimensional h adaptive grids with point singulariti...
In this paper we present a hypergraph grammar model for transformation of two and three dimensional ...
AbstractIn this paper we present a theoretical proof of linear computational cost and complexity for...
In this paper we present a hypergraph grammar based multi-frontal solver for three dimensional grids...
This paper describes a direct solver algorithm for a sequence of finite element meshes that are h-re...
AbstractIn this paper we present a graph grammar based direct solver algorithm for hp-adaptive finit...
Abstract This paper describes the application of hypergraph grammars to drive a linear computational...
This paper describes the application of hypergraph grammars to drive linear computationalcost solver...
In this paper we present a graph grammar based direct solver algorithm for hp-adaptive finite elemen...
Tyt. z nagłówka.Bibliogr. s. 99-101.This paper describes the application of hypergraph grammars to d...
This paper describes the application of hypergraph grammars to drive linear computationalcost solver...
We analyse the performance of direct solvers when applied to a system of linear equations arising fr...
Promotor: Maciej Paszyński.Recenzent: Tadeusz Burczyński, Mariusz Flasiński, Witold Dzwinel.Niepubli...
AbstractThis paper describes a telescopic solver for two dimensional h adaptive grids with point sin...
AbstractIn this paper we present a dynamic programming algorithm for finding optimal elimination tre...
This paper describes a telescopic solver for two dimensional h adaptive grids with point singulariti...
In this paper we present a hypergraph grammar model for transformation of two and three dimensional ...
AbstractIn this paper we present a theoretical proof of linear computational cost and complexity for...
In this paper we present a hypergraph grammar based multi-frontal solver for three dimensional grids...
This paper describes a direct solver algorithm for a sequence of finite element meshes that are h-re...
AbstractIn this paper we present a graph grammar based direct solver algorithm for hp-adaptive finit...
Abstract This paper describes the application of hypergraph grammars to drive a linear computational...
This paper describes the application of hypergraph grammars to drive linear computationalcost solver...
In this paper we present a graph grammar based direct solver algorithm for hp-adaptive finite elemen...
Tyt. z nagłówka.Bibliogr. s. 99-101.This paper describes the application of hypergraph grammars to d...
This paper describes the application of hypergraph grammars to drive linear computationalcost solver...
We analyse the performance of direct solvers when applied to a system of linear equations arising fr...
Promotor: Maciej Paszyński.Recenzent: Tadeusz Burczyński, Mariusz Flasiński, Witold Dzwinel.Niepubli...
AbstractThis paper describes a telescopic solver for two dimensional h adaptive grids with point sin...
AbstractIn this paper we present a dynamic programming algorithm for finding optimal elimination tre...
This paper describes a telescopic solver for two dimensional h adaptive grids with point singulariti...
In this paper we present a hypergraph grammar model for transformation of two and three dimensional ...