Developing parallel codes for computing the nonlinear flow in multiaquifer porous systems is an important task both for improving model efficiency and for performing large real-life simulations. When highly compressible multiaquifer systems are considered, the flow inside some layers is governed by nonlinear equations. An effective Finite Element (FE) procedure for solving these equations was developed, relying upon the partition of the solution procedure into layer-wise steps. Such procedure was implemented and tested on a multi--processor computer. A satisfactory degree of parallelization was achieved when computing the flow in a realistic nonlinear multiaquifer system. While studying numerical models, we analyzed the topic of computing a...
Two commonly used preconditioners were evaluated for parallel solution of linear systems of equation...
The present paper describes a parallel preconditioned algorithm for the solution of partial eigenval...
Parallel implementations of a Newton-Krylov-Schwarz algorithm are used to solve a model problem repr...
Developing parallel codes for computing the nonlinear flow in multiaquifer porous systems is an impo...
Finite element discretizations of flow problems involving multiaquifer systems deliver large, sparse...
Developing parallel codes for computing the nonlinear flow in multiaquifer porous systems is an impo...
Integration of the subsurface flow equation by Finite Elements (FE) in space and Finite Differences ...
We exploit an optimization method, called deflation-accelerated conjugate gradient (DACG), which seq...
Computing some eigenpairs of a Finite Element (FE) flow model is an important task. Parallel computa...
n this paper we analyze the parallel efficiency of the approximate inverse preconditioners AINV and ...
Due to their low cost and high expansion capabilities, distributed memory parallel computers, consis...
Flow in a multiaquifer porous system can be simulated by the so-called “quasi three-dimensional” mod...
In the common implicit integration schemes of fluid-dynamics equations, the need to solve a linear s...
We are interested in the numerical solution of the unsteady Navier–Stokes equations on large scale p...
AbstractIntegration of the subsurface flow equation by finite elements (FE) in space and finite diff...
Two commonly used preconditioners were evaluated for parallel solution of linear systems of equation...
The present paper describes a parallel preconditioned algorithm for the solution of partial eigenval...
Parallel implementations of a Newton-Krylov-Schwarz algorithm are used to solve a model problem repr...
Developing parallel codes for computing the nonlinear flow in multiaquifer porous systems is an impo...
Finite element discretizations of flow problems involving multiaquifer systems deliver large, sparse...
Developing parallel codes for computing the nonlinear flow in multiaquifer porous systems is an impo...
Integration of the subsurface flow equation by Finite Elements (FE) in space and Finite Differences ...
We exploit an optimization method, called deflation-accelerated conjugate gradient (DACG), which seq...
Computing some eigenpairs of a Finite Element (FE) flow model is an important task. Parallel computa...
n this paper we analyze the parallel efficiency of the approximate inverse preconditioners AINV and ...
Due to their low cost and high expansion capabilities, distributed memory parallel computers, consis...
Flow in a multiaquifer porous system can be simulated by the so-called “quasi three-dimensional” mod...
In the common implicit integration schemes of fluid-dynamics equations, the need to solve a linear s...
We are interested in the numerical solution of the unsteady Navier–Stokes equations on large scale p...
AbstractIntegration of the subsurface flow equation by finite elements (FE) in space and finite diff...
Two commonly used preconditioners were evaluated for parallel solution of linear systems of equation...
The present paper describes a parallel preconditioned algorithm for the solution of partial eigenval...
Parallel implementations of a Newton-Krylov-Schwarz algorithm are used to solve a model problem repr...