Add to ORKGIn this paper, we will be mainly concerned with a parallel algorithm (in time and space) which is used to solve the incompressible Navier-Stokes problem. This relies on two main ideas: (a) a splitting of the main differential operator which permits to consider independently the most important difficulties (nonlinearity and incompressibility) and (b) the approximation of the resulting stationary problems by a family of second-order one-dimensional linear systems. The same strategy can be applied to two-dimensional and three-dimensional problems and involves the same level of difficulty. It can be also useful for the solution of other more complicate systems like Boussinesq or turbulence models. The behavior of the method is illustrated with ...
The results of the implementation of a Navier-Stokes algorithm on three parallel/vector computers ar...
We consider the numerical solution of the stationary incompressible Navier-Stokes equations for a wi...
Abstract: New implicit finite-difference schemes to solve the time-dependent incompressibl...
In this paper, we will be mainly concerned with a parallel algorithm (in time and space) which is us...
In this paper, we will be mainly concerned with a parallel algorithm (in time and space) which is us...
AbstractWe introduce and analyze a parallel algorithm for solving the Navier-Stokes equations based ...
AbstractWe introduce and analyze a parallel algorithm for solving the Navier-Stokes equations based ...
AbstractThis work is concerned with the convergence/stability analysis of a parallel algorithm which...
In this paper we combine the Parareal parallel-in-time method together with spatial parallelization ...
summary:This paper concerns a parallel algorithm of the first-order projection method for solving th...
Summary. The “parareal in time ” algorithm introduced in Lions et al. [2001] enables parallel comput...
Unsteady turbulent flow simulations using the Navier Stokes equations require larger and larger prob...
The accuracy and the applicability of the parallel diagonal dominant (PDD) algorithm are explored fo...
A parallel splitting-up method (or the so called alternating-direction method) is proposed in this p...
AbstractA parallel splitting-up method (or the so called alternating-direction method) is proposed i...
The results of the implementation of a Navier-Stokes algorithm on three parallel/vector computers ar...
We consider the numerical solution of the stationary incompressible Navier-Stokes equations for a wi...
Abstract: New implicit finite-difference schemes to solve the time-dependent incompressibl...
In this paper, we will be mainly concerned with a parallel algorithm (in time and space) which is us...
In this paper, we will be mainly concerned with a parallel algorithm (in time and space) which is us...
AbstractWe introduce and analyze a parallel algorithm for solving the Navier-Stokes equations based ...
AbstractWe introduce and analyze a parallel algorithm for solving the Navier-Stokes equations based ...
AbstractThis work is concerned with the convergence/stability analysis of a parallel algorithm which...
In this paper we combine the Parareal parallel-in-time method together with spatial parallelization ...
summary:This paper concerns a parallel algorithm of the first-order projection method for solving th...
Summary. The “parareal in time ” algorithm introduced in Lions et al. [2001] enables parallel comput...
Unsteady turbulent flow simulations using the Navier Stokes equations require larger and larger prob...
The accuracy and the applicability of the parallel diagonal dominant (PDD) algorithm are explored fo...
A parallel splitting-up method (or the so called alternating-direction method) is proposed in this p...
AbstractA parallel splitting-up method (or the so called alternating-direction method) is proposed i...
The results of the implementation of a Navier-Stokes algorithm on three parallel/vector computers ar...
We consider the numerical solution of the stationary incompressible Navier-Stokes equations for a wi...
Abstract: New implicit finite-difference schemes to solve the time-dependent incompressibl...