The successive over relaxation (SOR) is a variant of the iterative Gauss-Seidel method for solving a linear system of equations Ax = b. The SOR algorithm is used within the Nucleus for European Modelling of the Ocean (NEMO) model for solving the elliptical equation for the barotropic stream function. The NEMO performance analysis shows that the SOR algorithm introduces a significant communication overhead. Its parallel implementation is based on the red-black method and foresees a communication step at each iteration. An enhanced parallel version of the algorithm has been developed by acting on the size of the overlap region to reduce the frequency of communications. The overlap size must be carefully tuned for reducing the communication ov...
A parallel implementation of the SOR iterative method is presented for the solution of block banded ...
A 2-level 4-color SOR method is proposed for the 9-point discretization of the Pois-son equation on ...
Linear systems are applied in many applications such as calculating variables, rates,budgets, making...
The Successive Over Relaxation (SOR) is a variant of the iterative Gauss-Seidel method for solving a...
The successive over-relaxation (SOR) iterative method is an important solver for linear systems. In ...
Waveform relaxation is a numerical method for solving large-scale systems of ordinary differential e...
International audienceSuccessive over-relaxation (SOR) is a computationally intensive, yet extremely...
The NEMO oceanic model, characterized by a resolution of 1/16◦and tailored on the Mediterranean Basi...
The availability of very high speed automatic digital13; computers with lsrge and fast Bemories has ...
In this paper, parallel algorithms suitable for the iterative solution of large sets of linear equat...
A gradient projection successive overrelaxation (GP-SOR) algorithm is proposed for the solution of s...
: A new relaxation analysis and two acceleration schemes are proposed for the five-point Red-Black G...
In this paper we investigate the performance of four different SOR acceleration techniques on a vari...
Waveform relaxation is a numerical method for solving large-scale systems of ordinary differential e...
AbstractA simple implementation on vector processors of the SOR method for solving a linear system o...
A parallel implementation of the SOR iterative method is presented for the solution of block banded ...
A 2-level 4-color SOR method is proposed for the 9-point discretization of the Pois-son equation on ...
Linear systems are applied in many applications such as calculating variables, rates,budgets, making...
The Successive Over Relaxation (SOR) is a variant of the iterative Gauss-Seidel method for solving a...
The successive over-relaxation (SOR) iterative method is an important solver for linear systems. In ...
Waveform relaxation is a numerical method for solving large-scale systems of ordinary differential e...
International audienceSuccessive over-relaxation (SOR) is a computationally intensive, yet extremely...
The NEMO oceanic model, characterized by a resolution of 1/16◦and tailored on the Mediterranean Basi...
The availability of very high speed automatic digital13; computers with lsrge and fast Bemories has ...
In this paper, parallel algorithms suitable for the iterative solution of large sets of linear equat...
A gradient projection successive overrelaxation (GP-SOR) algorithm is proposed for the solution of s...
: A new relaxation analysis and two acceleration schemes are proposed for the five-point Red-Black G...
In this paper we investigate the performance of four different SOR acceleration techniques on a vari...
Waveform relaxation is a numerical method for solving large-scale systems of ordinary differential e...
AbstractA simple implementation on vector processors of the SOR method for solving a linear system o...
A parallel implementation of the SOR iterative method is presented for the solution of block banded ...
A 2-level 4-color SOR method is proposed for the 9-point discretization of the Pois-son equation on ...
Linear systems are applied in many applications such as calculating variables, rates,budgets, making...