Add to ORKGCurrent climate models have a limited ability to increase spatial resolution because numerical stability requires the time step to decrease. I describe initial experiments with two independent but complementary strategies for attacking this time barrier . First I describe computational experiments exploring the performance improvements from overlapping computation and communication on hybrid parallel computers. My test case is explicit time integration of linear advection with constant uniform velocity in a three-dimensional periodic domain. I present results for Fortran implementations using various combinations of MPI, OpenMP, and CUDA, with and without overlap of computation and communication. Second I describe a semi-Lagrangian method ...
Global atmospheric circulation models (GCM) typically have three primary algorithmic components: col...
This paper focuses on the solution of the dispersed phase of Eulerian–Lagrangian one-way coupled par...
An OpenMP-based shared memory implementation of the Parareal parallel-in-time integration scheme usi...
International audienceTo exploit the possibilities of parallel comput-ers, we designed a large-scale...
A parallel algorithm for numerical solution of a generalized unsteady 3-dimensional advection-diffus...
This final report includes details on the research accomplished by the grant entitled 'Exploitation ...
An approach for the simulation of three-dimensional field-scale coupled thermo-hydro-mechanical prob...
We present and test a new hybrid numerical method for simulating layerwise-two-dimensional geophysic...
The current trend in high-performance computing of a stagnating or even decreasing processor speed p...
A parallel implementation of a method of the semi-Lagrangian type for the advection equation on a hy...
A 3D hybrid (H) transport scheme has been developed that consists of the Prather (P) scheme for vert...
We present a survey of physical and computational techniques that have the potential to contribute t...
AbstractWe present a survey of physical and computational techniques that have the potential to cont...
Advection schemes with time step restrictions are widely used in weather and climate models. This ca...
Global atmospheric circulation models (GCM) typically have three primary algorithmic components: col...
This paper focuses on the solution of the dispersed phase of Eulerian–Lagrangian one-way coupled par...
An OpenMP-based shared memory implementation of the Parareal parallel-in-time integration scheme usi...
International audienceTo exploit the possibilities of parallel comput-ers, we designed a large-scale...
A parallel algorithm for numerical solution of a generalized unsteady 3-dimensional advection-diffus...
This final report includes details on the research accomplished by the grant entitled 'Exploitation ...
An approach for the simulation of three-dimensional field-scale coupled thermo-hydro-mechanical prob...
We present and test a new hybrid numerical method for simulating layerwise-two-dimensional geophysic...
The current trend in high-performance computing of a stagnating or even decreasing processor speed p...
A parallel implementation of a method of the semi-Lagrangian type for the advection equation on a hy...
A 3D hybrid (H) transport scheme has been developed that consists of the Prather (P) scheme for vert...
We present a survey of physical and computational techniques that have the potential to contribute t...
AbstractWe present a survey of physical and computational techniques that have the potential to cont...
Advection schemes with time step restrictions are widely used in weather and climate models. This ca...
Global atmospheric circulation models (GCM) typically have three primary algorithmic components: col...
This paper focuses on the solution of the dispersed phase of Eulerian–Lagrangian one-way coupled par...
An OpenMP-based shared memory implementation of the Parareal parallel-in-time integration scheme usi...