A Python language scripting interface for optimised numerical software written in C/C++ has been designed to facilitate the rapid development of 3D parallel simulations on the Altix 3700. A recent advance focusing on the extensions implemented within a high performance finite element kernel module is described. Performance issues, measurements and results on the Altix 3700 are presented
This paper presents the message passing interface (MPI)-based parallelization of the three-dimension...
Some existing parallel N-S codes, including both explicit and implicit algorithms, have been ported ...
Abstract—Mantle convection is the principal control on the thermal and geological evolution of the E...
-scale vary from a planetary scale and million years for convection problems to 100km and 10 years f...
The developments of models in Earth Sciences, e.g. for earthquake prediction and for the simulation ...
Computational models based on the solution of partial differential equations (PDEs) play a key role ...
As the demand for higher resolution and more accurate weather and climate simulations increases, the...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
Dealing with extreme scale Earth-system models is challenging from the computer science perspective,...
Convection of the 3000 km thick rocky mantle and the liquid iron core below it are the two most impo...
AbstractGeological models have been successfully used to identify and study geothermal energy resour...
In this paper we continue the development of our Python-based package for the solution of partial di...
Particle in cell simulations represent an excellent paradigm for codesign efforts. PIC codes are sim...
The Lattice Solid Model is a particle based method which has been successfully employed for simulati...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
This paper presents the message passing interface (MPI)-based parallelization of the three-dimension...
Some existing parallel N-S codes, including both explicit and implicit algorithms, have been ported ...
Abstract—Mantle convection is the principal control on the thermal and geological evolution of the E...
-scale vary from a planetary scale and million years for convection problems to 100km and 10 years f...
The developments of models in Earth Sciences, e.g. for earthquake prediction and for the simulation ...
Computational models based on the solution of partial differential equations (PDEs) play a key role ...
As the demand for higher resolution and more accurate weather and climate simulations increases, the...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
Dealing with extreme scale Earth-system models is challenging from the computer science perspective,...
Convection of the 3000 km thick rocky mantle and the liquid iron core below it are the two most impo...
AbstractGeological models have been successfully used to identify and study geothermal energy resour...
In this paper we continue the development of our Python-based package for the solution of partial di...
Particle in cell simulations represent an excellent paradigm for codesign efforts. PIC codes are sim...
The Lattice Solid Model is a particle based method which has been successfully employed for simulati...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
This paper presents the message passing interface (MPI)-based parallelization of the three-dimension...
Some existing parallel N-S codes, including both explicit and implicit algorithms, have been ported ...
Abstract—Mantle convection is the principal control on the thermal and geological evolution of the E...