AbstractGeological models have been successfully used to identify and study geothermal energy resources. Many computer simulations based on these models are data-intensive applications. Large-scale geological simulations require high performance computing (HPC) techniques to run within reasonable time constraints and performance levels. One research area that can benefit greatly from HPC techniques is the modeling of heat flow beneath the Earth's surface. This paper describes the application of HPC techniques to increase the scale of research with a well-established geological model. Recently, a serial C++ application based on this geological model was ported to a parallel HPC applications using MPI. An area of focus was to increase the per...
A comprehensive climate system model is under development at Lawrence Livermore National Laboratory....
“Big Iron” super computers and commercial cloud resources (Amazon, Google, Microsoft) are considered...
In this paper, application of high performance computing to climate modelling with specific referenc...
AbstractGeological models have been successfully used to identify and study geothermal energy resour...
Abstract. This paper presents development and use of High Performance Computing (HPC) methods in ord...
An approach for the simulation of three-dimensional field-scale coupled thermo-hydro-mechanical prob...
The performance and scalability of atmospheric transport models on high performance computing enviro...
The Reservoir GeoMechanics Simulator (RGMS), a geomechanics simulator based on the finite element me...
Even with the continual advances made in both computational algorithms and computer hardware used in...
AbstractPowerful numerical codes for modeling complex coupled processes of physics and chemistry hav...
Objective: One key component of the GEON grid is to provide modeling tools that will enable research...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
The performance of TOUGH2, Lawrence Berkeley Laboratory`s general purpose simulator for mass and hea...
Presently, the Solid Earth Sciences started to move towards implementing High Performance Computatio...
Despite increasing processing power of systems, sequential programs have limitations to achieve corr...
A comprehensive climate system model is under development at Lawrence Livermore National Laboratory....
“Big Iron” super computers and commercial cloud resources (Amazon, Google, Microsoft) are considered...
In this paper, application of high performance computing to climate modelling with specific referenc...
AbstractGeological models have been successfully used to identify and study geothermal energy resour...
Abstract. This paper presents development and use of High Performance Computing (HPC) methods in ord...
An approach for the simulation of three-dimensional field-scale coupled thermo-hydro-mechanical prob...
The performance and scalability of atmospheric transport models on high performance computing enviro...
The Reservoir GeoMechanics Simulator (RGMS), a geomechanics simulator based on the finite element me...
Even with the continual advances made in both computational algorithms and computer hardware used in...
AbstractPowerful numerical codes for modeling complex coupled processes of physics and chemistry hav...
Objective: One key component of the GEON grid is to provide modeling tools that will enable research...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
The performance of TOUGH2, Lawrence Berkeley Laboratory`s general purpose simulator for mass and hea...
Presently, the Solid Earth Sciences started to move towards implementing High Performance Computatio...
Despite increasing processing power of systems, sequential programs have limitations to achieve corr...
A comprehensive climate system model is under development at Lawrence Livermore National Laboratory....
“Big Iron” super computers and commercial cloud resources (Amazon, Google, Microsoft) are considered...
In this paper, application of high performance computing to climate modelling with specific referenc...