The Geo-Info project aims to provide Geoscience experts with software toolkits tailored for selected target application domains. Within this framework, high-performance computing (HPC) solutions are here applied to optimize a Monte Carlo (MC) code to support Ocean Color (OC) investigations. The present paper introduces the Geo-Info project, describes the HPC solutions applied for the OC MC case study, and gives early performance results focusing on runtime, speedup, and parallel efficiency.JRC.DDG.H.3-Global environement monitorin
General circulation models are becoming the premier theoretical tools for studying the complex struc...
Modeling oceans is computationally expensive. Rising demands for speedier and higher resolution fore...
The traditional flow of coastal ocean model data is from High-Performance Computing (HPC) centers to...
This paper presents a high-performance computing (HPC) framework for Monte Carlo (MC) simulations in...
Global climate modeling is one of the grand challenges of computational science, and ocean modeling ...
A Monte Carlo Code for Ocean Color simulations has been developed to model in-water radiometric fiel...
AbstractA performance modeling method is presented to predict the execution time of a parallel Monte...
Open Ocean is a French SME company which develops innovative on-line solutions to help plan and mana...
The goal of the SDSC effort described here is to evaluate the performance potential of the Oberhuber...
AbstractGeological models have been successfully used to identify and study geothermal energy resour...
High Performance Computing (HPC) is used for running advanced application programs efficiently, reli...
The Parallel Ocean Program (POP) is used in many strongly eddying ocean circulation simulations. Ide...
Previous studies indicate that parallel computing for hyperspectral remote sensing image generation ...
This paper presents the development of a general-purpose parallel ocean circulation model, for use ...
The present work is about the algorithms and parallel constructs of a spectral element equatorial oc...
General circulation models are becoming the premier theoretical tools for studying the complex struc...
Modeling oceans is computationally expensive. Rising demands for speedier and higher resolution fore...
The traditional flow of coastal ocean model data is from High-Performance Computing (HPC) centers to...
This paper presents a high-performance computing (HPC) framework for Monte Carlo (MC) simulations in...
Global climate modeling is one of the grand challenges of computational science, and ocean modeling ...
A Monte Carlo Code for Ocean Color simulations has been developed to model in-water radiometric fiel...
AbstractA performance modeling method is presented to predict the execution time of a parallel Monte...
Open Ocean is a French SME company which develops innovative on-line solutions to help plan and mana...
The goal of the SDSC effort described here is to evaluate the performance potential of the Oberhuber...
AbstractGeological models have been successfully used to identify and study geothermal energy resour...
High Performance Computing (HPC) is used for running advanced application programs efficiently, reli...
The Parallel Ocean Program (POP) is used in many strongly eddying ocean circulation simulations. Ide...
Previous studies indicate that parallel computing for hyperspectral remote sensing image generation ...
This paper presents the development of a general-purpose parallel ocean circulation model, for use ...
The present work is about the algorithms and parallel constructs of a spectral element equatorial oc...
General circulation models are becoming the premier theoretical tools for studying the complex struc...
Modeling oceans is computationally expensive. Rising demands for speedier and higher resolution fore...
The traditional flow of coastal ocean model data is from High-Performance Computing (HPC) centers to...