The research serves as a sort of 'pilot program' to conceptualize and prepare for the implementation of such intense computational systems, which currently remain a scientific and engineering challenge. While not actually having access to petascale capability, these experiments will provide a computational environment where many of the theoretical aspects of the interactive ensembles can be tested. A computational test bed is essential for enabling the scientific development of the interactive ensembles and ensuring efficient use of limited petascale computer resources.
"This marks the first time we will have sufficient computational resources available to begin addressing these pressing scientific challenges in a comprehensive manner. The information we collect from this project will serve as a cornerstone for petascale computing in our field, and help to advance the study of the interactions between weather and climate phenomena on a global scale," said Kirtman. " The project will bring together students in computer science and climate science to address problems in an interdisciplinary manner, thus creating a next generation of informed, computational scientists."
"Through our recently developed Center for Computational Science at the University of Miami we are looking forward to creating an optimal environment where many of the theoretical aspects of the interactive ensembles can tested," Kirtman added.
|Contact: Barbra Gonzalez|
University of Miami Rosenstiel School of Marine & Atmospheric Science