Multi-scale geophysical modeling using the spectral element method. Iskandarani, M., Haidvogel, D., Levin, J., Curchitser, E., & Edwards, C. Computing in Science Engineering, 4(5):42-48, 2002. doi bibtex @ARTICLE{1032428,
author={Iskandarani, M. and Haidvogel, D.B. and Levin, J.C. and Curchitser, E. and Edwards, C.A.},
journal={Computing in Science Engineering},
title={Multi-scale geophysical modeling using the spectral element method},
year={2002},
volume={4},
number={5},
pages={42-48},
keywords={climatology;digital simulation;geophysics computing;oceanographic techniques;parallel processing;spectral analysis;accuracy;atmospheric models;complex geometry;digital simulation;geometric flexibility;multi5cale flows;multiscale geophysical modeling;oceanic models;parallel scalability;spectral element method;Atmospheric modeling;Computational modeling;Computer simulation;Concurrent computing;Finite element methods;Geophysics computing;Grid computing;Interpolation;Polynomials;Solid modeling},
doi={10.1109/MCISE.2002.1032428},
ISSN={1521-9615},
}
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