A model and computational method is offered for the high performance forecasting regional meteorological processes. Relying on «unilateral influence » relationship of macro- and mesoscale models it suggests avoiding the Cauchy problem in the at-mospheric model and replacing it by a boundary-value problem with specific inter-polation technique that has a number of advantages of computational efficiency and good suitability for parallelization. The method and its parallel implementation on multiprocessor cluster architecture are considered
GMD and ECMWF (European Centre for Medium-Range Weather Forecasts) joined forces in autumn 1992 in o...
Two mesoscale numerical weather prediction models, Eta and the Rapid Update Cycle (RUC), are current...
A regional climate model developed by the Max Planck Institute for Meterology and the German Climate...
A methodology for developing future generations of a storm-scale weather prediction model for Massiv...
In this article we describe the implementation of a numerical weather forecast model on a massively ...
International audienceWith the computing power it brings, the new generation of massively parallel c...
AbstractWe present the principal ingredients of a regional finite element weather forecast model tha...
A data-parallel implementation on a SIMD platform of an operational numerical weather forecast model...
technical reportThe objectives of this research are twofold: One is to develop and implement a spect...
This report describes the parallelization of a weather prediction code using the Technical Report: ...
Weather Forecasting has made exacting demands on computational resources at any' point of time. The ...
The next generation of high-performance computers will be based on clusters of sharedmemory symmetri...
Meteorological computations have been conducted on the Flosolver series of parallel computers since ...
AbstractThe spatial resolution of publicly available numerical weather forecasts is largely limited ...
The paper is focused on dierent approaches to parallel implementation of climate models on cluster m...
GMD and ECMWF (European Centre for Medium-Range Weather Forecasts) joined forces in autumn 1992 in o...
Two mesoscale numerical weather prediction models, Eta and the Rapid Update Cycle (RUC), are current...
A regional climate model developed by the Max Planck Institute for Meterology and the German Climate...
A methodology for developing future generations of a storm-scale weather prediction model for Massiv...
In this article we describe the implementation of a numerical weather forecast model on a massively ...
International audienceWith the computing power it brings, the new generation of massively parallel c...
AbstractWe present the principal ingredients of a regional finite element weather forecast model tha...
A data-parallel implementation on a SIMD platform of an operational numerical weather forecast model...
technical reportThe objectives of this research are twofold: One is to develop and implement a spect...
This report describes the parallelization of a weather prediction code using the Technical Report: ...
Weather Forecasting has made exacting demands on computational resources at any' point of time. The ...
The next generation of high-performance computers will be based on clusters of sharedmemory symmetri...
Meteorological computations have been conducted on the Flosolver series of parallel computers since ...
AbstractThe spatial resolution of publicly available numerical weather forecasts is largely limited ...
The paper is focused on dierent approaches to parallel implementation of climate models on cluster m...
GMD and ECMWF (European Centre for Medium-Range Weather Forecasts) joined forces in autumn 1992 in o...
Two mesoscale numerical weather prediction models, Eta and the Rapid Update Cycle (RUC), are current...
A regional climate model developed by the Max Planck Institute for Meterology and the German Climate...