Open AccessNumerical Weather Prediction on the Supercomputer Toolkit
Author(s) -
Pinhas Alpert,
Alexander Goikhman,
J. Katzenelson,
M. Tsidulko
Publication year - 2002
Publication title -
lecture notes in computer science
Language(s) - English
Resource type - Book series
SCImago Journal Rank - 0.249
H-Index - 400
eISSN - 1611-3349
pISSN - 0302-9743
ISBN - 3-540-43674-X
DOI - 10.1007/3-540-47847-7_30
Subject(s) - supercomputer , computer science , mesoscale meteorology , parallel computing , computation , grid , mm5 , weather forecasting , computational science , set (abstract data type) , vector processor , numerical weather prediction , meteorology , algorithm , geometry , mathematics , physics , programming language
The Supercomputer Toolkit constructs parallel computation networks by connecting processor modules. These connections are set by the user prior to a run and are static during the run. The Technion's Toolkit prototype was used to run a simplified version of the PSU/NCAR MM5 mesoscale model [9]. Each processor is assigned columns of the grid points of a square in the (x,y) space. When n 脳 n columns are assigned to each processor its computation time is proportional to n2 and its communication time to n. Since the Toolkit's network computes in parallel and communicates in parallel, then, for a given n, the total time is independent of the size of the two dimensional array or the area over which the weather prediction takes place. A mesoscale forecast over the eastern Mediterranean was run and measured; it suggests that were the Toolkit constructed from ALPHA processors, 10 processors would do a 36 h prediction in only about 13 minutes. A 36 hours prediction with full physics for the whole earth will require 2 hours for 80 ALPHA processors.
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