New computational developments on chemistry module of BRAMS numerical weather prediction

Authors

  • Roberto P. Souto
  • Maria E. S. Welter
  • Mateus S. Melo
  • Carla Osthoff
  • Renato J. P. Borseti
  • Luiz Flávio Rodrigues
  • Pedro Leite da Silva Dias
  • Franck Vigilant

DOI:

https://doi.org/10.5540/03.2018.006.02.0305

Keywords:

Numerical weather prediction, sparse linear systems, direct sparse method, LU factorization

Abstract

In this work, a restructuring of the calls of the direct model solver was carried out to remove redundant executions of the symbolic and numerical factorization stages present in the original implementation of the chemistry module from BRAMS regional numerical weather prediction. In the case study chosen, this change resulted in a gain of approximately 37.5% on average of the chemistry iteration serial time.

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Published

2018-12-19

Issue

Section

Trabalhos Completos