Ocean-Atmosphere Modelization over the Grid

Author

Caniou, Y. ; Caron, E. ; Charrier, G. ; Chis, A. ; Desprez, F. ; Maisonnave, E.

Author_Institution

LIP Lab., Lyon Univ., Lyon

fYear

2008

fDate

9-12 Sept. 2008

Firstpage

206

Lastpage

213

Abstract

In this paper, we tackle the problem of scheduling an Ocean-Atmosphere application used for climate prediction on the grid. An experiment is composed of several 1D-meshes of identical DAGs composed of parallel tasks. To obtain a good completion time, we divide groups of processors into sets each working on parallel tasks. The group sizes are chosen by computing the best makespan for several grouping possibilities. We improved this heuristic method by different means. The improvement yielding to the best makespan is the representation of the problem as an instance of the Knapsack problem. As this heuristic is firstly designed for homogeneous platforms, we present its adaptation to heterogeneous platforms. Simulations show improvements of the makespan up to 12%.

Keywords

atmospherics; directed graphs; geophysics computing; grid computing; knapsack problems; oceanography; parallel processing; scheduling; weather forecasting; 1D mesh; climate prediction; directed acyclic graph; grid computing; heterogeneous platforms; homogeneous platforms; knapsack problem; ocean-atmosphere application; ocean-atmosphere modeling; parallel tasks; scheduling; Atmosphere; Atmospheric modeling; Computational modeling; Fluctuations; Global warming; Grid computing; Laboratories; Parallel processing; Predictive models; Processor scheduling; Grid computing; Ocean-Atmosphere application; Scheduling;

fLanguage

English

Publisher

ieee

Conference_Titel

Parallel Processing, 2008. ICPP '08. 37th International Conference on

Conference_Location

Portland, OR

ISSN

0190-3918

Print_ISBN

978-0-7695-3374-2

Electronic_ISBN

0190-3918

Type

conf

DOI

10.1109/ICPP.2008.37

Filename

4625851