CPOP: Component Design and Parallelization towards POP Ocean Model Based on ESMF
Parallel Processing Workshops(2012)
Abstract
Nowadays, as the research of climate model developing to simulate the interactions between multiple physical procedures and demand high resolution results, the complexity of the climate model has increased dramatically. The traditional tight-coupling approach applied in model design has expressed tremendous burden on the code maintenance and update due to the complicated relationships between function calls and data sharing in global scope. Such an obstacle has severely hindered the rapid innovation and development of climate models, especially when involving interdisciplinary efforts and collaborations among multiple research institutes. In this study, we present our approach to redesign POP into component based CPOP and apply hybrid parallelization at component level, both of which aim at solving the mentioned limitations.
MoreTranslated text
Key words
global scope,model design,climatology,pop,parallel processing,geophysics computing,parallel ocean program,multiple research institute,hybrid parallelization,oceanography,climate model,traditional tight-coupling approach,pop ocean model,component design,component based cpop,esmf,multiple physical procedure,component encapsulation,climate model complexity,complicated relationship,object-oriented programming,code maintenance,component level,function call,data sharing,mathematical model,computational modeling,object oriented programming,meteorology
AI Read Science
Must-Reading Tree
Example
Generate MRT to find the research sequence of this paper
Chat Paper
Summary is being generated by the instructions you defined