The capability maturity model: guidelines for improving the software process
The capability maturity model: guidelines for improving the software process
Introduction to the special issue on parallel computing in climate and weather modeling
Parallel Computing - Special issue: climate and weather modeling
The pragmatic programmer: from journeyman to master
The pragmatic programmer: from journeyman to master
Toward a Common Component Architecture for High-Performance Scientific Computing
HPDC '99 Proceedings of the 8th IEEE International Symposium on High Performance Distributed Computing
The Architecture of the Earth System Modeling Framework
Computing in Science and Engineering
Vectorizing the Community Land Model
International Journal of High Performance Computing Applications
A Performance Model of the Parallel Ocean Program
International Journal of High Performance Computing Applications
International Journal of High Performance Computing Applications
Performance Portability in the Physical Parameterizations of the Community Atmospheric Model
International Journal of High Performance Computing Applications
A Scalable Implementation of a Finite-Volume Dynamical Core in the Community Atmosphere Model
International Journal of High Performance Computing Applications
International Journal of High Performance Computing Applications
Coupling Multicomponent Models with MPH on Distributed Memory Computer Architectures
International Journal of High Performance Computing Applications
Design and Implementation of Components in the Earth System Modeling Framework
International Journal of High Performance Computing Applications
Optimizing the coupling in parallel air quality model systems
Environmental Modelling & Software
Scaling Properties of Common Statistical Operators for Gridded Datasets
International Journal of High Performance Computing Applications
Algorithm 888: Spherical Harmonic Transform Algorithms
ACM Transactions on Mathematical Software (TOMS)
A DSM-based fragmented data sharing framework for grids
Future Generation Computer Systems
Performance of the community earth system model
Proceedings of 2011 International Conference for High Performance Computing, Networking, Storage and Analysis
Efficient data IO for a Parallel Global Cloud Resolving Model
Environmental Modelling & Software
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The Community Climate System Model (CCSM) is a computer model for simulating the Earth's climate. The CCSM is built from four individual component models for the atmosphere, ocean, land surface, and sea ice. The notion of a physical/dynamical component of the climate system translates directly to the software component structure. Software design of the CCSM is focused on the goals of modularity, extensibility, and performance portability. These goals are met at both the component level and within the individual component models. Performance portability is the ability of a code to achieve good performance across a variety of computer architectures while maintaining a single source code. As a community model, the CCSM must run on a variety of machine architectures and must perform well on all these architectures for computationally intensive climate simulations.