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Parallel Supercomputing in Atmospheric Science

Proceedings of the Fifth ECMWF Workshop on the Use of Parallel Processors in Meteorology
    https://doi.org/10.1142/9789814535670Cited by:3 (Source: Crossref)
    Abstract:

    The Table of Contents for the book is as follows:

    • Preface

    • Parallel Processing in Environmental Modelling

    • Porting the Well-Posed Topographical Meteorological Model to the KSR Parallel Supercomputer

    • On the Parallelization of Global Spectral Eulerian Shallow-Water Models

    • Parallel Computing at IBM Research on Geophysical Applications

    • Implementation of a T21 Global Spectral Model on 16 Nodes of Parallel Computers

    • Parallelization of the IFS Model

    • Preliminary Results of a Limited Area Model (YH Model) on Parallel Computing Environment

    • Experiences with the Scalable-Parallel ARPS Cloud/Mesoscale Prediction Model on Massively Parallel and Workstation Cluster Architectures

    • The Vulcan Operating Environment: A Brief Overview and Status Report

    • Fortran M as a Language for Building Earth System Models

    • Parallelization of the IFS: Status Report and First Results

    • Status Report: Parallel Ocean Circulation on Cedar

    • The Intel Paragon XP/S Supercomputer

    • Parallelization of the Unified Model Data Assimilation Scheme

    • PARMACS for Viper: Report of an Implementation

    • The RAPS Programming Model O

    • Parallelizing the ECMWF Optimum Interpolation Analysis

    • Massively Parallel Computing: Mathematics and Communications Libraries

    • 4D Variational Assimilation, Ensemble Forecasting and Parallel Computing

    • Scalability Estimates of Parallel Spectral Atmospheric Models

    • Intel Supercomputer Systems Division

    • Performance of the Shallow Water Equations on the CM-200 and CM-5 Parallel Supercomputers

    • MPMM: A Massively Parallel Mesoscale Model

    • Multitasking of the NOGAPS Model

    • Implementation of the NCAR CCM2 on the Connection Machine

    • A Practical Parallel Runtime Environment on a Multiprocessor with Global Address Space

    • A Multidomain Algorithm for Advection Problems and its Application to Atmospheric Models

    • Experiences Porting the Unified Model to the KSR-1

    • VPP500 Supercomputer

    • Numerical Software for 3D Hydrodynamic Modelling Using Transputer Arrays

    • A Draft Standard for Message Passing in a Distributed Memory Environment

    • Using Parallel Processors for Production—The Met. Office's View

    • A Parallel Implementation of the HIRLAM Model

    • The Message Passing Version of the Parallel Community Climate Model

    • Experience on Using Parallel Computers in Meteorology: Summary of the Discussion

    • List of Participants