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NekCEM is open source and available at https://svn.mcs.anl.gov/repos/NEKCEM for easy
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NekCEM is a high-fidelity high-order spectral-element discontinuous Galerkin (SEDG) Maxwell solver that targets predicting optimal designs of next-generation electromagnetic devices such as accelerator components for the International Linear Collider or the Large Hadron Collider, nanosensors
access to the current version. The package has a number of examples for testing the convergence
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for molecular detection, and photovoltaic solar cells with high energy-conversion e�ciency, many of which have not been solved because of the limitations of current computational resources and the unavailability of a high-fidelity code to run on these advanced resources.NekCEM is open source and available at https://svn.mcs.anl.gov/repos/NEKCEM for easy access to the current version. The package has a number of examples for testing the convergence and performance of the code for different problem configurations in electromagnetics. Current capabilities include 2D/3D simulations for surface plasmonics and light transmission calculations, wakefield and wakepotential calculations, waveguides, and electric potential calculations. NekCEM is written in Fortran and C. The code uses the core infrastructure of the incompressible Navier-Stokes solver Nek5000 [http://nek5000.mcs.anl.gov].  
and performance of the code for di�erent problem con�gurations in electromagnetics. Current
 
capabilities include 2D/3D simulations for surface plasmonics and light transmission calculations,
 
wakefield and wakepotential calculations, waveguides, and electric potential calculations.
 
NekCEM is written in Fortran and C. The code uses the core infrastructure of the incompressible
 
Navier-Stokes solver Nek5000 http://nek5000.mcs.anl.gov. NekCEM uses
 
the distributed-memory message-passing interface (MPI) programming model and the singleprogram,
 
multidata (SPMD) model so that each processor independently executes a copy of
 
the same program on distinct subsets of data. NekCEM has an instruction for the following three
 
tasks that are performed consecutively at run time: presetup, solver, and checkpointing.
 
 
 
Developed at Argonne National Laboratory
 
  
  

Revision as of 12:02, 12 June 2011

NekCEM is a high-fidelity high-order spectral-element discontinuous Galerkin (SEDG) Maxwell solver that targets predicting optimal designs of next-generation electromagnetic devices such as accelerator components for the International Linear Collider or the Large Hadron Collider, nanosensors for molecular detection, and photovoltaic solar cells with high energy-conversion e�ciency, many of which have not been solved because of the limitations of current computational resources and the unavailability of a high-fidelity code to run on these advanced resources.NekCEM is open source and available at https://svn.mcs.anl.gov/repos/NEKCEM for easy access to the current version. The package has a number of examples for testing the convergence and performance of the code for different problem configurations in electromagnetics. Current capabilities include 2D/3D simulations for surface plasmonics and light transmission calculations, wakefield and wakepotential calculations, waveguides, and electric potential calculations. NekCEM is written in Fortran and C. The code uses the core infrastructure of the incompressible Navier-Stokes solver Nek5000 [1].


Setting for NekCEM

Current Developers

Misun Min [2], Jing Fu [3]


Getting started

Consult the User's Guide for information on using the wiki software.