Difference between revisions of "SWE"

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=== Documentation ===
 
=== Documentation ===
* An article on the design and intent of SWE was accepted for the 11th International Symposium on Parallel and Distributed Computing - [http://www.ispdc.org/ ISPDC 2012] - it will be published by IEEE in the respective conference proceeding (late 2012)
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* An article on the design and intent of SWE was accepted for the 11th International Symposium on Parallel and Distributed Computing - [http://www.ispdc.org/ ISPDC 2012] - it will be published by IEEE in the respective conference proceeding (late 2012).
** [http://www5.in.tum.de/SWE/breuer_bader_teaching.pdf preprint of the paper (as PDF)]  
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You can download a [http://www5.in.tum.de/SWE/breuer_bader_teaching.pdf preprint of the paper (as PDF)].
  
 
= Availability of the Code =
 
= Availability of the Code =

Revision as of 08:46, 29 June 2012

An Education-Oriented Code for Parallel Tsunami Simulation

SWE is an education-oriented code that implements simple Finite Volumes models that solve the shallow water equations - in a problem setting as it would be used for tsunami simulation. SWE has a modular design that allows parallelisation using different programming paradigms, such as MPI, OpenMP, or CUDA (further tests were done with Intel TBB/ArBB and OpenCL).

Documentation

  • An article on the design and intent of SWE was accepted for the 11th International Symposium on Parallel and Distributed Computing - ISPDC 2012 - it will be published by IEEE in the respective conference proceeding (late 2012).

You can download a preprint of the paper (as PDF).

Availability of the Code

SWE is made available under the GPL license. The latest version can be downloaded via git. We are currently doing a lot of changes (to be used during the Gene Golub SIAM Summer School 2012, and plan to publish a complete version in August/September 2012).

Simulation Examples

Tohoku surface 46min.png

Tohoku both 224min.png