Difference between revisions of "GetDP"

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ONELAB allows to use GetDP as a black-box solver: you don't need to know anything about finite elements or de Rham complexes in order to run your first simulations:
 
ONELAB allows to use GetDP as a black-box solver: you don't need to know anything about finite elements or de Rham complexes in order to run your first simulations:
  
# Download and uncompress the ONELAB bundle for Windows [http://onelab.info/files/onelab-Windows64.zip 64 bit] / [http://onelab.info/files/onelab-Windows32.zip 32 bit], Linux [http://onelab.info/files/onelab-Linux64.zip 64 bit] / [http://onelab.info/files/onelab-Linux32.zip 32 bit] or [http://onelab.info/files/onelab-MacOSX.zip MacOSX] (or compile the [http://onelab.info/files/onelab-source.zip source code]).
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<ol>
# Double-click on the Gmsh executable ('''gmsh.exe''' [[File:GmshIcon.png|GmshIcon.png]] on Windows).
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  <li>Download the ONELAB bundle:
# Load one of the GetDP models ('''.pro''' file) through the '''File/Open''' menu, e.g. '''inductor.pro''' in the '''models/inductor''' directory for the [[Inductor|simple inductor/core]] example.
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  <ul>
# Click on '''Run'''.
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    <li>Desktop version for Windows [http://onelab.info/files/onelab-Windows64.zip 64 bit] / [http://onelab.info/files/onelab-Windows32.zip 32 bit], Linux [http://onelab.info/files/onelab-Linux64.zip 64 bit] / [http://onelab.info/files/onelab-Linux32.zip 32 bit] and [http://onelab.info/files/onelab-MacOSX.zip MacOSX]
# ... that's it!
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    <li>Mobile version for [https://play.google.com/store/apps/details?id=org.geuz.onelab Android] and [https://itunes.apple.com/us/app/onelab/id845930897 iOS]
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    <li>[http://onelab.info/files/onelab-source.zip Source code]
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  </ul>
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  <li>Launch the app <img src="http://geuz.org/gmsh/gallery/icon.png" height=20px>
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  <li>Open a GetDP model:
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  <ul>
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    <li>Desktop version: go to the '''File/Open''' menu and select a GetDP '''.pro''' file, e.g. '''models/magnetometer/magnetometer.pro'''
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    <li>Mobile version: select one of the preloaded models
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  </ul>
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  <li>Press '''Run'''.
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</ol>
  
Note that on Windows, depending on your computer security settings, you might have to explicitly allow the GetDP executable to be launched by Gmsh. Manually launch GetDP once by double-clicking on '''getdp.exe''' to allow this.
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<!-- Note that on Windows, depending on your computer security settings, you might have to explicitly allow the GetDP executable to be launched by Gmsh. Manually launch GetDP once by double-clicking on '''getdp.exe''' to allow this. -->
  
 
== GetDP models ==
 
== GetDP models ==

Revision as of 07:58, 25 August 2016

GetDP is an open source finite element solver using mixed elements to discretize de Rham-type complexes in one, two and three dimensions. GetDP is developed by the ACE group from the Montefiore Institute at the University of Liège, and is released under the GNU GPL.

Getting started

ONELAB allows to use GetDP as a black-box solver: you don't need to know anything about finite elements or de Rham complexes in order to run your first simulations:

  1. Download the ONELAB bundle:
  2. Launch the app
  3. Open a GetDP model:
    • Desktop version: go to the File/Open menu and select a GetDP .pro file, e.g. models/magnetometer/magnetometer.pro
    • Mobile version: select one of the preloaded models
  4. Press Run.


GetDP models

Basic templates

These are basic physical templates, that can either be used interactively to define new problems from scratch, or be included in other problem definition files.

Featured physical models

These are complete, parametric application examples, ready to be solved and modified.

Acoustics Electromagnetism Heat transfer Multi-physics

Advanced numerical techniques


All models

All GetDP models

How does it work?

GetDP input files (.pro files) can be instrumented to share parameters with the ONELAB server, through the same syntax as the one used in Gmsh.