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'''nemesis''' is an experimental finite element code consisting of two parts, namely nemesis.core, which is the main finite element 'black box' and nemesis.extras, which are mostly scripts that accessing the core and exploiting usability in simple or more complicated tasks.  
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'''nemesis''' is an experimental finite element code.
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'''nemesis''' consists of two parts: a [http://en.wikipedia.org/wiki/C%2B%2B C++] ''core'', embedding the [http://www.python.org Python] interpreter, capable of undertaking a wide variety of static/transient/eigenvalue problems accounting for material and/or geometrical nonlinearities, and ''extras'', a set of [http://www.python.org Python] scripts that access the core and exploit usability in simple or more complicated tasks, including pre- and post-processing.
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Some of the available features in '''nemesis''' are: bar/beam/triangle/quad/brick elements, uniaxial elastic/hardening/cyclic/viscoplastic materials, von Mises/Mohr-Coulomb multiaxial elasto-viscoplastic materials, initial/modified/full Newton-Raphson and BFGS algorithms, load/displacement/arc-lenght controls and connection to sql databases.
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<div style="font-size: 105%; padding:0.4em; background-color:#eeeeee; border-bottom:1px solid #aaaaaa; text-align: center;">[[Contribute|'''contribute''']]</div>
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<div style="font-size: 105%; padding:0.4em; background-color:#eeeeee; border-bottom:1px solid #aaaaaa; text-align: center;">[[Participate|'''participate''']]</div>
 
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{{Click | image=Crystal_128_kuser.png | link=Contribute | width=80px| height=80px}}
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{{Click | image=Crystal_128_kuser.png | link=Participate | width=80px| height=80px}}
 
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* [[Requests|requests]]
 
* [[Requests|requests]]
 
* [[Bugs|bugs]]  
 
* [[Bugs|bugs]]  
* '''[[Contribute|more...]]'''
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* '''[[Participate|more...]]'''
 
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* [http://code.google.com/p/nemesisproject/ download nemesis]  
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* [http://code.google.com/p/nemesis-code/source download nemesis]  
 
* [http://www.python.org/download/releases/2.5/ download python]
 
* [http://www.python.org/download/releases/2.5/ download python]
 
* [http://www.scintilla.org/SciTE.html          download scite]
 
* [http://www.scintilla.org/SciTE.html          download scite]
 
* [http://www.paraview.org/HTML/Download.html  download paraview]
 
* [http://www.paraview.org/HTML/Download.html  download paraview]
* [[Download|'''more...''']]
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* '''[[Download|more...]]'''
 
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[[Category:Main_Page]]
 
[[Category:Main_Page]]

Latest revision as of 21:20, 8 July 2007

Welcome to nemesis

nemesis is an experimental finite element code.

nemesis consists of two parts: a C++ core, embedding the Python interpreter, capable of undertaking a wide variety of static/transient/eigenvalue problems accounting for material and/or geometrical nonlinearities, and extras, a set of Python scripts that access the core and exploit usability in simple or more complicated tasks, including pre- and post-processing.

Some of the available features in nemesis are: bar/beam/triangle/quad/brick elements, uniaxial elastic/hardening/cyclic/viscoplastic materials, von Mises/Mohr-Coulomb multiaxial elasto-viscoplastic materials, initial/modified/full Newton-Raphson and BFGS algorithms, load/displacement/arc-lenght controls and connection to sql databases.


Example: A pile under lateral loading.


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