User Tools

Site Tools


codes:start

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision
Previous revision
codes:start [2016/10/20 17:55]
jannis [Codes (and subroutines) we have developed]
codes:start [2021/06/11 15:03] (current)
jannis [Actively used]
Line 1: Line 1:
 ====== Codes ====== ====== Codes ======
  
-Below we give a list of codes developed ​in our group and a list of codes developed ​by others ​that we found useful. ​Note that you can also explore our group'​s Git repository at [[https://​scm.cwi.nl/​MD]].+Here we provide and describe the codes that we have developed
 +We do this to allow others to use (part of) it, to extract ideas, to give us 
 +feedback, ​and to allow reproduction and checking ​of (published) results. If you 
 +use our codes, please honor our work by quoting the paper(s) related to the 
 +codes, as indicated.  
 + 
 +We also provide links to codes and databases of other groups ​that we have found useful. 
  
 ===== Codes (and subroutines) we have developed ===== ===== Codes (and subroutines) we have developed =====
  
-  ​* **[[codes:arcos|ARCoS]]**: Adaptive Refinement Code of Streamers, a fluid code with 2.5D adaptive grid refinement, developed consecutively by C. Montijn, W. Hundsdorfer,​ A. Luque, G. Wormeester, M. Nool and U. Ebert. +==== Actively used ==== 
-  * **[[https://​gitlab.com/​MD-CWI-NL/​afivo|Afivo]]** and the related streamer simulation programs ​**[[https://​gitlab.com/​MD-CWI-NL/​afivo-streamer|Afivo-streamer]]**. Afivo stands ​for **A**daptive **fi**nite ​**v**olume **o**ctree. It is a framework ​for adaptive finite volume ​simulationswith a focus on simplicity. It features quadtree/​octree AMR, OpenMP parallelization and a built-in geometric multigrid solver. Developed by Jannis Teunissen.+ 
 +  ​* **[[https://​gitlab.com/​MD-CWI-NL/​afivo-streamer|Afivo-streamer]]** code for 1D/2D/3D parallel streamer simulations ​with AMRThe code is based on the **[[https://​gitlab.com/​MD-CWI-NL/​afivo|Afivo]]** ​framework, ​and features quadtree/​octree AMR, OpenMP parallelization and a built-in geometric multigrid solver. 
 +  * **[[https://​gitlab.com/​MD-CWI-NL/​afivo-pic|Afivo-pic]]** A particle-in-cell code for 2D/3D parallel streamer simulations with AMR, similar to Afivo-streamer. 
 +  ​* **[[https://​gitlab.com/​MD-CWI-NL/​streamer_1d|streamer_1d]]** Code for 1D discharge ​simulations with a particle-in-cell or fluid model
   * **[[https://​gitlab.com/​MD-CWI-NL/​particle_swarm|particle_swarm]]** A Monte Carlo swarm simulation tool, to compute electron transport data in arbitrary **E,B** fields. Developed by Jannis Teunissen and Anbang Sun.   * **[[https://​gitlab.com/​MD-CWI-NL/​particle_swarm|particle_swarm]]** A Monte Carlo swarm simulation tool, to compute electron transport data in arbitrary **E,B** fields. Developed by Jannis Teunissen and Anbang Sun.
-  * **[[codes:​particle|Pamdi3D]]** A 3D particle model for (streamer) discharge simulation, developed by Jannis Teunissen, Anbang Sun, Margreet Nool and Chao Li. 
   * **[[http://​www.pumpkin-tool.org|PumpKin]]**:​ Pathway redUction Method for Plasma KINetic models, developed by A.H. Markosyan, A. Luque and F.J. Gordillo-Vazquez.   * **[[http://​www.pumpkin-tool.org|PumpKin]]**:​ Pathway redUction Method for Plasma KINetic models, developed by A.H. Markosyan, A. Luque and F.J. Gordillo-Vazquez.
 +  * **[[https://​gitlab.com/​MD-CWI-NL/​particle_core|particle_core]]** Core modules for particle-in-cell simulations from 1D to 3D
 +
 +==== Other/older codes ====
 +
 +  * **[[codes:​particle|Pamdi3D]]** A 3D particle model for (streamer) discharge simulation, developed by Jannis Teunissen, Anbang Sun, Margreet Nool and Chao Li.
 +  * **[[codes:​arcos|ARCoS]]**:​ Adaptive Refinement Code of Streamers, a fluid code with 2.5D adaptive grid refinement, developed consecutively by C. Montijn, W. Hundsdorfer,​ A. Luque, G. Wormeester, M. Nool and U. Ebert.
   * **[[codes:​en_brems|Cross sections for electron nucleus Bremsstrahlung]]** by C. Köhn.   * **[[codes:​en_brems|Cross sections for electron nucleus Bremsstrahlung]]** by C. Köhn.
 ===== Codes and databases of other groups that we have found useful ===== ===== Codes and databases of other groups that we have found useful =====
Line 21: Line 36:
   * **[[https://​web.ikp.kit.edu/​corsika/​|CORSIKA]]** (COsmic Ray SImulations for KAscade) is a program for detailed simulation of extensive air showers initiated by high energy cosmic ray particles. D. Heck, J. Knapp, J.N. Capdevielle,​ G. Schatz, T. Thouw (1998).   * **[[https://​web.ikp.kit.edu/​corsika/​|CORSIKA]]** (COsmic Ray SImulations for KAscade) is a program for detailed simulation of extensive air showers initiated by high energy cosmic ray particles. D. Heck, J. Knapp, J.N. Capdevielle,​ G. Schatz, T. Thouw (1998).
   * **[[http://​rcwww.kek.jp/​research/​egs/​egs5.html|EGS5]]** (Electron-Gamma-Shower) is a general purpose package for the Monte Carlo simulation of the coupled transport of electrons and photons.   * **[[http://​rcwww.kek.jp/​research/​egs/​egs5.html|EGS5]]** (Electron-Gamma-Shower) is a general purpose package for the Monte Carlo simulation of the coupled transport of electrons and photons.
- 
- 
codes/start.1476978903.txt.gz · Last modified: 2016/10/20 17:55 by jannis