conman
ConMan is a finite element program for the solution of the equations of incompressible, infinite-Prandtl number convection in two dimensions, originally written by Scott King, Arthur Raefsky, and Brad Hager.
Science Score: 41.0%
This score indicates how likely this project is to be science-related based on various indicators:
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✓CITATION.cff file
Found CITATION.cff file -
○codemeta.json file
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○.zenodo.json file
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✓DOI references
Found 1 DOI reference(s) in README -
○Academic publication links
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✓Committers with academic emails
5 of 12 committers (41.7%) from academic institutions -
○Institutional organization owner
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○JOSS paper metadata
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○Scientific vocabulary similarity
Low similarity (6.3%) to scientific vocabulary
Keywords from Contributors
Repository
ConMan is a finite element program for the solution of the equations of incompressible, infinite-Prandtl number convection in two dimensions, originally written by Scott King, Arthur Raefsky, and Brad Hager.
Basic Info
- Host: GitHub
- Owner: geodynamics
- License: other
- Language: Fortran
- Default Branch: master
- Homepage: http://geodynamics.org/cig/software/conman/
- Size: 28 MB
Statistics
- Stars: 4
- Watchers: 10
- Forks: 6
- Open Issues: 1
- Releases: 0
Metadata Files
README.md
ConMan
About
ConMan is a finite element program for the solution of the equations of incompressible, infinite-Prandtl number convection in two dimensions, originally written by Scott King, Arthur Raefsky, and Brad Hager. The project is supported by CIG (http://geodynamics.org).
For more information about citation, installation, and usage please see the included pdf manual.
Please cite the current version of ConMan using: King, S. D., A. Raefsky, and B.H. Hager (2020), ConMan v3.0.0 [software], doi:10.5281/zenodo.3633152.
License
ConMan is published under GPL v2 or newer.
Owner
- Name: Computational Infrastructure for Geodynamics
- Login: geodynamics
- Kind: organization
- Email: help@geodynamics.org
- Website: https://www.geodynamics.org/
- Repositories: 39
- Profile: https://github.com/geodynamics
Citation (CITATION)
King, S.D., A. Raefsky, and B.H. Hager (1990), ConMan: Vectorizing a finite element code for incompressible two-dimensional convection in the Earth’s mantle, Phys. Earth Planet. Int., 59, 195-208. King S. D., C. Lee, P. E. van Keken, W. Leng, S. Zhong, E. Tan, E., M. Gurnis, N. Tosi, and M. C. Kameyama (2010). A community benchmark for 2D Cartesian compressible convection in the Earth’s mantle, Geophys. J. Int., 180, 73-87, 2010. doi:10.1111/j.1365-246X.2009.04413.x
GitHub Events
Total
- Watch event: 2
Last Year
- Watch event: 2
Committers
Last synced: over 2 years ago
Top Committers
| Name | Commits | |
|---|---|---|
| Scott King | s****k@v****u | 35 |
| Sue Kientz | s****e@g****g | 21 |
| Thorsten Becker | t****b@u****u | 18 |
| thwbecker | t****i@g****m | 17 |
| Wei Mi | w****i@g****g | 11 |
| naliboff | j****f@g****m | 10 |
| tjesser | t****r@u****u | 5 |
| naliboff | j****f@u****u | 4 |
| Luis Armendariz | l****s@g****g | 4 |
| Rene Gassmoeller | r****r@m****g | 3 |
| Eh Tan | t****2@e****w | 1 |
| Scott King | s****k@G****l | 1 |
Committer Domains (Top 20 + Academic)
Issues and Pull Requests
Last synced: over 2 years ago
All Time
- Total issues: 0
- Total pull requests: 9
- Average time to close issues: N/A
- Average time to close pull requests: about 1 month
- Total issue authors: 0
- Total pull request authors: 4
- Average comments per issue: 0
- Average comments per pull request: 1.44
- Merged pull requests: 8
- Bot issues: 0
- Bot pull requests: 0
Past Year
- Issues: 0
- Pull requests: 0
- Average time to close issues: N/A
- Average time to close pull requests: N/A
- Issue authors: 0
- Pull request authors: 0
- Average comments per issue: 0
- Average comments per pull request: 0
- Merged pull requests: 0
- Bot issues: 0
- Bot pull requests: 0
Top Authors
Issue Authors
Pull Request Authors
- tjesser-ucdavis-edu (4)
- gassmoeller (2)
- JarettBakerDunn (2)
- sdkatvt (2)
- naliboff (1)