Science Score: 44.0%
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
Found codemeta.json file -
✓.zenodo.json file
Found .zenodo.json file -
○DOI references
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○Academic publication links
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○Institutional organization owner
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○JOSS paper metadata
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○Scientific vocabulary similarity
Low similarity (0.2%) to scientific vocabulary
Last synced: 6 months ago
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JSON representation
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Repository
Basic Info
- Host: GitHub
- Owner: XiantaoFan
- License: bsd-3-clause
- Language: Fortran
- Default Branch: main
- Size: 6.19 MB
Statistics
- Stars: 0
- Watchers: 1
- Forks: 0
- Open Issues: 0
- Releases: 0
Created almost 4 years ago
· Last pushed over 3 years ago
Metadata Files
Readme
License
Citation
README.md
Add the VIV
Owner
- Login: XiantaoFan
- Kind: user
- Repositories: 1
- Profile: https://github.com/XiantaoFan
Citation (CITATION.cff)
We kindly request that you cite Xcompact3d/Incompact3d in your publications and presentations. The following citations are suggested: 1-Laizet S. & Lamballais E., 2009, High-order compact schemes for incompressible flows: a simple and efficient method with the quasi-spectral accuracy, J. Comp. Phys., vol 228 (15), pp 5989-6015 2-Laizet S. & Li N., 2011, Incompact3d: a powerful tool to tackle turbulence problems with up to 0(10^5) computational cores, Int. J. of Numerical Methods in Fluids, vol 67 (11), pp 1735-1757 3-Bartholomew P., Deskos G., Frantz R.A.S., Schuch F.N., Lamballais E. & Laizet S., 2020, Xcompact3D: An open-source framework for solving turbulence problems on a Cartesian mesh, SoftwareX, vol12, pp 100550
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Dependencies
docs/requirements.txt
pypi
- nbconvert >=5.6
- nbsphinx >=0.7
- pygments >=2.6
- sphinx >=3.2
- sphinx-autobuild *
- sphinx-copybutton >=0.3
- sphinx-rtd-theme >=0.5