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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○Academic email domains
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○Institutional organization owner
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○JOSS paper metadata
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○Scientific vocabulary similarity
Low similarity (9.2%) to scientific vocabulary
Keywords
Repository
DCA++
Basic Info
- Host: GitHub
- Owner: CompFUSE
- License: bsd-3-clause
- Language: C++
- Default Branch: master
- Size: 468 MB
Statistics
- Stars: 38
- Watchers: 7
- Forks: 28
- Open Issues: 44
- Releases: 4
Topics
Metadata Files
README.md
DCA++
With the DCA++ project, we aim to gain insight into the fascinating physics of strongly correlated electron systems by employing modern quantum cluster methods. The DCA++ code provides a state of the art implementation of the dynamical cluster approximation (DCA) and its DCA+ extension. High scalability and portable performance allow to exploit today's leadership computing systems.
Getting Started
Information about prerequisites, details on the CMake-based building procedure, and a small tutorial can be found in the Wiki.
Questions about building or running DCA++ can be submitted via the
issue tracking system.
Contributing Back
Bug reports and feature requests can be submitted via the issue tracking system.
Please read the contribution guidelines for details on how to contribute code.
Citation Guidelines
Please follow the citation guidelines, if you use the DCA++ code for scientific publications.
CDash Dashboard
Dashboard displaying the latest build status
Owner
- Name: CompFUSE
- Login: CompFUSE
- Kind: organization
- Repositories: 1
- Profile: https://github.com/CompFUSE
Citation (CITATION.md)
# Citation Guidelines If the DCA++ code contributes to your research, we kindly ask to acknowledge this in any resulting scientific publication by citing the following paper: Urs R. Hähner, Gonzalo Alvarez, Thomas A. Maier, Raffaele Solcà, Peter Staar, Michael S. Summers, and Thomas C. Schulthess, *DCA++: A software framework to solve correlated electron problems with modern quantum cluster methods,* Comput. Phys. Commun. 246 (2020) 106709.
GitHub Events
Total
- Issues event: 4
- Watch event: 4
- Delete event: 1
- Issue comment event: 4
- Push event: 16
- Pull request event: 26
- Fork event: 2
- Create event: 1
Last Year
- Issues event: 4
- Watch event: 4
- Delete event: 1
- Issue comment event: 4
- Push event: 16
- Pull request event: 26
- Fork event: 2
- Create event: 1
Issues and Pull Requests
Last synced: 6 months ago
All Time
- Total issues: 0
- Total pull requests: 10
- Average time to close issues: N/A
- Average time to close pull requests: 6 days
- Total issue authors: 0
- Total pull request authors: 1
- Average comments per issue: 0
- Average comments per pull request: 0.1
- Merged pull requests: 7
- Bot issues: 0
- Bot pull requests: 0
Past Year
- Issues: 0
- Pull requests: 10
- Average time to close issues: N/A
- Average time to close pull requests: 6 days
- Issue authors: 0
- Pull request authors: 1
- Average comments per issue: 0
- Average comments per pull request: 0.1
- Merged pull requests: 7
- Bot issues: 0
- Bot pull requests: 0
Top Authors
Issue Authors
- jinz2014 (1)
- PZMai (1)
Pull Request Authors
- PDoakORNL (30)
Top Labels
Issue Labels
Pull Request Labels
Dependencies
- actions/checkout v3 composite