Interatomic Potential Repository Python Property Calculations and Tools
Project description
Introduction
The iprPy framework provides
The calculation methodology scripts used by the NIST Interatomic potentials Repository for evaluating crystalline and crystal defect materials properties,
Tools allowing for users to interact with databases and the records contained within to easily explore the results of the calculations, and
Workflow tools that allow for preparing and performing high throughput runs of the implemented calculation methods.
The design of the package aims for being user-friendly, open and transparent at all levels. To this end
All code is open source,
Calculation documentation and the Python code can be easily accessed and explored,
Calculations can be performed individually or en masse using the workflow tools,
Command line options allow for runs to be set up and performed with limited or no Python knowledge,
Calculations are modular meaning that new methods can be easily added,
Calculation methodology is separated from the workflow operations as much as possible,
Implementation of new calculations can be supported by sharing input/output terms with existing calculations, and
The results records are in a format that is both human and machine readable.
Documentation
Documentation can be found in the doc directory or by visiting https://www.ctcms.nist.gov/potentials/iprPy/.
The notebook directory contains Jupyter Notebooks that outline how the implemented calculation methods work and provides an example run.
For help using the package, feel free to contact potentials@nist.gov or submit an issue or pull request to the https://github.com/lmhale99/iprPy github repository.
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