Action-based galaxy modelling architecture
Its main tasks include:
- Computation of gravitational potential and forces;
- Orbit integration and analysis;
- Conversion between position/velocity and action/angle coordinates;
- Distribution functions;
- Self-consistent multi-component galaxy models;
- Framework for finding best-fit parameters of a model from data;
- Auxiliary utilities (e.g., various mathematical routines).
The core of the library is written in C++, and there are Python and Fortran interfaces; it may be used as a plugin for other stellar-dynamical software packages: galpy, amuse, nemo.
A detailed documentation for the AGAMA library is presented in a separate file doc/reference.pdf, and a more technical description may be extracted from source files with Doxygen. Instructions for compilation are in the file INSTALL. The package also contains collection of examples and test programs both in C++ and Python.
Platform: UNKNOWN Classifier: Development Status :: 4 - Beta Classifier: Intended Audience :: Science/Research Classifier: Programming Language :: Python :: 2 Classifier: Programming Language :: Python :: 3 Requires: numpy
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