Welcome to Fusion For Energy GitHub organization. Below, you can find details on the different repositories hosted here.
The following tools are developed and mantained by the F4E neutronics team:
- F4Enix a python package that helps to pre and post process many different inputs and outputs related to neutronic analyses.
- F4E_radwaste, a program to define and analyze radwaste packages via a fine 3D mesh superimposed to the geometry of a Monte Carlo radiation transport simulation.
- F4Epurity, a python-based tool that can be used to approximate the change in activity and dose resulting from a deviation in chemical composition of a material under irradiation
- RadModeling, a package grouping a set of useful IronPython routines to manipulate/analyse/modify CAD files in SpaceClaim environment.
- DoseMap-calculator, a practical tool to obtain doses of a component travelling through a radiation field.
- iMCNP_Source, a script that creates a complete MCNP sdef card for a set of pipes containing activated water.
- Gitronics a tool to manage and automatically build an MCNP model from a set of files. Useful to manage the development of complex models in a collaborative way.
F4E neutronics team is also one of the main contributors to other two projects that have their own independent GitHub organizations:
- JADE which is related to the verification and validation (V&V) of nuclear data libraries.
- GEOUNED which is related to conversion from CAD to CSG geometry (and viceversa) for Monte Carlo transport application.
The following tools are developed by the F4E mechanical team:
- EM-interpolator a python package that provides a GUI interface to interpolate EM forces on mechanical meshes.
