* 1 prebuilt executable to create hit patterns: [Hitpattern](https://git.kern.phys.au.dk/ausa/GeometryFitter/wikis/hitpattern)
*2 prebuilt executables to determine the geometry of your setup based on near-isotropic source data: [IsotropicFitter](https://git.kern.phys.au.dk/ausa/GeometryFitter/wikis/isotropicandpolynomialfitters) and [PolynomialFitter](https://git.kern.phys.au.dk/ausa/GeometryFitter/wikis/isotropicandpolynomialfitters)
* 1 prebuilt executable to determine the geometry of your setup based on Rutherford-scattering data: [RutherFitter](https://git.kern.phys.au.dk/ausa/GeometryFitter/wikis/rutherfitter)
* 1 prebuilt executable to create hit patterns: [Hitpattern](hitpattern)
*3 prebuilt executables to determine the geometry of your setup based on near-isotropic source data: [GeoDWIM (preferred)](GeoDWIM), [IsotropicFitter](isotropicandpolynomialfitters) and [PolynomialFitter](isotropicandpolynomialfitters)
* 1 prebuilt executable to determine the geometry of your setup based on Rutherford-scattering data: [RutherFitter](rutherfitter)
# Usage
* Step 1: Use [Hitpattern](https://git.kern.phys.au.dk/ausa/GeometryFitter/wikis/hitpattern) to generate hit patterns for all DSSDs in your setup
* Step 2: Feed the generated hit patterns to one of the Fitters ([IsotropicFitter](https://git.kern.phys.au.dk/ausa/GeometryFitter/wikis/isotropicandpolynomialfitters), [PolynomialFitter](https://git.kern.phys.au.dk/ausa/GeometryFitter/wikis/isotropicandpolynomialfitters) or [RutherFitter](https://git.kern.phys.au.dk/ausa/GeometryFitter/wikis/rutherfitter)) to determine the position of the DSSDs
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* Step 1: Use [Hitpattern](hitpattern) to generate hit patterns for all DSSDs in your setup
* Step 2: Feed the generated hit patterns to one of the Fitters ([GeoDWIM](GeoDWIM), [IsotropicFitter](isotropicandpolynomialfitters), [PolynomialFitter](isotropicandpolynomialfitters) or [RutherFitter](rutherfitter)) to determine the position of the DSSDs
