Debian Med Physics packages

CERNLIB is a suite of data analysis tools and libraries created for use in physics experiments, but also with applications to other fields such as the biological sciences.

PAW is an interactive program providing interactive graphical presentation and statistical and mathematical analysis tools. It is designed to work on objects familiar to physicists such as histograms, event files (Ntuples), vectors, etc.

The program is linked statically against the CERN libraries on 64-bit architectures in order to function properly, as its design is not very 64-bit clean.

CERNLIB is a suite of data analysis tools and libraries created for use in physics experiments, but also with applications to other fields such as the biological sciences.

This package includes Paw++, an interactive program for use in analysis and graphical presentation. Paw++ is the same program as PAW (in the "paw" package), but with a more user-friendly Motif-based GUI, compiled against Lesstif in Debian.

The program is linked statically against the CERN libraries on 64-bit architectures in order to function properly, as its design is not very 64-bit clean.

CERNLIB is a suite of data analysis tools and libraries created for use in physics experiments, but also with applications to other fields such as the biological sciences.

This package includes example scripts for use by PAW or Paw++, and test scripts to make sure that the PAW or Paw++ programs behave correctly. You may run the examples and tests with the included paw-demos program.

GATE incorporates the Geant4 libraries in a modular, versatile, and scripted simulation toolkit which is adapted to the field of nuclear medicine both in PET (Positron Emission Tomography) and SPECT (Single Photon Emission Computer Tomography). It allows the accurate description of time-dependent phenomena such as source or detector movement and source decay kinetics. The ability to synchronize all time-dependent components allows a coherent description of the acquisition process. It makes it possible to perform realistic simulations of data acquisitions in time.

OpenViBE enables to design, test and use Brain-Computer Interfaces (BCI). OpenViBE is a software for real-time neurosciences (that is, for real-time processing of brain signals). It can be used to acquire, filter, process, classify and visualize brain signals in real time.