Explore projects

This project is built on top of the Gaudi, LHCb, Lbcom, Rec and Phys projects. It contains components related to trigger. See documentation at http://cern.ch/lhcbdoc/hlt/ . Warning: For upgrade developments go to https://gitlab.cern.ch/lhcb/Moore.

The Maelstrom for Your Test Beam Data - http://cern.ch/corryvreckan

Description of the LHCb Upgrade detector using the DD4hep framework

Geant4 toolkit for the simulation of the passage of particles through matter

NIM A 506 (2003) 250-303 - IEEE TNS 53 No. 1 (2006) 270-278 - NIM A 835 (2016) 186-225

Tools and classes to control Lab equipment

Sub-project part of the LHCb physics analysis software project DaVinci. See http://cern.ch/lhcbdoc/analysis/ for details.

EOS project.

RooUnfold is a framework for unfolding within the ROOT environment, implementing a number of specific algorithms.

http://garfieldpp.web.cern.ch/garfieldpp/

The vectorized geometry library for particle-detector simulation (toolkits).

This project contains classes and configuration for the LHCb digitization programme Boole. Documentation can be found at http://cern.ch/lhcbdoc/boole/

GeoModel libraries and tools

A python package for HEP statistical analysis

An example implementation for a simple physics analysis using the Common Analysis Framework. Feel free to use for tutorials and experimenting with the framework. Fork this project if you want to start your own analysis using the CAF!

DAQ and test system for the RD53 readout chips

Atlas fork of official Gaudi repo

Gaussino is a project to provide an experiment-independent core software simulation framework. It can be used as the core project experiment specific projects, e.g. Gauss in the LHCb experiment, or in a standalone mode.

It is based on the Gaudi data processing framework and the Geant4 toolkit. It provides a structure to plugin a variety of generators via a set of interfaces. An adaptor to Pythia 8 is available for use and as example.

For further details refer to https://gaussino.docs.cern.ch/