| 40 | | >>The version 3.0 of the \DELPHES fast-simulation is presented. Its goal is the simulation of a multipurpose detector that includes a track propagation system embedded in a magnetic field, electromagnetic and hadronic calorimeters, and a muon identification system. The new modular design allows to easily simulate physics objects that can be used for data analysis. These include tracks and calorimeter deposits and high level objects such as isolated electrons, jets, taus, and missing energy. New features such as the particle-flow reconstruction approach, crucial in the first years of the LHC, and pile-up simulation and mitigation, which will be needed for the simulation of the LHC detectors in the near future, have also been implemented. |
| | 40 | >>The version 3.0 of the \DELPHES fast-simulation is presented. Its goal is the simulation of a multipurpose detector that includes a track propagation system embedded in a magnetic field, electromagnetic and hadronic calorimeters, and a muon identification system. The new modular design allows to easily simulate physics objects that can be used for data analysis. These include tracks and calorimeter deposits and high level objects such as isolated electrons, jets, taus, and missing energy. New features such as the energy-flow reconstruction approach, crucial in the first years of the LHC, and pile-up simulation and mitigation, which will be needed for the simulation of the LHC detectors in the near future, have also been implemented. |
