Level-0 trigger algorithms for the ALICE PHOS detector

The Photon Spectrometer of ALICE consists of 5 identical modules of 56 Â 64 PWO crystals with a total of 100 azimuthal coverage of the barrel. The electronics required for implementing both the L0 trigger for high luminosity p-p physics and the L1 trigger for high p T Pb+Pb physics has been studied.

This work is supported in part by German BMBF under project 06HD197D tiplicity environment of up to 8000 particles per unit of rapidity. The main detector systems for these tasks are the Inner Tracking System, the Time Projection Chamber, the Transition Radiation Detector and the Time of Flight arra

A proposal for a pixel-based Level 1 trigger for the Super-LHC is presented. The trigger is based on fast track reconstruction using the full pixel granularity exploiting a readout which connects different layers in specific trigger towers. The trigger will implement the current CMS high level trigg

The goal of the ALICE Time-of-Flight detector, based on MRPC technology, is to perform the chargedparticle identification at midrapidity, in the region |Z|o0.9. This large area ($150 m 2 ), finely segmented detector ($157,000 channels), provides fast signals which will contribute to the Level 0 and