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Step4RunningRequirements » History » Revision 21

Revision 20 (Dobbs, Adam, 07 May 2014 13:37) → Revision 21/48 (Dobbs, Adam, 07 May 2014 13:40)

h1. Step 4 Running Requirements 

 h2. Personnel 

 | 
 | *Task* | *Sub Task* | *Owner* | *Notes* | 
 | Pool of MOMs | Boyd | | 
 | Pool of BLOCs | Nebrensky | ~5 trained at present | 
 | Pool of SOCs | Rajaram | | 
 | Pool of shifters | Kyberd? | 24 at current count, 6 qualified as lead shifters, see [[Training_Shifters]] | 
 | Shift allocation scheme and recording system | Blondel | | 
 | Detector experts | Soler | | 
 | 

 h2. Beamline 

 Overall responsibility for beamline rests with Pasternak / Nebrensky. 

 | 
 | *Task* | *Sub Task* | *Owner* | *Notes* | 
 | Target | Hodgson | | 
 | Decay Solenoid | | | 
 | Proton Absorbers | | | 
 | Conventional Magnets | Hughes | | 
 | Beam Stop | Govans | | 
 | 

 h2. Cooling Channel 

 | 
 | *Task* | *Sub Task* | *Owner* | *Notes* | 
 | Spectrometer Solenoids | | | | 
 | Hydrogen delivery system | | Watson | | 
 | FC1 | | Cobb | | 
 | LH2 Absorber |    | | | 
 | LiH Absorber    | | | | 
 | Quench Protection and Monitoring    | | | | 
 | 

 h2. Detectors 

 | 
 | *Task* | *Sub Task* | *Owner* | *Notes* | 
 | CKOVs | | Cremaldi | | 
 | TOFs | | Bonesini | | 
 | Tracker | | Adey / Dobbs / Uchida | Detailed plan in place, needs integrating with main MICE schedule, see http://micewww.pp.rl.ac.uk/documents/85 | 
 | KL | | Bogolimov | | 
 | EMR | | Blondel | | 
 | 

 h2. Hall and Infrastructure 

 * Hall Services 

    * Neutron Monitor 
    * Oxygen depletion alarm 
    * PPS 
    * Clean (what standard?) 
    * Surveys 
 * PRY 
 * Cooler Compressors 
 * Vacuum System 
 * Power Systems  

 h2. DAQ 

 * DATE 
 * Run Control Interface 
 * Digitisation boards (-> FPGA system) 

 h2. Online Computing 

 * Online Monitoring 
 * Online Reconstruction 
 * Data storage and movement 

     * UPS 
     * RAID systems 
     * Data mover 
 *    Controls and Monitoring 

     * Run Control 
     * Alarm handler 
     * Environment readout 
     * Webcams 
     * DS 
     * Target 
     * Proton absorber 


 h2. Offline Computing 

 * Full reconstruction chain with all detectors 
 * Global fits 
 * Data quality checks 
 * Automated grid batch processing