1. Status of the AWAKE Control System Edda Gschwendtner, Janet Schmidt, Marine Gourber-Pace, Roman Gorbonosov, Peter Sherwood AWAKE Technical Board, 27 January 2016 1

2. Outline Overview of the CERN Control System Specifications for the AWAKE Experiment How is it done for AWAKE Responsibilities for the Experimental Part Open Issues 2

3. CERN Control SW Layers 3 HW Equipment Control room AWAKE tunnel

4. 4 HW Equipment: Magnets, power converters, beam instrumentation, vacuum, RF system,… Control room AWAKE tunnel Control System Beam Lines CERN standard

5. Interlock System There are different interlock systems in AWAKE: three of them interlock the proton extraction from SPS 1.BIC - hardware interlock system (used for vacuum valves, plungers, laser beam dump upstream of the plasma cell) 2.WIC – warm magnet interlock system 3.SIS - software interlock system (used for example to stop the next SPS extraction if proton beam drifts to close to the laser merging mirror). 4.Local laser interlock - a software interlock (used to interlock the laser to shoot onto BI-BTV screens with full power). 5

6. Specifications See EDMS 1458874, previous TBs Logging: All data of the beam lines and the experiment must be stored in the CERN system. 1.CERN equipment: under responsibility of CERN, follows CERN standards  FESA classes… 2.HW equipment from the institutes and SW developed by CERN (FESA) OTR, plasma cell temperature probes…  tbc 3.HW and SW from institutes (standalone control system, but data to be logged in CERN system) Laser, plasma cell Fixed displays are required for monitoring the performance of the accelerator and the experimental equipment. – Beam line equipments follow CERN standard – Experiment equipment: want to derive data before going to FD  needs new SW Graphical User Interfaces (GUIs): – Existing GUIs for beam line equipment – Adapt existing GUIs for experiment equipment – New GUIs for experiment equipment Experiment Event: – Information relevant to an experiment prepared and collected on an ‘experiment computer’. – Institutes provide relevant parameters, event file and analysis frame. 6

7. Requirements The current requirements for the control system are summarized in the EDMS document https://edms.cern.ch/document/1528713/1 https://edms.cern.ch/document/1528713/1 – With: Hardware, how it will be controlled, who is responsible, which interfaces will be used, interlocks needed 7

8. 8  HW Equipment  Control room AWAKE tunnel AWAKE Control System Integrator Experiment GUIs Beam Lines, electron source, part of the experimentExperiment, laser Local PCs CERN SW ResponsibilityInstitute’s SW Responsibility FESA file reader Event Builder

9. 9  HW Equipment  Control room AWAKE tunnel AWAKE Control System Integrator Experiment GUIs Beam Lines, electron source, part of the experimentExperiment, laser Local PCs CERN SW ResponsibilityInstitute’s SW Responsibility FESA file reader Event Builder  HW Equipment 

10. Responsibilities of – CERN equipment groups (BI/STI/RF/EPC/OP…) – Institutes – BE-CO No decision taken yet  dashed lines Who Does What? 10

11. Laser- Line CERN-ControlsMiddleWare (CMW) GUI / MonitorFixed DisplayTIMBER Control (Cards/Boards) (FESA) GUI / Monitor OASIS Working Sets Institutes CERN equip. groups BE-CO SISLogging ServiceEvent Builder Front End Layer Business Layer Presentation Layer Laser Line 11 Integrator

12. Open Issues: Laser Line Graphical User Interfaces Interlock system together with laser 12

13. Laser CERN-ControlsMiddleWare (CMW) GUI / MonitorFixed DisplayTIMBER FESA File Reader GUI / Monitor OASIS Working Sets Institutes Integrator SISLogging ServiceEvent Builder Front End Layer Business Layer Presentation Layer CERN equip. groups BE-CO Laser 13 Local PC Fast scope

14. Open Issues: Laser There is no  specific documentation on EDMS about the local laser control system and interlock (see action from last TB) –  Define interlock system together with laser beam line. 14

15. Plasma Cell CERN-ControlsMiddleWare (CMW) GUI / MonitorFixed DisplayTIMBER FESA File Reader Local Control PC Control Temp. Sensors (PVSS) GUI / Monitor OASIS Working Sets Institutes Integrator SISLogging ServiceEvent Builder Front End Layer Business Layer Presentation Layer CERN equip. groups BE-CO Plasma Cell Fast scope, Vacuum Valves + plungers 15

16. Open Issues Plasma Cell Temperature Probes: –  Define details of works shared between MPP and BE-ICS Plasma cell ends: – Valves/plungers included in Vacuum control system 16

17. OTR/CTR Electr. spectrometer CERN-ControlsMiddleWare (CMW) GUI / MonitorFixed DisplayTIMBER FESA File Reader Remote f. Fast Scope Control (Cards/Boards) (FESA) GUI / Monitor OASIS Working Sets Institutes Integrator SISLogging ServiceEvent Builder Front End Layer Business Layer Presentation Layer CERN equip. groups BE-CO OTR/CTR 17

18. Open Issues: OTR/CTR Proposal of CERN to integrate the MPP hardware into the CERN control system – BI for motors and streak camera – STI for digital camera (  tbc!)  Baseline for OTR  to be decided for CTR (this week!) – Alternative: local control system with all HW controlled locally and logged via FESA File reader.  Any special plans for GUIs? –  Who will provide this? 18

19. Open Issues: Electron Spectrometer Camera control: – CERN standard with BE-BI? – Peter’s File Reader? 19

20. Laser-Line Plasma Cell OTR/CTR Electr. spectrometer Laser CERN-ControlsMiddleWare (CMW) GUI / MonitorFixed DisplayTIMBER Logging Service Control (Cards/Boards) (FESA) FESA File Reader Local Control PC Remote f. Fast Scope Control Temp. Sensors (PVSS) Control (Cards/Boards) (FESA) GUI / Monitor OASIS Working Sets Institutes Integrator SISEvent Builder Front End Layer Business Layer Presentation Layer CERN equip. groups BE-CO AWAKE Control System Fast scope, Valves/Plungers 20 Local PC Fast scope

21. OASIS OASIS (Remote Fast Scopes) requirements well defined. – CERN standard system. – Used for experiment. 21

22. Open Issues ALL equipment owners:  give detailed lists of equipment, channels, values to Marine  With specification for Logging, Fixed Displays, Generic Applications (OASIS, Working Sets) and SIS 22

23. Example (CNGS) of Detailed Specifications 23 Logging Data required for CNGS beam commissioning Updated 29 November 2005 TypeGroupNameNumber of signalsSignal descriptionData formatAcquisition time BEAM POSITION MONITORS BPCEAB/BDIBPCE418011H positionvalueE - 25ms BPKAB/BDIBPK.4000993H + V position + intensityvalueE BPK.4002073H + V position + intensityvalueE BPK.4003073H + V position + intensityvalueE BPK.4004073H + V position + intensityvalueE BPKGAB/BDIBPKG.4124493H + V position + intensityvalueE BPGAB/BDIBPG.4101073H + V position + intensityvalueE BPG.4102053H + V position + intensityvalueE BPG.4104053H + V position + intensityvalueE BPG.4105053H + V position + intensityvalueE BPG.4107053H + V position + intensityvalueE BPG.4108053H + V position + intensityvalueE BPG.4110053H + V position + intensityvalueE BPG.4111053H + V position + intensityvalueE BPG.4113053H + V position + intensityvalueE BPG.4114053H + V position + intensityvalueE BPG.4116053H + V position + intensityvalueE BPG.4117053H + V position + intensityvalueE BPG.4119053H + V position + intensityvalueE BPG.4120053H + V position + intensityvalueE BPG.4122113H + V position + intensityvalueE BPG.4123213H + V position + intensityvalueE BPG.4124243H + V position + intensityvalueE BPG.4124443H + V position + intensityvalueE BEAM PROFILE MONITORS BTVAB/BDIBTV418374H+V profiles & H+V rmsArray (100)E BTV418954H+V profiles & H+V rmsArray (100)E BTV.4001054H+V profiles & H+V rmsArray (100)E BTV.4002224H+V profiles & H+V rmsArray (100)E BTV.4003434H+V profiles & H+V rmsArray (100)E BTV.4104064H+V profiles & H+V rmsArray (100)E BTV.4107064H+V profiles & H+V rmsArray (100)E BTV.4110064H+V profiles & H+V rmsArray (100)E

24. Example Fixed Display 24

25. Example Fixed Display LHC RF System 25

26. 26 Laser dump SPS protons Laser p Proton diagnostics BTV,OTR, CTR Example AWAKE FIXED DISPLAY (Phase 1) l p Laser dump Laser dump Laser shutter T1T2T3T5T6T7T8T9T4T10 P1P1 P2P2 N_Plasma Pop up if switched on SMI Diagnostic OTR CSR Marlene CCD Cross section Values Diode Signal Values BTV1BTV2 BPM meas  To be defined in details now!

27. Example GUI BTV 27

28. Example Working Sets 28 BE-CO standard Used for e.g. magnets, RF,…  Define which equipment needs Working Sets (e.g. spectrometer magnet, sec. beam quadrupoles,…)

29. Provides flexible means for data extraction, visualization and correlation for monitored and recorded beam and equipment data. Online storage (Oracl DB, RAC-based) Example TIMBER (Logging Service) 29

30. Summary Today good understanding of control system for the AWAKE experiment. Specification, definition, responsibilities are now for most of the equipment well defined. Still some open issues – Link/responsibilities between CERN and institutes must be defined in the next weeks! – Start with Event builder Very short time scale! – HW commissioning: April – June 2016 – Beam commissioning: July – September 2016 – Physics: October – November 2016 30