1. Muon Piquet Training V.0 W Baldini, E.Furfaro, O. Maev June 11-th 2015

2. Intro - Disclaimer This presentation is not intended to be a complete description of the system but a guide, possibly simple, to the most-likely-used tools of the Muon System Most of You were Piquet during Run I, in this case this could be a refresher course. It’s of paramount importance that, for the first piquet shift, you foresee a week of overlapping with the previous piquet, doing things “hansd on” is much more efficient than any training Run just started, so there is not yet a list of “typical” problems, every day is a new day... Suggestions on how to improve the Piquet training are VERY welcome! 2

3. Muon System DAQ in a Nutshell 3

4. 4 Each station M1-M5 is divided in four quadrant Q1-Q4, in clock-wise order looking the detector from behind. Q1, Q2 on A-Side Q3, Q4 on C-Side Interaction point C sideA side Q4 Q3Q3 Q1 Q2 M2 M3 M4 M5 M1 Muon Numbering

5. 5 The Muon Detector DAQ and Control electronics chain DIALOG is configured and read back by SB (Service Board). Service Boards are placed in an off detector rack. The same rack houses the PDM board (Pulse Distribution Module): it generates pulses in a chosen phase with the LHC machine clock for the time alignment of the muon system. Front-end Boards (CARDIAC): 2 ASIC -CARIOCA (ASD chip) -DIALOG (logic, timing and monitoring) (logical channels) The IB (Intermediate Board) make logical combinations of the front-end channels (logical channels) where the combination is not possible at DIALOG level The ODE (Off Detector Electronic Board) receive signals from the FEBs (or IBs), synchronize and displace them to the L0 trigger. Upon reception of a trigger signal data are sent to the TELL1 board and from here to the DAQ

6. The ECS: Experimental Control System 6

7. The Experimental Control System 7

8. Status and Color codes 8 Status of various parts is defined with colors The access/ownership of that part is shown with a lock, also with a color code

9. 9 ECS Steps

10. The Muon ECS 10

11. MUON Main Control Panel: Musides 1.How to open it: after logon to the ui (user interface) cluster: – G:\online\ecs\Shortcuts311\MUON\MUSIDES\MUSIDES_UI_FSM (windows) – sh /group/online/ecs/..... MUSIDES_UI_FSM.sh (Linux) 2.From this panel You can reach all the controls and settings of the Muon System. The main “DOMAINS” are: – DCS: LV, GAS, TEMP. – HV: CAEN, PNPI, GEM – DAI: Electronic Racks – DAQ: main control branch System Configuration Data Flow – Runinfo – HLT – Storage – Monitoring – TFC Muon Specific Common Resources 11

12. Muon Main ECS Structure DCS: – LV – GAS – TEMP High Voltage Oleg’s Talk DAQ Other stuff that usually doesn’t depend from us. In case of real need You can refer to: – Clara Gaspar: 160421 (almost everything!) – Markus Frank: 162100 (Monitoring) – Federico Alessio: 160935 (TFC) We monitor it but is not under our direct control, Gas piquet: 162516 12

13. DCS : Detector Control System The “Slow Control” system: allows You to manage mainly the powering of the apparatus through it’s Low Voltage system. It follows the general structure: Side -> Quadrant -> Station -> Hardware Type The controlled Hardware is: – ODE: you can control (e.g. switch ON/OFF) a FULL CRATE of ODEs, for that specific detector zone – SB_PDM: Same as above for Service Boards and the PDM board (are in the same crate) – FEE: You can switch ON/OFF the chambers of that specific detector zone from here (all the FEBs) ALWAYS THINK TWICE BEFORE SWITCHING OFF SOMETHING, it could just add more problems to the one you are trying to solve.... 13

14. DCS : Detector Control System LV to LHCb is generally provided through Wiener Marathon LV-PS: 12 channels output. Each of the panel below control 2 Marathons: one for the FEE and one for the Electronics (ODE, SB etc..) This is how the Marathon’s panel looks like for Q1M23 (for example). Connection Status: if is not green it means that we cannot communicate with the PS. Check that the RCM (Remote Control Modules) in B1 are ON and the ethernet switch OK Selector for FEE or ODE/SB/IB Marathon monitor 14

15. DAQ: General structure The DAQ is the main part of the ECS, it allows You to configure, reset, check...the readout: ODE, FEBs, and configuration system: SB, ELMBs The hierarchy structure is as usual: Side -> Quadrant -> Station -> Region -> HU (ODE) -> CMB -> TELL1 (DAQL1) What a piquet is (usually) required to do is to check the status of the R/O, especially the configuration of the CMBs Through the hierarchy you can reach each panel of the ECS, but there are now “shortcuts” to reach the most useful panels: Chamber monitor SB/ELMBs monitor In the next slides we’ll see how to start them 15

16. DAQ: The Chambers Monitor The fastest way to check at a glance the status of the FEBs is to use the Chamber Monitor Panel You can open it from the main DAQ panel (once you click, it takes a few seconds, please be patient...) 16

17. DAQ: The Chambers Monitor This panel is a very useful tool to monitor and act on the Chambers

18. 3. Links to other panels

19. Right click button on the rectangles allows us to open the single chamber panel or the Servce Board panel 3. Links to other panels

20. 4. The status tools

21. Chamber selection buttons

22. Tools buttons and the color code 4. The status tools

23. The warning icon 4. The status tools It is shown in case of the result of the selected tool is not Green, Very Light Green, Light Green or Dark Green according to the tool color code It is shown in case of the result of the selected tool is not Green, Very Light Green, Light Green or Dark Green according to the tool color code

24. We can choose a tool by clicking on the radio box button: the corrispondig start/stop button will be coloured and the others are disabled. The rate counters give us informations about the noise of the chamber 4. The status tools

25. The fix tool allows the user to set the threshold for one or more noisy chambers automatically 4. The status tools

26. This tool chek if the selected chamber are properly configured 4. The status tools

27. This tool chek if the selected chamber are the FEBs properly communicating 4. The status tools

28. FEB communication status: MUST be all GREEN. If RED you will not be able to configure that FEB Control cable: it controls the corresponding group of FEBS The most important FEB parameter for the Piquet is the THRESHOLD: It’s expressed in Register units (r.u) corresponding to 2.35mV its value can vary from 0 to 255 r.u. values are very different for different chamber types but if 110 is suspect... (very rough rule of thumb!) The 2 most probable actions you’ll have to do (e.g. a noisy channel) are: Count for 1 sec set a different threshold See video DAQ: The Single Chamber Panel 28

29. DAQ: The Service Boards Monitor The fastest way to check at a glance the status of the SBs is to use the Service Boards Panel You can open it from the main DAQ panel 29

30. SB Monitoring Panel 30 ELMB (4 per SB): GREEN OK, communicating YELLOW OK: pre-operational GREY NOT OK, no communication with chambers The SB/ELMB is the hardware interface between DAQ and the Chambers for the CONFIGURATION only The programs that manage the configuration data are called OPCs, now running on Credit Card PCs (CCPCs) Usually if groups of ELMBs are not communicating the problem is in the OPCs... but also single ELMB can be not ok (see next slides)

31. SB Panel LEFT Click To (try) to recover the ELMB you can to power cycle the single ELMB by selecting it from the panel

32. How to Act on OPC servers There is an OPC monitor panel in: – G:\online\ecs\Shortcuts311\LHCb\LBECS\LBECSINFO_UI_FieldbusMonitor (windows) – sh /group/online/ecs/... /LBECSINFO_UI_Fieldbus Monitor.sh (Linux) 32 MUON OPCs RIGHT Click OPCs NOT Running (to be restarted!)

33. Present list of possible issues (and solutions) So far we had few systematic issues: 33

34. Glossary: ODE: is the Heart of the Muon DAQ, it collects data from the detector and send them to the TELL1s and L0trigger. It consist of the Motherboard itself on which are mounted 24 SYNCs. See https://lbtwiki.cern.ch/bin/view/MUON/ODE and https://lbtwiki.cern.ch/bin/view/MUON/SYNC for more details. SB: Service Boards, its task is to provide communication with the FEBs. It is also made of a motherboard with 4 ELMBs mounted on it. See also: https://lbtwiki.cern.ch/bin/view/MUON/ServiceBoard and https://lbtwiki.cern.ch/bin/view/MUON/ELMB SYNCs ODE Board Service Board ELMB 34