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Timepix Telescope Plans Proposed Work Packages for the Timepix Telescope Richard Plackett CERN, 8 th December 09.

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Presentation on theme: "Timepix Telescope Plans Proposed Work Packages for the Timepix Telescope Richard Plackett CERN, 8 th December 09."— Presentation transcript:

1 Timepix Telescope Plans Proposed Work Packages for the Timepix Telescope Richard Plackett CERN, 8 th December 09

2 -2-Outline Telescope Outline Timeline and Dependencies Technical Details and Progress More Technical Details Further Technical Details Questions?! I will discuss the DUT systems in far less depth than they deserve… Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

3 -3- Telescope Overview Completely compatible with AIDA proposal Tasks to complete the Timepix Telescope Timescale : To work in April Telescope Arms RELAXD with Timepix (NIKHEF/PAN) Interface Board New Chip Boards Mechanics Services – PSU, timing outputs, cooling PMTs/Scintillators Pixelman/other software (Prague) Timing Unit FPGA Development Board Enclosure (NIM) Programmable Switch? Software Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

4 -4- Very Parallel Project Independent Packages (i.e. will work with current telescope) RELAXD Readout Timing Unit New Chip Boards Pixelman software updates Coupled Packages (need other parts to be useful) Mechanics needs RELAXD Services heavily linked to Mechanics Scintiallators linked to Mechanics and Timing unit Timing unit software linked to timing unit Programmable switch linked to RELAXD and Timing Unit DUT(s) Mechanics Electronics and Readout Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

5 -5- Timing and Responsibility PackageTimeDepends on..Who Arm~3 months RELAXD2 monthsNIKHEF Interface Board2 monthsRELAXDCERN (Medipix) Chipboard2 monthsCERN (Medipix) Mechanics2 monthsRXD, Int, Serv Services2 monthsRXD, Int, Mech Pixelman1 monthCERN (Medipix) PMTs2 weeksMech, Timing Timing Unit~3 months FPGA Program3 months Enclosure2 weeksFPGA program Software2 monthsFPGA program DUT SystemsSantiago Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

6 -6-Timeline PackageDecJanFebMarch ArmAssemble RELAXD Interface BoardBegin Design Finalize Design ProductionDelivery ChipboardDesignProductionDelivery MechanicsSpecifyDesignProductionDelivery ServicesSpecifyDesignProductionDelivery PixelmanWorking Complete PMTsPurchase Timing Unit FPGA ProgramSpecifyProgram Test EnclosureSpecifyPurchaseConstruct SoftwareSpecifyProgram Test Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

7 -7- Timepix Telescope Overview RELAXD Timing Unit DUT+ readout RELAXD Timing Signals collected by a timing unit provide flexible software synchronisation Telescope arms and timing unit read back to PC via Ethernet Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

8 -8-Arms RELAXD Interface Power Cooling Photomultipliers Enclosure – light shading but not light tight Local 12V Power Supply Exchange of NIM and ethernet signals New Chipboards New Interface Board Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

9 -9- Timing Unit Provides Syncronisation signals depending on operation mode Sends and Records shutters and scintillator coincidences Used to integrate timing of external devices Will drive Data back over Ethernet Control will eventually be integrated into Pixelman plugin Could be combined with programmable switch into a single box or module Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

10 -10- Flex or Cable link to RELAXD interface board ‘Finger’ Board PCBs Data IO – Backward compatibility with current chipboards SCSI connector Link to current MUROS and USB systems for testing Long distance rad hard link to a readout system for SPS Robust Samtec connector incorporating HV Low mass ‘finger’ to reduce scattering with chip cutout Accurate mounting holes CERN rad hard power regulators Removable test pulse mezzanine board 80mm? Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

11 -11-RELAXD 150Hz quad readout under development by NIKHEF Medipix2 and Medipix3 readout demonstrated Timepix readout and rate optimisation underway External shutter working Prototype at CERN Power Regulator Board generates digital analog and sensor voltages from 12V supply Interface Board/Quad Readout Board with Ethernet Power Regulator Board Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

12 -12- Interface and Flexible Connectors RELAXD designed to read a Quad not 4 independent chips Need an interface and short flexible links Needs to be completed rapidly as potential problems with signal transmission need to be overcome CERN group will take this on as very coupled with the chipboard design. Interface Board Readout Board Power Regulator Flexible Couplings Timepix Chip Boards Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

13 -13- ARM Mechanics Required to mount, protect and position four telescope planes Chipboards, RELAXD, Services and PMTs / Scintillators need to be integrated Chipboard mounting needs to be accurate Mounting to external hardware to be as universal as possible Needs to be relatively robust External alignment targets and references to chip position (clear plastic targets?) Needs to shade from light but not be ‘dark’ Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

14 -14- Services (electronics etc for Arms) The Arm Mechanics need to support some services Cooling – fan cooling will require airflow, possibly temperature monitor and external port? Timing Signals – one or more timing signals from chipboards/interface routed to external port Trigger/shutter signals to RELAXD will require external ports Power supply 240V mains to 12V dc for RELAXD external power input port Ethernet – RELAXD ethernet may need to be rerouted to external port depending on design of mechanics Lots of small things heavily dependent on RELAXD and Mechanics Not all a strongly required but will make it into a nice package Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

15 -15- PMTs + Scintillators Each arm ought to be capable of mounting a PM pair to provide fast timing and ‘triggers’ Will take HV from NIM crate and send standard PM signals back Coincidence area to be compatible with Telescope Active area Relatively little work as mostly off the shelf parts Consider making separate mechanics add-on for arms Coupled to mechanics and timing unit (to some level) Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

16 -16- DUT Issues Will require a stage system similar to the current one to rotate and align DUTs Some programming work needed on current system to make it safe to use with various mechanics Mechanics development for new sensors and chipboards Integrating readout for Timepix/Medipix3 based DUTs easy with 3 rd RELAXD board, Beetle based devices will be harder and will make heavy use of timing unit for synchronisation Cold box for irradiated DUTs and integration with arms… Multiple DUTs for fast changeovers as we hope to be running ~100 times faster than last summer… Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

17 -17- Timing Unit FPGA Board Looks possible with FPGA Development board Already purchased Stratix2 with Nios2 embedded processor architecture to drive IP link Need to provide accurate timing information 20ns quite easy, 1ns possible Better than 1ns needs to drive CERN Nino chip (future) Ethernet Readout Eventually will drive shutter signals to control system remotely from pixelman Probably 3 months work to get to working system Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

18 -18- Timing Unit Software Some simple software required to save data received from timing unit for basic operation More advanced software to control modes of system easily should probably be integrated to Pixelman as a plugin Need to define modes of operation early to ease development... Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

19 -19- Pixelman Update Pixelman is being updated by Medipix group to better handle multiple chips Display – docking multiple previews and controls Operating system compatibility – Windows, Mac, Linux Data File Structure – fewer files for each run Moving to RELAXD is also a benefit as only 2 systems to start Some specific Testbeam Plug-in would be helpful but not essential Work is well underway now and is being finalised and tested Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

20 -20- Programmable Switch or PC ? It would be beneficial to only run one ethernet cable back to the readout PC in the barracks RELAXD and Timing Unit will probably require a programmable gigabit switch to send data as ethernet protocols are not very advanced Programmable switches like this can be purchased off the shelf but we need to investigate more to ensure this solution would work Would it be better to just have a PC with 4 Ethernet cards in the area as before? Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

21 -21- Question? - Operational Modes There are a number of ways we could run the timing unit, we can process scintillator coincidence data in real time We can drive the shutters with a signal generated by the FPGA We can suppress data outside beam spill We can run for a predetermined number of triggers and close the shutter We can run a burst of triggers and then wait We can run with an external shutter We can program delays and set modes remotely These options give a large number of permutations which need to be discussed What do we want to do with the system? Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes

22 -22-Conclusions There is still a lot to do Many tasks are decoupled from one another Getting the full thing for April will be very hard work At all times we will always have what we had before (and more) We cant go backwards Delivering any of the decoupled systems brings a benefit to the quality of the system and the data. Overview Arms Chipboard RELAXD Interface Mechanics PMTs DUTs Timing Unit Pixelman Data Flow Modes


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