1 On- and near-detector DAQ work for the EUDET calorimeters Valeria Bartsch, on behalf of CALICE-UK Collaboration.

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Presentation transcript:

1 On- and near-detector DAQ work for the EUDET calorimeters Valeria Bartsch, on behalf of CALICE-UK Collaboration

2 ILC Calorimetry will use particle flow algorithms to improve energy resolution => 1cmx1cm segmentation results in 100M channels with little room for electronics or cooling Bunch structure interesting: –~200ms gaps between bunch-trains –Trains 1ms long, 300ns bunch spacing Triggerless => ~250 GB of raw data per bunch train need to be handled Time structure of bunches Trains of bunches Individual bunches M. Anduze ILC Calorimeter “Final” Detector ECAL HCAL 1 st ECAL Module (module 0) ECAL Prototype

3 Utilise off the shelf technology –Minimise cost, leverage industrial knowledge –Use standard networking chipsets and protocols, FPGAs etc. Design for Scalability Make it as generic as possible –exception: detector interface to several subdetectors Act as a catalyst to use commodity hardware  build a working technical prototype (to verify assembly, mechanical structure) and DAQ system to be used for prototype by 2009 Objectives

4 EUDET prototype (example AHCAL) Typical layer 2m tiles 38 layers tiles FEE: 32 ASICs (64-fold) 4 readout lines / layer Instrument one tower (e.m. shower size) + 1 layer (few 1000 tiles) EUDET: Mechanical structure, electronics integration: DESY and Hamburg U 3 different detector types: ECAL, AHCAL, DHCAL study of full scale technological solutions

5 Link Data Aggregator (LDA) Detector Interface (DIF) Detector Unit Off Detector Receiver (ODR) P. Göttlicher, DESY DAQ architecture DAQ software

6 DAQ architecture LDA Host PC PCIe ODR Host PC PCIe ODR Detector Unit DIF C&C Detector Unit DIF Detector Unit DIF Detector Unit DIF Storage 1-3Gb Fibre Mbps HDMI cabling m 0.1-1m Detector Counting Room covered in Tao’s talk covered in Valeria’s talk

7 7 Detector Interface (DIF) status M.G, B.H, Cambridge Two halves – Generic DAQ and Specific Detector –3 detectors: ECAL, AHCAL, DHCAL –1 DAQ Interface! Transmits configuration data to the Detector Unit and transfers data to downstream DAQ Designed with redundancies for readout Signal transmission along ECAL test slab and ECAL slab interconnects being tested LDA Detector Unit DIF Detector Unit DIF Detector Unit DIF Detector Unit DIF

8 Detector Interface (DIF) status keep DIF simple hence predictable (no local ‘memory management’, for example) DIF proto: large Xilinx FPGA, to be slimmed down for final DIF board is delivered M.G, B.H, Cambridge

9 ECAL slab interconnect DIF ASU[0] geometry investigated (multi-rows preferred) technology: conductive adhesive vs. flat flexible cable (FFC), with preference to FFC soldering technologies are being investigated (Hot-Bar soldering, laser soldering, IR soldering) M.G, B.H, Cambridge

10 Link Data Aggregator (LDA) Hardware: PCBs designed and manufactured Carrier BD2 board likely to be constrained to at least a Spartan model Gigabit links as shown below, 1 Ethernet and a TI TLK chipset USB used as a testbench interface when debugging M.K., Manchester

11 Link Data Aggregator (LDA) Firmware: Ethernet interface based on Xilinx IP cores DIF interface based on custom SERDES with state machines for link control. Self contained, with a design for the DIF partner SERDES as well Possible to reuse parts from previous Virtex4 network tests No work done on TLK interface as of yet 1 Link Data Aggregator can serve 8 Detector Interfaces Might not be enough for DHCAL => 2nd prototype will be designed M.K., Manchester

12 Summary Module testbeam for the EUDET module in 2009 prototypes of all hardware components (Detector Interface, Link Data Aggregator and Off Detector Receiver) built and tests started  Debugging and improving of each component before putting the components together

13 Backup slides

14 C&C unit provides machine clock and fast signals to 8x Off Detector Receiver/Link Data Aggregator. Logic control (FPGA, connected via USB) Link Datas Aggregator provides next stage fanout to Detector Interfaces –Eg C&C unit -> 8 LDAs -> 10 DIFs = 80 DUs. Signalling over same HDMI type cabling Facility to generate optical link clock (~ MHz from ~50MHz machine clock) Board is already designed, will be build soon LDA Host PC PCIe ODR C&C Host PC PCIe ODR Machine Run- Control Clock and Control (C&C) board M.P., UCL

15 Single Event Upset (SEU) Study finalised, accepted by NIM SEU cross section depending on FPGA type traversing particle (n,p,  ) energy of traversing particle => need to study particle spectra V.B, M.W. UCL

16  (from beamstrahlung) -> hadrons QCD events  SEU rate of 14 min-12hours depending on FPGA type for the whole ECAL, needs to be taken into account in control software  fluence of 2*10 6 /cm per year, not critical  radiation of 0.16Rad/year, not critical  occupancy of 0.003/bunch train (not including noise) Main backgrounds: (tt, WW and bhabha scattering also studied) Single Event Upset (SEU) Study V.B, M.W. UCL

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