28 August 2002Paul Dauncey1 Readout electronics for the CALICE ECAL and tile HCAL Paul Dauncey Imperial College, University of London, UK For the CALICE-UK.

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Presentation transcript:

28 August 2002Paul Dauncey1 Readout electronics for the CALICE ECAL and tile HCAL Paul Dauncey Imperial College, University of London, UK For the CALICE-UK groups; Birmingham, Cambridge, Imperial, Manchester, UCL

28 August 2002Paul Dauncey2 Beam test with: Si/W ECAL Scintillating tile and/or digital HCAL Data taking in 2004: O(10 2 ) configurations (HCAL  beam energies  particle types  preshower  incident angle …) O(10 6 ) events per configuration CALICE aims

28 August 2002Paul Dauncey3 ECAL readout electronics requirements The UK is concentrating on the ECAL electronics. The requirements are: Digitise data from all 9720 channels Allow pedestal and noise measurements for all 14 bits dynamic range, 10 bits precision Needed so digitisation noise does not limit precision 180 ns trigger latency, 10 ns trigger maximum jitter Set by peaking time of CR-RC circuit in very-front-end chip O(100Hz) sustained event rate, O(1kHz) peak rate. To acquire O(10 8 ) events would take around one month of continuous data taking (more in reality). Short timescale so system must be simple, flexible and robust

28 August 2002Paul Dauncey4 Overview of readout system Need custom-built system as we found no available electronics which satisfied the requirements: A single VME crate 15 “readout boards” Contains all front-end handling and digitisation electronics Each handles two layers of ECAL = 648 channels 1 “trigger board” Simple board to allow VME control Trigger and clock distribution via customised VME backplane

28 August 2002Paul Dauncey5 Overview of readout board One master FPGA Handles VME interface Distributes clock and trigger Distributes configuration data and collects event data Six slave FPGA’s One per cable, to handle cable control signals and ADC sampling Each slave runs independently and contains identical firmware

28 August 2002Paul Dauncey6 Readout board features Very-front-end chip multiplexes 18 channels to one output line 648 channels require 36 ADC’s per readout board 16-bit, 500 kHz ADC’s Extra bits for robustness; allows some loss during range matching, etc. Sample 18 channels plus overheads takes  50  s or 5% of allowed 1ms event time at 1 kHz Serial readout from ADC during sampling time; minimal extra delay Trigger distribution to very-front-end chips via programmable delay on 100 MHz clock 10 ns steps; gives  0.15% offset from peak so compatible with 10 bits precision Built-in testability and flexibility All signal and ADC timing configurable via VME DAC output can loopback to ADC input Configuration data can be played back through event data path

28 August 2002Paul Dauncey7 Data readout speeds VME access speed around 30 Mbytes/s Readout board has no multiple event buffering capability For 1 kHz rate, need event sizes below 30 kBytes per event Readout boards will do no zero suppression; 9270 channels gives 19 kBytes per event HCAL’s (both options) will be around 3 kBytes per event Beam monitoring and trigger data less certain but will probably be around 1 kByte per event Total of 23 kBytes per event is tight but not impossible Readout board VME interface will be optimised for speed; DMA transfers, asynchronous VME access, etc. Consider using two VME crates in parallel; i.e. two VME-PCI bus converters to same PC. PCI bus rate is 80 MBytes/s so can double VME access speed. However, not clear if two bus converters will operate straightforwardly together in this mode.

28 August 2002Paul Dauncey8 Investigating use of ECAL readout boards for tile HCAL: 1500 channels, i.e. 15% of ECAL 3 kBytes per event with no zero suppression 16-bit digitisation more than ample for requirements Very-front-end chip equivalent not yet specified Peaking time, etc. not defined; configurable timing means differences from ECAL are easy to handle Number of channels multiplexed per ADC not defined so number of extra readout boards needed unknown Calibration circuit not defined ECAL and tile HCAL groups working together to come to a common solution for the cable I/O signals to the readout board Trigger distribution and DAQ simplified if common boards But not possible for digital HCAL so need different solution there Tile HCAL

28 August 2002Paul Dauncey9 Status and schedule Proposal is not yet funded; being considered this fall Working on paper design up to that time No equipment funds needed before 2003 Schedule if approved: Finalise interfaces by October 2002 Prototype design complete by January 2003 Prototype fabricated by March 2003 Prototype testing complete by June 2003 Production redesign complete by July 2003 Production fabrication complete by September 2003 Production testing complete by January 2004

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