Maurice Goodrick, Bart Hommels108-10-2007 EUDET Annual Meeting, Ecole Polytechnique, Paris EUDET DAQ and DIF DAQ overview DIF requirements and functionality.

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Presentation transcript:

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris EUDET DAQ and DIF DAQ overview DIF requirements and functionality DIF-LDA link DIF implementation

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris DAQ architecture Slab hosts VFE chips DIF connected to Slab LDA servicing DIFs LDAs read out by ODR PC hosts ODR, through PCIe C&C routes clock, controls DIF: Detector InterFace LDA: Link/Data Aggregator ODR: Off-Detector Receiver C&C: Clock & Controls PCIe: PCI-Express

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris ODR and LDA ODR is a commercial FPGA board with high speed serial interfaces and a PCIe host bus (Virtex4-FX100, PCIe 8x, etc.) Customised firm- and software: DMA driver pulls data off the onboard RAM, writes to disk Performance studies & optimisation ongoing 1 st Prototype is (also) a commercial FPGA board with customised firmware and hardware add- ons: –High-bandwidth link to ODR –Many links towards DIFs ODR is the interface between DAQ and the ‘PC-world’ LDA interfaces many DIFs with few high-speed links See Marc Kellys talk

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris Clock & Controls Distribution C&C unit provides machine clock and fast signals to ODR, LDA (and DIF?) Clock jitter requirement seems not outrageous (at the moment) Fast Controls: encoded commands on the LDA-DIF link Slow Controls/Configuration: transfers on LDA-DIF link Low-latency fast signals: distributed ‘directly’

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris Now…. let’s have a closer look at the DIF

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris DIF Functionality Receive, regenerate and distribute clocks Receive, buffer, package and send data from VFE to LDA Receive and decode incoming commands and assert corresponding signals Receive, decode and store block transfers Control power pulsing and provide watchdog functionality Control the DIF-DIF redundancy connection Provide an USB interface for stand-alone running and debugging …..on top of that: all the things we did not think so far

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris Draft DIF block diagram Lots of controls…. probably incomplete..

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris LDA-DIF link requirements Byte-wide transfers in robust encoding LDADIF Data: large block transfers from DIF to LDA Fast control commands: immediate action ‘Slow’ control command = block transfer + fast control command Clock: provide machine clk + synchronisation

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris LDA-DIF link LDA-DIF link: Serial link running at multiple of machine clock 50Mbps (raw) bandwidth minimum robust encoding (8B/10B or alike) anticipating 8…16 DIFs on an LDA, bandwidth permitting LDAs serve even/odd DIFs for redundancy

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris LDA-DIF physical interface LDA-DIF link physical form factor: Differential signals on shielded twisted pairs Few single-ended control lines HDMI connectors and cabling: commercially available in high quality clock data control spare data spare control

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris LDA-DIF link protocol ideas Fast commands: 8bit Configuration and Event data transfers: [cmd][packet length][start address][byte 0]..[byte N] Example: VFE configuration consists of a block transfer of configuration data + a fast command to load the config. data into the VFEs upstream example robustness issues: acknowledge cmd rx: send cmd count upon cmd completion: send back cmd done keep track of cmd count link idle: send status bits

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris DIF-DIF link Redundancy against loss of LDA link Provides differential signals: –Clock in both directions –Data and Control connections –Two spares: one each direction Plus two single-ended control lines Single LDA-DIF link bandwidth sufficiently large for data of two DIFs

Maurice Goodrick, Bart Hommels EUDET Annual Meeting, Ecole Polytechnique, Paris DIF implementation The Slab is an integral part of the detector The LDA and ODR are transparent wrt detector type The DIF and its interface to the slab is detector-specific Large parts of the DIF firmware can/should/must be generalised DIF hardware should support firmware to profit from common developments DIF working group: AHCAL, ECAL, DHCAL + DAQ DIF wg to address common problems and share knowledge, experience, and VHDL code