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DAQ Hardware For LS1. IIHE-ULB Gilles De Lentdecker Yifan Yang Erik Verhagen Michael Korntheuer. Overview. Off-detector electronics microTCA environment introduction Brussels activities Opto Hybrid FPGA Board Challenges and possible solution
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DAQ Hardware For LS1 IIHE-ULB Gilles De LentdeckerYifan Yang Erik Verhagen Michael Korntheuer Yifan Yang--- DAQ Hardware for LS1
Overview • Off-detector electronics • microTCA environment introduction • Brussels activities • Opto Hybrid FPGA Board • Challenges and possible solution • Prototype board plan • Summary Yifan Yang--- DAQ Hardware for LS1
Overview • Off-detector electronics • microTCA environment introduction • Brussels activities • Opto Hybrid FPGA Board • Challenges and possible solution • Prototype board plan • Summary Yifan Yang--- DAQ Hardware for LS1
System overview GE2/1 Reference plane GE1/1 Superchamber 15 Column 5 FPGA boards 4 Glib 1 AMC13 Port 8-11 PCIe or customized protocol (GLIBs to AMC13) GLIB GLIB GLIB AMC13/GLIB GLIB Yifan Yang--- DAQ Hardware for LS1
Overview • Off-detector electronics • microTCA environment introduction • Brussels activities • Opto Hybrid FPGA Board • Challenges and possible solution • Prototype board plan • Summary Yifan Yang--- DAQ Hardware for LS1
uTCA developments • We already got : • 1 AMC13 • 1 GLIB v2 • We should get soon: • 6 GLIBs v3 • In Brussels lab: • 3 uTCA crates (2 NAT & 1 Vadatech VT892) • Already built two AMC (w/o FPGA) • A mezzanine with 2 FPGAs • Already some experience with uTCA world (MCH, MMC, IPMI, etc.) • These developments are also valuable for LS1 Yifan Yang--- DAQ Hardware for LS1
Overview • Off-detector electronics • microTCA environment introduction • Brussels activities • Opto Hybrid FPGA Board • Challenges and possible solution • Prototype board plan • Summary Yifan Yang--- DAQ Hardware for LS1
GEM chamber segmentation Opto Hybrid FPGA Board VFAT2 1 2 3 . . . . . Eta partitions A B C Columns Δϕ=10° μTCA Crate (12 slots) Glib AMC13 Glib @3.2 Gbps To CSC system Yifan Yang--- DAQ Hardware for LS1
Space limitation Yifan Yang--- DAQ Hardware for LS1
Large number of signals MOLC 200 4 ways-- potentially more layers are needed Panasonic 160 2 ways-- more signals needed to be shared and 24 VFAT2 Yifan Yang--- DAQ Hardware for LS1
Large number of signals • VFAT2 from 30 to 24, S bits and Dataout differential signals decrease to 432 • MCLK,T1,RSTb are shared by column instead of channel, decrease to 15 • I2C and DACO_V/I keep at 24 • 471 signals in total can be fit into 3 Panasonic 160 2 ways connectors. • By using SN65LVDS386(16 channel LVDS receiver) ,signals on FPGA can be reduced to 249. Yifan Yang--- DAQ Hardware for LS1
High speed link • As GBT Emulator, 4.8 Gbps transceiver is required. • GTX--- 6.6Gbps only in Virtex 6 • GTP--- 3.2Gbps in Virtex 5 and spartan 6 • By using Virtex 6, part of the CSC system firmware can be reused and also possible for emulating GBT link which benefit LS2 design Yifan Yang--- DAQ Hardware for LS1
Possible FPGA Embedded XADC is another advantage Yifan Yang--- DAQ Hardware for LS1
Power and cooling • 1.5V 4A • 3.3V 3A • 15.9W in total • Cooling by attaching metal to air pipe Yifan Yang--- DAQ Hardware for LS1
LHC clock and synchronization • Copper cable is the easiest way to get 40.08MHz LHC clock but too far away • TTC system has to be used • TTCrx+QPLL • Command decoder on opto hybrid • Fixed latency transfer to CSC and Glib Yifan Yang--- DAQ Hardware for LS1
Radiation environment • Snap12 Transmitter: < 1 SEU per year per link • Snap12 Receiver: ~1 SEU per week per link • These typically just affect a single data word • Finisar Optical Transceiver: ~7 SEU/day/link • Typically just affects a single data word • Low rate, less than one error in 3 *1013 bits • FPGA GTX Transceivers: ~3 SEU/year/link • FPGA Block RAMs: ~9 SEU/day/chip • These typically affect a single bit in a single cell • Need to investigate mitigation for FPGA BRAMs • FPGA CLBs: ~6 SEU/day/chip • Need to investigate mitigation for FPGA CLBs Yifan Yang--- DAQ Hardware for LS1
Firmware design Yifan Yang--- DAQ Hardware for LS1
Firmware design • Trigger data readout • Tracking data readout • VFAT2 control • TTC system • Slow control • SEU control Yifan Yang--- DAQ Hardware for LS1
Overview • Off-detector electronics • microTCA environment introduction • Brussels activities • Opto Hybrid FPGA Board • Challenges and possible solution • Prototype board plan • Summary Yifan Yang--- DAQ Hardware for LS1
Prototype board plan Evaluate connector signal integrity and other component(TTCrx,QPLL) Estimate logic resource usage for full system and 3.2Gbps connection Try refreshing firmware and maybe other mitigation methods Yifan Yang--- DAQ Hardware for LS1
Time estimate • Schematic design before April (away for two weeks in February ) from now 1.5 month • PCB design before mid of May 1.5 month • Assembling before June 0.5 month • Firmware design • Reuse RPC design for TTC system 1.5 month • Reuse TOTEM design for VFTA2 control 1 month • Reuse CSC design for trigger data readout 1.5 month • Slow control and SEU control 1 month • Integration of all function module 1 month • Trigger and tracking data receiver 1 month • Segment trigger algorithm implementation 2 month • Communication with AMC13 1 month • DAQ Software design Opto Hybrid board part UTCA part Yifan Yang--- DAQ Hardware for LS1
Overview • Off-detector electronics • microTCA environment introduction • Brussels activities • Opto Hybrid FPGA Board • Challenges and possible solution • Prototype board plan • Summary Yifan Yang--- DAQ Hardware for LS1
summary • Study is ongoing • Prototype design is ongoing • Communication is very important • Suggestions are welcome Yifan Yang--- DAQ Hardware for LS1
Thank you! Yifan Yang--- DAQ Hardware for LS1
Backup Yifan Yang--- DAQ Hardware for LS1
microTCA • Little brother of ATCA (Advanced Telecom-municationsComputing Architecture) • the largest specification effort in the history of the PCI Industrial Computer Manufacturers Group (PICMG) • Offers a flexible, high density, high performance backplane based on serial standards used today (GbE, PCIe, …) • Large effort in CMS to replace VME by microTCA for upgrades Yifan Yang--- DAQ Hardware for LS1
AMC • Advanced Mezzanine Card (AMC) • microTCA is based on the AMC standard initially developed for the ATCA cards. • Up to 12 AMC cards can be inserted into the microTCA backplane • The MCH (MicroTCA Carrier Hub) provides the connectivity between slots • Provides also crate management functions • The system can operate in redundant mode with a second MCH Yifan Yang--- DAQ Hardware for LS1
GLIB (see S. Haas talk https://indico.cern.ch/conferenceDisplay.py?confId=182546) • An evaluation AMC card for bench-top operation or use in a uTCA crate • Expandable via FMC, two mezzanine slots AMC features: Mid-size double-width AMC 4 SFP+ transceiver modules Virtex-6 FPGA with twenty 6.5Gbps transceivers I/O capability can be further en- hancedwith 2FPGA Mezzanines Gigabit Ethernet link to PC for bench-top operation To uTCA backplane 4 SFP+ Yifan Yang--- DAQ Hardware for LS1
AMC13 (see E. Hazen talk https://indico.cern.ch/conferenceDisplay.py?confId=182546) • It is not an MCH! It is a 13th AMC in MCH-2 slot (as permitted by MicroTCA standard) • It distributes LHC clock / timing / controls to AMCs • It collects DAQ data from AMCs • It provides standard interface to CMS subdetectors: • CMS DAQ via optical fibers (currently 2 at ~ 5Gb/s) • TTC via 1300nm fiber @ 160Mb/sec biphase mark code • Future TTC upgrade may be supported via spare SFP site • TTS via 1300nm fiber with protocol t.b.d. Yifan Yang--- DAQ Hardware for LS1
AMC13 (HCAL example) Yifan Yang--- DAQ Hardware for LS1