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Topical Workshop on Electronics for Particle Physics TWEPP-08, Naxos, Greece / 15-19 September 2008MEZZANINE CARDS FOR THE EMU CSC SYSTEM UPGRADE AT THE CMS
M.Matveev ([email protected]), P.Padley ([email protected])Rice University, Houston, TX 77005 USA
ENDCAP MUON (EMU ) CATHODE STRIP CHAMBER (CSC) SYSTEM AT CMS
FPGA MEZZANINE UPGRADE
Existing FPGA Mezzanines in the EMU CSC System
Chambers● 468 trapezoidal chambers located in the Endcap regions of the CMS● 6-layer multi-wire proportional chambers arranged in four stations● Intended for muon identification, triggering and momentum measurement
Electronics● On-chamber mounted electronic boards - Cathode Front-End Board (CFEB), 4 or 5 boards per chamber - Anode Front-End Board (AFEB), 12..42 boards per chamber - Anode Local Charge Track (ALCT) Card, one per chamber● Trigger and DAQ boards in sixty 9Ux400 mm VME crates on the periphery of the return yokes of CMS; each peripheral crate houses: - Up to 9 Trigger Motherboards (TMB2005) - Up to 9 Data Acquisition Motherboards (DMB) - One Muon Port Card (MPC2004) - One Clock and Control Board (CCB) - One custom VME Crate Controller (VCC)● One 9Ux400 mm Track Finder (TF) VME crate in the underground counting room - 12 Sector Processors (SP05) - One Muon Sorter Board (MS2005) - One Clock and Control Board (CCB) - One Detector Dependent Unit (DDU) Card - One CAEN V2718 VME Crate Controller ● Four 9Ux220 mm Front End Driver (FED) VME crates in the underground counting room; each FED crate houses: - 9 Detector Dependent Unit (DDU) Cards - One Data Concentrator Card (DCC) - One CAEN V2718 VME Crate Controller● >14K custom electronic boards in total● ~5000 Xilinx FPGA, including ~1000 mezzanine FPGA
MEZZANINE GIGABIT LINK
● Seven pin compatible devices in the 64-pin VQFP Thermally Enhanced Package● Serialization and deserialization of 16- or 18-bit parallel data words at 25MHz…156.25MHz● Industry standard 8B/10B or start/stop encoding● Current- or Voltage Mode serial interface● Embedded PRBS generator for 5 devices out of 7
● Designed and built by a team from the University of Florida (Gainesville, FL), UCLA and PNPI (Russia) in 2001-2005● Three types of mezzanines: - High speed/high count of i/o for the SP05 and MS2005 - High speed/average count of i/o for the TMB2005 - Average speed/average count of i/o for the ALCT and MPC2004● Based on Xilinx Virtex-E and Virtex-2 FPGA and XC18V04 EPROMs● With the progress of firmware development it became clear by 2008 that the FPGA resources are limited for some designs. Proposed solution: upgrade mezzanine(s) to most advanced Xilinx Virtex-5 family; use the same host boards.
Advantages of Virtex-5:● Higher performance due to 65nm technology● More flexible basic slice (4 LUT + 4 Flip-flops)● Better clocking routing● More embedded memory● Four sub-families: - General purpose LX - Serial connection oriented LXT - Signal processing oriented SXT - Embedded applications oriented FXT● Potential ability to self-correct single event errors and detect double errors using the Internal Configuration Access Port
Disadvantages:● Less user input/output pins available for similar packages (compare with Virtex-2)
Results of simulation of two EMU/Trigger projects Rice University is responsible for:
Muon Port Card (MPC)
Muon Sorter (MS)
Texas Instruments TLK Family of SERDES Devices SERDES Mezzanine Board
● TLK device, SFP cage and 4-row 80-pin connector to host board● 103 mm x 23 mm x 13.7 mm ● Samtec MOLC-120-31-S-Q (mezzanine) and FOLC-120-01-S-Q (host board) connectors● Interface to host board comprises all the TLK and SFP data, control and monitoring signals● 3.3V and 2.5V (optional) supply voltages are provided from the host board● Samples of the mezzanine with the TLK1501/2501/3101 devices are available
● Multi Source Agreement (MSA) compliant Small Form Factor Pluggable (SFP) footprint ● Duplex LC connector● Transmission up to 150 m on 50/125 um multimode fiber at 4.25Gbps● Several vendors, typical price <$100 per module
Conclusion: ● ~50% performance improvement in comparison with the Virtex-2 FPGA● Sorting “4 muons out of 36” can be done in one bunch crossing (25 ns) for the fastest Virtex-5 FPGA (in present design it takes 2 bunch crossings)● Pin compatible XC5VLX50/85/110-FF1153 FPGA could be the optimal solution (logical resources, number of inputs/outputs, price)
Xilinx Virtex FPGA Families
Track Finder Crate
Rack with two peripheral crates
FED crate