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M.Matveev Rice University March 20, 2002 EMU Muon Port Card Project.

Published byGwen Kelly Modified over 8 years ago

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Presentation on theme: "M.Matveev Rice University March 20, 2002 EMU Muon Port Card Project."— Presentation transcript:

1 M.Matveev Rice University March 20, 2002 EMU Muon Port Card Project

2 One board per CSC Sector (8 or 9 chambers), Resides in the middle of the peripheral VME 9U crate. Receives up to 2 muons from each of 8 or 9 Trigger Motherboards every 25 ns Selects 3 best muons out of 18 possible Transmits these 3 muons in ranked order to Sector Processors residing in the counting room over three 100 m optical cables every 25 ns MPC Functions

3 VME J1 CONNECTOR CUSTOM PERIPHERAL BACKPLANE 9U x 400 MM BOARD FINISAR FTRJ-8519-1-2.5 OPTICAL TRANSCEIVERS TLK2501 SERIALIZERS CCB INTERFACE SORTING LOGIC INPUT AND OUTPUT FIFO VME INTERFACE 3 OPTICAL CABLES TO SECTOR PROCESSOR TMB_1 TMB_2 TMB_3 TMB_4 TMB_5 TMB_6 TMB_7 TMB_8 TMB_9 SER OPTO MPC Block Diagram OPTO SN74GTLP18612 GTLP TRANSCEIVERS FPGA CCB UCLA MEZZANINE CARD (XCV600E)

4 PIPELINE MUON 1 PIPELINE MUON 2 DFF SORTER “3 OUT OF 18” MUON 1 CCB TMB 1 TMB 2 DFF 4 4 FIFO A FIFO A VME MUX VME TMB 9 MUON 2 VME FIFO_B MUON 1 DFF FIFO_B MUON 2 VME DFF FIFO_B MUON 3 VME MUON 3 54 Sorter FPGA CCB INTERFACE WINNER 9

5 9 input links from Trigger Motherboards, 32-bit @ 80 MHz per link (288 inputs total) 3 output links to data serializers, 16-bit @ 80 MHz per link (48 outputs total) 1 output status link (winners) 9-bit @ 80 MHz to TMBs Input and output FIFO buffers for testing purposes Interfaces to VME and Clock and Control Board (CCB) (~75 inputs and outputs total for both) FPGA should have ~470 input/output pins and ~28 Gbps total bandwidth FPGA Requirements

6 TMB - to - MPC Frame Format

7 MPC – to – SP Frame Format

8 CSC Numbering scheme In the present design the CSC_ID=1 corresponds to TMB1 on the peripheral backplane, CSC_ID=2 corresponds to TMB2 and so on TMBTMB TMBTMB TMBTMB TMBTMB TMBTMB TMBTMB TMBTMB TMBTMB TMBTMB DMBDMB DMBDMB DMBDMB DMBDMB DMBDMB DMBDMB DMBDMB DMBDMB DMBDMB 1 MPCMPC CCBCCB 23456789

9 Targeted to Xilinx XCV600E-7FG680 FPGA (UCLA mezzanine card) 461/512 input/output pins used (89%) 5009/6912 slices used (72%) 42/72 BlockRAMs used (58%) 44.13 Mhz maximum performance (FPGA Express synthesis) Latency 100.0 ns (4.0 BX) total FPGA latency including: - 1.0 BX input latching @ 80MHz and multiplexing with FIFO - 1.5 BX sorting “3 out of 18” - 0.5 BX data merging - 0.5 BX output multiplexing and latching @80MHz - 0.5 BX data latching into TLK2501 serializers 24 ns serialization delay (TLK2501 transmitter @ 80 MHz) Preliminary results of FPGA Design

10 GTLP Backplane Interface to 9 TMB’s (completely defined) Mezzanine Card pin assignment done A24D16 VME Interface based on glue logic (address latches, data buffers, comparators, DS/DTACK logic, CSR0) CCB Interface is completely defined Optical Data Format to SP has been agreed Preliminary FPGA design is done (XCV600E-7FG680) MPC draft specification is prepared Schematic design ~80% completed 6 free FPGA were obtained (Xilinx donation) Mezzanine cards are ordered through UCLA MPC Board Design Status

11 Same CCB for peripheral and Track Finder crates 20 sets (main 9U board + Altera-based mezzanine card) have been fabricated so far 15 boards are assembled and tested 2 boards will be used for Track Finder tests (UF & Rice) CCB for Track Finder Crate

12 TTCrx Clock40Des1 Jitter Mezzanine CardECP680-1102-630CECP 680- 1102-610B TTCrx ASIC operating voltage+5.0V+3.3V+5.0V Clock40Des1 jitter, ps (no BC, no L1A)153170330 Clock40Des1 jitter, ps (BC commands + L1A)183215360 New TTCrxOld TTCrx

13 Optical Test with TTCrx CCBCCB TTCVITTCVI BIT3BIT3 TTCVXTTCVX OPTOOPTO OPTOOPTO TTCrx ERROR 1 m 100 m VME 9UVME 6U COPPER CABLEOPTICAL CABLE OLD AND NEW TTCrx BOARDS WERE TESTED WITH 40.00 Mhz CLOCK SOURCE FROM TTCvx MODULE 40.00 Mhz CLOCK WAS MULTIPLIED BY 2 BY AV9170 CHIP NO ERRORS OBSERVED IN PRBS TEST FROM ONE OPTOBOARD TO ANOTHER AT 80.00 Mhz (BER < 10 -13 c -1 ) 40 Mhz Clock multiplier PC

14 TTCrx Clock40Des1 Jitter Conclusion Jitter is lower for the newest TTCrx ASIC (Version 3.1, 12/2001) Jitter increases if the broadcast commands and L1A are transmitted from TTCvi/TTCvx Jitter distribution for ASIC Ver.3.1 is close to gaussian. Jitter distribution for old ASIC looks differently Jitter is lower if the new ASIC is powered from +5V Jitter introduced by any of two TTCrx ASICs and other components in the clock distribution circuitry at our testing setup is tolerable for TLK2501 transceivers operating at 80.00 Mhz

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