A concept for the MVD-DAQ

1. A concept for the MVD-DAQ C.Schrader, S. Amar-Youcef, N. Bialas, M. Deveaux, I.Fröhlich, J. Michel, B. Milanovic, C. Müntz, S. Seddiki, J. Stroth, T. Tischler, B. Wiedemann C.Schrader; April 2010, CBM Collaboration Meeting

2. Outline: • Requirements on the prototype • The prototype sensor (Mimosa26) • The prototype readout concept • based on existing hardware • Network concept • Status and conclusion C.Schrader; April 2010, CBM Collaboration Meeting

3. The Demonstrator Trb2 (TRBnet) demo-AUX analogue output Demonstrator project accomplished See talk of Samir sync. signals MAPS add-on board or monitoring data transfer: I/O-card data transfer: OP-link Beam test @ Cern-SPS Nov 2009 file server

4. Why a prototype? A prototype to meets the requirements for the CBM MVD • The project aims at improve: • low material budget • mechanical integration • cooling • fast sensor readout • scalable DAQ-system for the full MVD (e.g. 20 sensors first station) • a whole network structure • from the front-end to the PC s

5. Sensors of the prototype Current compromise Best values reached • Mimosa26 offers: • logic for data reduction • huge pixel array (form factor for the final MVD) • multiplexer for faster readout • inspiration for the final MVD sensor (MimoSIS-1) * best of M. Deveaux, ULISI kick-off meeting, GSI, Feb. 17-18, 2010

6. Mimosa26 analogue Outputs 9 hits/ row Mi26 protocol allows: ∑ 570 hits pixel array: 1152 columns x 576 rows (18,4 µm pitch and 115,2 µs readout time) chipslowcontrol correlated double sampling Signal discrimination Demonstrator: Mimosa20 with analogue readout 2.4Gbit/s uncompressed zerosuppressionlogic multiplexing Discri test Temp probe PLL JTAG Digital input Digital output Power 80 MHz 2 channels • ~ 80 Mbit/s (570 words of 16 bit • ~ 9120 bit/frame) 160 Mbit/s

7. The readout boards developed by IKF electronic workshop The Trbv2 (HADES) provides a flexible add-on board concept The add-on board with a FPGA Is mounted on the TRBv2 back side • high data-rate digital interface • connector (15 Gbit/s) • FPGA configuration • high data transfer with optical link • (2 Gbit/s) • application process interface (API)‏ • power supply +5V,10A • clock distribution • readout board for 3x Mimosa 26 • platform to study online data specification for data reduction • compatibility with HADES DAQ (Trb2) for testing purposes

8. The prototype readout • A telescopetostudy: • Protocol • scalable (unique ID for 512 sensors) • time/triggerstamps (forassynchronousreadoutofthesensors) • safetyaspects (check- sumanddatalength) • datareduction (160 Mbit/s down to 80 Mbit/s) • bufferedreadout • JTAG chain • Online monitoring • Beam tests • Offline analysis/tracking (CBM-root) MAPS add-on Digi Aux PC I/O-card Mimosa26 controlchain 2m add-on + Trbv2 1x Start,clk,Rst (LVDS) 2m data output 133 Mbyte/s ~ 13 sensors 3x D0,D1,CLK (LVDS) PC JTAG 15 cm JTAG chain 3 stations „telescope“ 2m vacuum JTAG board

9. Scalable DAQ-system Digi Aux PC I/O-card Mimosa26 1x Start,clk,Rst (LVDS) add-on + Trbv2 • Tostudy: • Scalablesystem (unique ID forboards) • Board synchronisation • Repeaterforsignalconditioning MAPS add-on I/O limitation for only 3 sensors 3x D0,D1,CLK (LVDS) add-on + Trbv2 3x D0,D1,CLK (LVDS) MAPS add-on PC JTAG 1x RJ45 JTAG board

10. Data rate for the MVD Data rate of the sensors was simulated accounting for: pile-up, delta electrons, clustering, fake hits rates with the data protocols of Mimosa26 Conclusions: Total data rate of the MVD 10 GBytes/s Data rate of individual sensor < 2.4 Gbit/s Data reduction on FPGA boards First MVD station located at 5 cm See talk of S.Seddiki

11. New readout board 2m front-end 2x optical link (each 2 Gbit/s) >30 Mimosa26/board 3x LVDS clk/start/rst 4x LVDS JTAG 3x LVDS D0,D1,clk TRBv2 + add-on front-end digital chipdata via optical link (2 Gbit/s) N N S  Algorithms have to be studied N N S front-end N N S - . . . • New add-on board: • chipcontrolling • chipmointoring • protocolfor front-ends • networkprotocol (TrbNet) • … (telescopestudies) MIMOSA26 readout: Seed pixel and the successive two Neighbor pixels • Trbv2: • JTAG • power supply • monitoring √ front-end The readoutboardcanbeusedascomputingnode • Fakehitsuppression  clusterbuilding • Hit finding …

12. Hub-AddOn (HADES) • 20x up to 3.125 Gbit/s • (~1.2 Gbit/s raw data) • Capable of Gigabit-Ethernet to • send data to standard PCs (TCP) • Implements basic data processing • features • Buffered readout Successful tested

13. PC-Interface: PEXOR 3 • PCI-Express card (x4) • Fast Lattice SCM40 FPGA • 4 optical links up to 3.8 Gbit/s each • PCI-Express bus up to 4 Gbit/s Hardware available jet

14. MVD readout setup front-end front-end FPGA boards TrbNetprotocol See talk of B. Milanovic TRBv2 + addon TRBv2 + addon front-end front-end PC optical link- PCI-express-card upto 3.8 Gbit/s hub add-on +TRBv2 upto 2 Gbit/s front-end front-end . . . . . . PCI Express card 4x 3.8 Gbit/s PCI express bus: 4 Gbit/s ~ 50 x Mimosa26 unbuffered . . . Hub Input: 16 x optical links (8x 30 Mimosa26) Output: 4x optical links ~ 240 sensorsbuffered front-end front-end

15. The new front-end MIMOSA-26 Digi Aux • All in one • Highly integrated • Vacuum compatible • Suffix to cooling concept • Radiation tolerant • Bus concept • Advanced flex print cable (e.g. IMEC : sensors in ultra thin polyamide film) • … JTAG board 

16. Summary and conclusion

17. Thank you