Silicon Lab Bonn Physikalisches Institut Universität Bonn DEPFET Test System Test Beam @ DESY H. Krüger, EUDET Brainstorming, 3/4.11.2005 1 SI LAB
DEPFET Prototype System DEPFET sensors 64 x 128 pixels, 36,5 x 28 µm 2 (Q1 2007: 512 x 512 pixels, 33 x 24 µm 2 ) Event rate old system: 10 Hz (various limitations) new system: ~1 khz (w/o zero supp.), data transfer limited (20 Mbyte/s, USB 2.0) with zero suppression: ~100 khz (theor.), row clock rate limited (10 MHz) DAQ USB 2.0 interface to Win2k/XP PC independent processes for slow control, file writing and online-monitoring inter-process communication via shared memory buffers H. Krüger, EUDET Brainstorming, 3/4.11.2005 2 SI LAB
Read-out System Hardware Trigger Logic DAQ SW (C++) SRAM Trigger / Busy Power Supplies USB DLL EPROM Ctrl USB driver PC Win 2000/XP USB 2.0 USB µc USB Board FPGA SW DEPFET Matrix 128 x 64 SW Ctrl Hit Add CURO II ADC ADC Analog Signal TIA TIA S3A Board DEPFET DUT S3A Board Mixed signal board Dual 65 MHz ADCs FPGA + 256k SRAM USB 2.0 interface card Hybrid Hybrid DEPFET matrix 2 Switcher + Curo 2 transimpedance amplifiers H. Krüger, EUDET Brainstorming, 3/4.11.2005 3 SI LAB
BAT Bonn ATLAS Telescope four planes of double sided strip detectors 640 x 640 ch. 50µ pitch analog r/o VA1 / VA2 chips S/N ~40-70 spatial resolution: 4-5 µm on-module zero suppression event rate: max. 8 khz PCI interface card DAQ SW for Win2k/XP H. Krüger, EUDET Brainstorming, 3/4.11.2005 4 SI LAB
Test Beam Setup with BAT and DEPFET Trigger Logic Unit Trigger to modules BAT modules DEPFET BAT modules TLU trigger Busy from modules PCI interface Blue Board Bus (BBB) Win XP USB interface H. Krüger, EUDET Brainstorming, 3/4.11.2005 5 SI LAB
Test Beam DAQ Structure See talk by Peter Fischer H. Krüger, EUDET Brainstorming, 3/4.11.2005 6 SI LAB
Results from DEPFET TB @ DESY August 2005 noise ~230 e S/N ~140 (450 µm thick detector) 5σ seed cut purity 96.3% efficiency 99.3% H. Krüger, EUDET Brainstorming, 3/4.11.2005 7 SI LAB
Results from DEPFET TB @ DESY August 2005 Limitations: low frame rate ~10Hz limited by (old) test setup and low electron flux @ 6 GeV spatial residuals ~10 µm (expected 2-4 µm @ S/N 144) dominated by multiple scattering @ 6 Gev e - beam X Resolution vs Minimum Chi2 Prob X Resolution (μm) 18 16 14 12 Seed only CoG 3x3 CoG 5x5 CoG 7x7 10 8 0.9975 0.998 0.9985 0.999 0.9995 1 Min. Chi2. Prob. H. Krüger, EUDET Brainstorming, 3/4.11.2005 8 SI LAB
Wish List Beam highest possible energy (> 6 GeV) moderate to high flux (adjustable) variable bunch structures? Telescope resolution < 2 µm, area min. 1 x 2 cm 2 low (almost no) material minimum (adjustable) distance between telescope modules high event rate (~ O(kHz)) Mechanics & Cooling positioning system for DUT (x, y, theta), < 1 µm x-y resolution cooling: yes, but common schema feasible? Trigger different scintillator sizes to adapt to DUT active area configurable trigger interface to connect to DUT (Trigger, Busy, BOR) event by event r/o or buffered r/o H. Krüger, EUDET Brainstorming, 3/4.11.2005 9 SI LAB
Wish List cont. Telescope DAQ and integration issues H. Krüger, EUDET Brainstorming, 3/4.11.2005 10 SI LAB
Integration of Telescope and DUT on HW Level DUT sensors and FE electronic first level interconnect digitalization & sparsification with common DAQ HW (adopted for DUT) telescope proprietary bus DAQ HW Trigger COTS interface (Gbit-Ethernet, USB, S-LINK, cpci, VME ) standard bus interface common DAQ control, slow control, file writer (PC, SBC ) interface DAQ ctrl computer file H. Krüger, EUDET Brainstorming, 3/4.11.2005 11 SI LAB
Integration of Telescope and DUT on SW Level DUT sensors and FE electronic telescope first level interconnect digitalization & sparsification with dedicated DAQ HW DAQ HW Trigger COTS interface (Gbit-Ethernet, USB, S-LINK, cpci, VME ) can be different still common DAQ control, slow control and file writer but different interfaces intfc intfc DAQ ctrl file standard bus interfaces computer H. Krüger, EUDET Brainstorming, 3/4.11.2005 12 SI LAB
Integration of Telescope and DUT on Data Level DUT sensors and FE electronic telescope first level interconnect digitalization & sparsification with dedicated DAQ HW DAQ HW Trigger COTS interface (Gbit-Ethernet, USB, S-LINK, cpci, VME ) can be different standard bus interfaces independent DAQ control, common file writer, running on one or two machines with inter-process communication (shared memory buffers, TCP/IP) intfc tel. ctrl file IPC intfc DUT ctrl computer H. Krüger, EUDET Brainstorming, 3/4.11.2005 13 SI LAB
Discussion common omni purpose DAQ (standardized, well documented and maintained, cheap ) would be the ultimate goal but: most of the users already have their DAQ (or at least lab test-setups) they should not be forced to re-design their setup if they want to use TB@DESY integration on SW level is difficult or impossible due to different operating systems integration on data-level seems to me most flexible, users can stick to their known DAQ needs definition and implementation of IPC (via TCP/IP or shared memory buffers), control protocol and common data format + four LEMO cables for trigger, busy, reset and something else H. Krüger, EUDET Brainstorming, 3/4.11.2005 14 SI LAB