Wolfgang Kühn II. Physikalisches Institut, Universität Giessen

1. Helmholtz International Center for FAIR New Developments for DAQ and Triggering Wolfgang Kühn II. Physikalisches Institut, Universität Giessen

2. Outline of talk • PANDA Detector and requirements for data acquisition • Compute Node • Universal scalable platform for multiple applications • Applications • Summary and Outlook Wolfgang Kühn

3. Pellet or cluster-jet target 2T Superconducting solenoid for high pt particles 2Tm Dipole for forward tracks 3 Wolfgang Kühn

4. Central Tracker Forward Chambers Silicon Microvertex detector 4 Wolfgang Kühn

5. MuonDetectors Forward RICH Barrel DIRC Barrel TOF Forward TOF 5 Endcap DIRC Wolfgang Kühn

6. PWO EMC ForwardShashlyk EMC HadronCalorimeter 6 Wolfgang Kühn

7. Requirements for DAQ and Trigger • Interaction rates up to 20MHz • Typical event sizes 4 - 8 kB. • Raw data rates 40GB/s - 200 GB/s • High flexibility and selectivity • Solution: • Continuously sampling data acquisition • No „hardware triggers“ • Event selection in FPGA processors • Connection via high speed networks • Building blocks • Lots of buffer space • Fast and flexible networks • Powerful processors Wolfgang Kühn

8. General Purpose Compute Nodes Configurable and scalable hardware platform for multiple applications/ experiments • Capable of High Performance Computing • Large Bandwidth • PANDA est. 40 - 200 GB/s • Continuously Sampling ADCs • Real Time processing (trigger) • Processing of up to 2x10**7 events/s • Flexibility: Reusable • HADES upgrade - BESIII upgrade – Panda DAQ & Trigger • Scalability • Flexible network topology Wolfgang Kühn

9. Compute Node Features • 5 Virtex4 FX60 FPGA • Large Computer Power • 10 GB DDR2 RAM (2GB per FPGA) • Buffering capabilities • 2 Embedded PowerPC in each FPGA • Slow control • 32Gbit/s Bandwidth • 13x RocketIO to backplane • 5x GBit Ethernet Front Panel • 1x GBit Ethernet Backplane • 8x Optical Links • ATCA Compliant • Manageability Wolfgang Kühn

10. Compute Node Structure Wolfgang Kühn

11. ATCA Standard • Advanced Telecomm Computer Architecture • Industry standard (PICMG) • Power ~ 200W/slot • Base Interface (GBit Ethernet) • Full mesh backplane • High Speed differential lines Wolfgang Kühn

12. Application Example: Ring Search Algorithm • Problem: • Find ring images in RICH detector in the presence of background • Idea: • Exploit correlation with tracking detector (MDC) • Result • Background from electronic noise and other sources strongly suppressed • Thresholds for ring finder can be lowered • Improved efficiency Wolfgang Kühn

13. Challenges and Opportunities • Status: • First board built • Collaboration with IHEP Beijing • Firmware development has started • Linux GBit Ethernet support implemented • Assemble prototype system (HADES@FAIR) • Single ATCA shelf replaces ~ 10 VME crates • Up to 13 CN + 1 CPU module • Implementation of DAQ and trigger algorithm firmware for: • HADES @ FAIR • Use as a prototype DAQ for PANDA detector tests • Timeline: • 2008/09 Firmware for demonstrator system (HADES) • 2010/11 Algorithm development for PANDA • 2012-14 Construction and commissioning of PANDA DAQ Wolfgang Kühn