Overview of E906 Electronics, Readouts, and DAQ System E906 DAQ workshop Ting-Hua Chang (7/6 – 7/7/2009)

Slides:

Advertisements

Similar presentations

Introduction of DAQ system: E906 as an example

Advertisements

SciFi Tracker DAQ M. Yoshida (Osaka Univ.) MICE meeting at LBNL 10.Feb.2005 DAQ system for KEK test beam Hardware Software Processes Architecture SciFi.

The Taiwan group Institute of Phys, Academia Sinica: Wen-Chen Chang, Yen-Chu Chen, Da-Shung Su Ling-Tung U: Ting-Hua Chang Committed responsibility: Build.

Introduction of trigger system: E906 as an example Shiuan-Hal,Shiu 05/02/

Data Acquisition System for 2D X-Ray Detector Beijing Synchrotron Radiation Facility (BSRF) located at Institute of High Energy Physics is the first synchrotron.

6 June 2002UK/HCAL common issues1 Paul Dauncey Imperial College Outline: UK commitments Trigger issues DAQ issues Readout electronics issues Many more.

DAQ WS03 Sept 2006Jean-Sébastien GraulichSlide 1 DDAQ Trigger o Reminder: DAQ Trigger vs Particle Trigger o DAQ Trigger o Particle Trigger 1) Possible.

MICE Tracker Readout and Data Acquisition; Solenoid Magnetic Field Measurement Terry Hart for the MICE Collaboration, Illinois Institute of Technology,

MICE CM26 March '10Jean-Sebastien GraulichSlide 1 Detector DAQ Issues o Achievements Since CM25 o DAQ System Upgrade o Luminosity Monitors o Sequels of.

VC MICO Report July 07Jean-Sébastien GraulichSlide 1 Main news  DAQ test bench running in Geneva 2 LDCs connected to 2 different PCs, 1 GDCs DAQ trigger.

B.Satyanarayana Department of High Energy Physics Tata Institute of Fundamental Research Homi Bhabha Road, Colaba, Mumbai,

Trigger Supervisor (TS) J. William Gu Data Acquisition Group 1.TS position in the system 2.First prototype TS 3.TS functions 4.TS test status.

SBS/A1n DAQ status Alexandre Camsonne August 28 th 2012.

E906/Drell-Yan: Monte Carlo, Data Acquisition and Data Analysis Paul E. Reimer Expected Rates and Monte Carlo (WBS 2.5.1) Data Acquisition (WBS 2.4) –CODA.

UCN-nEDM DAQ DAQ and Slow Control L.Lee 1 July 3, 2013.

Hall A DAQ status and upgrade plans Alexandre Camsonne Hall A Jefferson Laboratory Hall A collaboration meeting June 10 th 2011.

Status of NA62 straw electronics and services Peter LICHARD, Johan Morant, Vito PALLADINO.

Status and plans for online installation LHCb Installation Review April, 12 th 2005 Niko Neufeld for the LHCb Online team.

Gif++ CR tracker setup G. Aielli for the RPC collaboration.

Data Acquisition for the 12 GeV Upgrade CODA 3. The good news…  There is a group dedicated to development and support of data acquisition at Jefferson.

DC12 Commissioning Status GOALS: establish operating conditions, determine initial calibration parameters and measure operating characteristics for the.

R Gilman, Rutgers Physics & Astronomy & Shiuan-Hal Shiu, IPAS E906 DAQ Meeting, Feb, 23, “Trigger” E906_Detector_Readout_and_DAQ_System_v doc.

Hall D Online Meeting 28 March 2008 Fast Electronics R. Chris Cuevas Group Leader Jefferson Lab Experimental Nuclear Physics Division System Engineering.

Hall D Online Meeting 27 June 2008 Fast Electronics R. Chris Cuevas Jefferson Lab Experimental Nuclear Physics Division 12 GeV Trigger System Status Update.

Update on the CDC GlueX Collaboration Meeting October 2006.

MICO July 07Jean-Sébastien GraulichSlide 1 Detector DAQ Status o Overview – Hardware status o Installation at RAL o DAQ workshop o Current Activities Jean-Sebastien.

Online Software 8-July-98 Commissioning Working Group DØ Workshop S. Fuess Objective: Define for you, the customers of the Online system, the products.

NUMI Off Axis NUMI Off Axis Workshop Workshop Argonne Meeting Electronics for RPCs Gary Drake, Charlie Nelson Apr. 25, 2003 p. 1.

Sep. 17, 2002BESIII Review Meeting BESIII DAQ System BESIII Review Meeting IHEP · Beijing · China Sep , 2002.

Transversity Readiness and Timeline Xiaodong Jiang, March 17th, This document specifies the overall readiness for Hall A experiments E06-010/E

June 7, 2004Karen Dow CODA at Bates BLAST Data Acquisition.

Jefferson Laboratory Hall A SuperBigBite Spectrometer Data Acquisition System Alexandre Camsonne APS DNP 2013 October 24 th 2013 Hall A Jefferson Laboratory.

DØ Online Workshop3-June-1999S. Fuess Online Computing Overview DØ Online Workshop 3-June-1999 Stu Fuess.

2/4/2001Ludovico Pontecorvo INFN Roma1 Plans for the H8 system test: 2001/2002 Goals for the 2001/2002 Test beam Beam layout Chamber Supports 2001 Schedule.

Electronics for HPS Proposal September 20, 2010 S. Boyarinov 1 HPS DAQ Overview Sergey Boyarinov JLAB June 17, 2014.

1 Electronics Status Trigger and DAQ run successfully in RUN2006 for the first time Trigger communication to DRS boards via trigger bus Trigger firmware.

B.Satyanarayana Department of High Energy Physics Tata Institute of Fundamental Research Homi Bhabha Road, Colaba, Mumbai,

DAQ Status & Plans GlueX Collaboration Meeting – Feb 21-23, 2013 Jefferson Lab Bryan Moffit/David Abbott.

New DAQ at H8 Speranza Falciano INFN Rome H8 Workshop 2-3 April 2001.

DAQ deadtime memo Kaz, Grass 2012/01/04 1. Current dead time Dead time measured on 2011/09/29  With TDCmax=4, Deadtime =350 us  With TDCmax=8, Deadtime.

HPS TDAQ Review Sergey Boyarinov, Ben Raydo JLAB June 18, 2014.

MICE CM February 08Jean-Sébastien GraulichSlide 1 Report on DAQ & CAM o Detector DAQ Status Hardware Trigger Software o Controls and Monitoring (CAM) o.

Electronics Workshop GlueX Collaboration Meeting 28 March 2007 Fast Electronics R. Chris Cuevas Group Leader Jefferson Lab Physics Division Topics: Review.

Station-4 MuID System: Status Ming X. Liu Los Alamos National Lab 1/7/091E906 Collaboration Meeting.

GlueX Collaboration May05 C. Cuevas 1 Topics: Infrastructure Update New Developments EECAD & Modeling Tools Flash ADC VXS – Crates GlueX Electronics Workshop.

1 DCS Meeting, CERN (vydio), Jun 25th 2013, A. Cotta Ramusino for INFN and Dip. Fisica FE Preliminary DCS technical specifications (v1.0) for the Gigatracker.

IEEE Real Time 091 Data Acquisition System for Multi-channel Gas Detector Hongyu ZHANG, Kejun ZHU, Haitao ZHU Institute of High Energy Physics,

VC98 March 07Jean-Sébastien GraulichSlide 1 DDAQ Status o DAQ Software o Front-End and Trigger o What will happen soon o Schedule Milestones Jean-Sebastien.

Spanggaard BE-BI-EA(1)EA Lectures February, 2016 Introduction to Beam Instrumentation (in the Experimental Areas of the SPS, the PS and the AD)  EA -

Technical Review: DAQ/Online

ATF/ATF2 Control System

Injectors BLM system: PS Ring installation at EYETS

Luminosity Monitor Status

Data Acquisition (DAQ) Status

EMU Slice Test Run Plan a working document.

INO TRIDAS presentations

Summer 2000 HF Beam Test. DAQ proposal.

Hall A Compton Electron detector overview

Photon beamline crates

The IFR Online Detector Control at the BaBar experiment at SLAC

Example of DAQ Trigger issues for the SoLID experiment

Tracker Software Status

The IFR Online Detector Control at the BaBar experiment at SLAC

The Online Detector Control at the BaBar experiment at SLAC

RPC Front End Electronics

Report on ATF2 Third Project Meeting ATF2 Magnet Movers ATF2 Q-BPM Electronics Is SLAC ILC Instrumentation Group a good name?

HallD Collaboration Meeting Jefferson Lab December 11-13, 2003

PHENIX forward trigger review

DAQ Software Support for PSEC at ANL and MTEST

Readout Systems Update

Presentation transcript:

Overview of E906 Electronics, Readouts, and DAQ System E906 DAQ workshop Ting-Hua Chang (7/6 – 7/7/2009)

E906 electronics overview

Readout Front-end Electronics - Hodoscopes : Discriminators, Coincidence Register Hodo Plane X1Y1X2Y2Y3X4AX4BY4 # of Channels (64?) 32 Each channel of Station 4 will use 2 PMTs, the output goes to meantimer after discriminated. Station 4 hodo signals -> PS710 -> LeCroy 624 ->LeCroy 4616, ECL out. For Station 1,2,3, the signals go to LeCroy 4416 (discriminator), outputs in ECL. All use IPAS-made CR for readout. Hodo signals go to Trigger Modules

Tracking signals St. 1 MWPC – ~4500 channels, Coincidence Registers St. 2 Drift Chamber – ~1000 channels, TDC St. 3 Drift Chamber – ~700 channels, TDC St. 4 Prop Tube -- ~400 channels, TDC All equipped with preamp/discriminators cards

Trigger System Trigger decision made from Hodo signals Trigger decisions are to be made by 3 FPGA trigger modules (CEAN 1495) Signal delay adjusted so signals arrive Trigger FPGA in time Retimed with RF signals before sending to FPGA trigger modules

DAQ and Readout system

DAQ hardware VME-based readout electronics system Each VME crate equipped with a Trigger Interface (TI) and a onboard computer (ROC: Readout Controller) There is one Trigger Supervisor (TS) in the master crate. It controls event readout for all other VME crates. Trigger signals are fan-out to TIs.

Linux host running CODA Ethernet Hub Data Storage Online monitoring Data Decoder Software MWPC, HODO, Coincidence Register System, VME CAMAC (VME?) TDC for DC+PT Interface to VME Accelerator scalers, CAMAC (VME ?) Conceptual design of DAQ based on CODA Electronics House Counting House 5-6 ROCs 2-3 ROCsROC TS, Trigger Bit Latch, scalers Trigg er

DAQ Control Software CODA : Cebaf Online Data Acquisition Network-based DAQ system Front-end CPUs focus on pulling data out Event building/formatting is on PC server Event buffer is also on PC server Up to 32 VME crates can be handled by CODA Data stored in hard disks

Scalers (Slow Control) For Beam line, Target, Hodo scintilators Scaler Trigger: Begin of Run (BOR), End of Run (EOR), Begin of Spill (BOS), End of Spill (EOS), Periodical. Scaler Trigger sent to TS, processed by DAQ as usual events VME-based scalers preferred Scalers are to be put in the same crate of TS?

Install a minimum daq system using CODA PC server (Linux kernel 2.6, CODA 2.6) VME cpu : MVME6100 or above, VxWorks 5.5.1, kernel: WIND version 2.6 A Trigger board: Trigger Interface card from JLab or SIS3610 A few modules to be readout Follow the instructions from website

Discussion Session Note: Items marked with ★ need to assign people to work on

Survey of Detectors and Electronics Station 1 MWPC Current status? Preamp card design pending on chamber information To set/change threshold level: Do we need software setting capability? Station 2 Drift Chamber: status and readout electronics? Station 3 Drift Chamber: status and readout electronics? Station 4 Prop Tubes: status and readout electronics? How many channels exactly?

Detectors and Electronics Hodoscopes –How many channels in each station plane? –Status and readout electronics –Remote HV control for PMTs? ★

Scalers There were 105 scalers recorded in E866 (see E866_scaler_list.doc) What are those scalers from target and beam line? What are the devices/probes to generate those data/signals? Any hardware needed in DAQ end besides scalers? How many scaler channels available from 3 CEAN 1495 trigger module? How many scalers available in TS?

Scalers We might need extra electronics (e.g. fan- outs, coincidences) to create scaler input signals. if FPGA and TS does not have enough channels, can we get more VME scalers?

Signals from Beamline What was recorded in E866 scalers? What signals do we need? What are the signal types? Where and how to get those signals? ★ How are we going to use/record them? ★

Trigger How and Where to do retiming? ★ Where are the Pulse Stretchers? ★ What types of triggers do we want to have? (ref. to E866 scaler list) What triggers a scaler event? When are we going to readout the scalers?

Monitoring, Control and Calibration How and What about: –Beamline Monitoring ★ –Target Monitoring & control ★ –Magnet current Monitoring & control ★ –TDC calibration ★

DAQ, CODA, Computing Computer Administration and network ★ CODA installation and maintenance ★ Data storage and organization ★

Programming and Software Libraries of readout electronics (CR & TDC & scalers & others) ★ Crl for ROCs and test of subsystems ★ Decoder and package re-formatter ★ (Transform the event format for the analysis people) Online histogram display & monitoring ★

Final Assemble (on floor) The location of readout electronics? ★ Note: Most detector output signals are in ECL, 10 meters cable length limitation Detailed layout of electronics: racks, crates, modules, cable connections ★ Concrete Shielding blocks for electronics? ★ Cabling and cable-supporting infra-structures, power lines, etc. ★ Put everything together and test. ★

Last quad doublet about 200’ upstream Counting Room ~60ft preamp output in ECL. Cable length limitation 10 m (~30 ft) Racks on floor OK? Shielding blocks? Cable trays? Power lines? St 4 TDC +Trigger decision electronics? Where to put the racks? St.3 TDC St. 1 CR + St. 2 TDC Plan 1

Last quad doublet about 200’ upstream Counting Room ~60ft preamp output in ECL. Cable length limitation 10 m (~30 ft) Racks on floor OK? Shielding blocks? Cable trays? Power lines? St 4 TDC +Trigger decision electronics? Where to put the racks? St readouts St re-shaper Plan 2

Final Assemble (counting house) Computers and system administration ★ Control and Monitor screens ★ Networks ★

Schedule Priority denoted by (p). Date to be discussed. (1) by end of (August 2009) (2) by end of (November 2009) (3) by end of (February 2010) (4) by end of (April 2010) (5) by end of (June 2010)

Task Classification Front-End Hardware (Electronics) Preparation –preAmps (1) –CR (1) –TDC (1 to 2) –Scalers (2 to 3) –Beamline scalers (4) –Target info to DAQ(4) –Trigger modules (2 to 3) Computing –PCs (1) –System Admin (1) –CODA Admin(1) –Data storage (2)

Task Classification Front-End Software Readout electronics libraries (1 to 2) Crl code for CODA ROCs(1 to 2) Back-End software Decoder (1 to 2) Event Re-formatter (2) Online display (1 to 2) TDC calibration (3)

Task Classification Control and Monitoring (4 to 5) –PMT HV control –Beamline Monitoring –Target Monitoring & control –Magnet current Monitoring & control Construction Engineering (2 to 5)

Manpower Assignment List of Manpower available to work on ★ : Rutgers: Ron, Lamiaa UMD: Betsy, Kaz, Prabin IPAS: Wen-Chen, Yen-Chu, Da-Shung, Xuan- Hal LingTung U.: Ting KaoShung U. : Rurng-Sheng, Su-Yin Engineers from FNAL available? Who else?