Reduction only needed for p+p and light A+A calibration runs Generate primitives for level 2 (Ring count in RICH) Electron trigger at low transverse momenta.

Slides:

Advertisements

Similar presentations

Progress on ERT  0 efficiency study Spin PWG June 6,2002 LVL-1 meeting June 14,2002 Analysis meeting June 14,2002 Kensuke Okada.

Advertisements

6 Mar 2002Readout electronics1 Back to the drawing board Paul Dauncey Imperial College Outline: Real system New VFE chip A simple system Some questions.

Level-1 Trigger Commissioning H.Dong, A.Somov Jefferson Lab Trigger Workshop, Jul 8, 2010.

An SiPM Based Readout for the sPHENIX Calorimeters Eric J. Mannel IEEE NSS/MIC October 30, 2013.

PHENIX Decadal Plan o Midterm upgrades until 2015 o Long term evolution after 2015 Dynamical origins of spin- dependent interactions New probes of longitudinal.

1 MUID FEE TAC Presentation Vince Cianciolo 7 May 1998.

1 The Forward Silicon Vertex Detector Upgrade for the PHENIX Experiment at RHIC Douglas Fields University of New Mexico Feb. 12, 2011 Douglas Fields, WWND11,

Alice EMCAL Meeting, July 2nd EMCAL global trigger status: STU design progress Olivier BOURRION LPSC, Grenoble.

RPC Electronics Status Overall system TDC –Digitizing frequency issue (determine the bin size of the TDC value) Discriminator test result Trigger module.

DSP online algorithms for the ATLAS TileCal Read Out Drivers Cristobal Cuenca Almenar IFIC (University of Valencia-CSIC)

October-November 2003China - ALICE meeting1 PHOS in ALICE A PHOton Spectrometer with unique capabilities for the detection/identification of photons and.

STAR-EMC Trigger A. Vander Molen for the EMC Group.

The CMS Level-1 Trigger System Dave Newbold, University of Bristol On behalf of the CMS collaboration.

Prototype Test of SPring-8 FADC Module Da-Shung Su Wen-Chen Chang 02/07/2002.

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

Andrew Glenn 4/21/02 Commissioning and Performance of the. Muon Identifier Andrew Glenn (University of Tennessee), for the PHENIX collaboration April APS.

U N C L A S S I F I E D FVTX Detector Readout Concept S. Butsyk For LANL P-25 group.

SBS meeting VETROC application for Cerenkov triggering Alexandre Camsonne March 18 th 2015.

1 A ROOT Tool for 3D Event Visualization in ATLAS Calorimeters Luciano Andrade José de Seixas Federal University of Rio de Janeiro/COPPE.

HBD FEM the block diagram preamp – FEM cable Status Stuffs need to be decided….

The L0 Calorimeter Trigger U. Marconi On behalf of the Bologna Group CSN1, Catania 16/9/02.

Heavy flavor production at RHIC Yonsei Univ. Y. Kwon.

Alan Watson ATLAS Overview week, Prague, 17/09/2003 Rx   Calorimeters (LAr, Tile) 0.2x x Mb/s analogue ~75m 0.1x0.1 RoI Builder L1 CTP.

8/9/2000T.Matsumoto RICH Front End RICH FEE Overview PMT to FEE signal connection Trigger Tile Summation of Current RICH LVL-1 Trigger Module1,2 What is.

The PHENIX Forward Silicon Vertex Tracker Eric J. Mannel IEEE NSS/MIC October 29, 2013.

EMCal in ALICE Norbert Novitzky 1. Outline How Electro-Magnetic Calorimeters works ? Physics motivation – What can we measure with Emcal ? – Advantages.

Algorithms for the ROD DSP of the ATLAS Hadronic Tile Calorimeter

ATLAS Trigger / current L1Calo Uli Schäfer 1 Jet/Energy module calo µ CTP L1.

SL1Calo Input Signal-Handling Requirements Joint Calorimeter – L1 Trigger Workshop November 2008 Norman Gee.

1 The PHENIX Muon Identifier Front End Electronics Andrew Glenn (University of Tennessee), for the PHENIX collaboration Andrew Glenn 5/1/01 April APS Meeting.

March 9, 2005 HBD CDR Review 1 HBD Electronics Preamp/cable driver on the detector. –Specification –Schematics –Test result Rest of the electronics chain.

1 07/10/07 Forward Vertex Detector Technical Design – Electronics DAQ Readout electronics split into two parts – Near the detector (ROC) – Compresses and.

1 EMC Trigger Summery from RunII and discussion for RunIII H.Torii, Kyoto Univ. ERT Lvl-1 meeting.

7/28/2003DC/EC Review Aerogel Read out Electronics K. Ozawa, N. Kurihara, M. Inaba, H. Masui T. Sakaguchi, T. Matsumoto.

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

20 Out-panel Overview Crate-based (VME 9U) architecture. 4 crates for entire MUID system: –North Horizontal, North Vertical, South Horizontal, South Vertical.

1/27/2016 R.Seidl: status of simulation1 W muon analysis in PHENIX Status of the background understanding, signal, smearing and asymmetries R.Seidl (RBRC)

STAR Collaboration Meeting, BNL – march 2003 Alexandre A. P. Suaide Wayne State University Slide 1 EMC Update Update on EMC –Hardware installed and current.

Feasibility study of Heavy Flavor tagging with charged kaons in Au-Au Collisions at √s=200 GeV triggered by High Transverse Momentum Electrons. E.Kistenev,

Time and amplitude calibration of the Baikal-GVD neutrino telescope Vladimir Aynutdinov, Bair Shaybonov for Baikal collaboration S Vladimir Aynutdinov,

11 October 2002Paul Dauncey - CDR Introduction1 CDR Introduction and Overview Paul Dauncey Imperial College London.

Electronic System Design GroupInstrumentation DepartmentRob Halsall et al.Rutherford Appleton Laboratory30 July 2001 CMS Tracker FED CMS Tracker System.

Forward Trigger Upgrade and AuAu Pattern Recognition V. Cianciolo, D. Silvermyr Forward Upgrade Meeting August 18-19, 2004.

UMass Amherst Christine Aidala June 15, 2006 Accessing Transversity via Collins and Interference Fragmentation at RHIC QCDN-06, Rome.

Muon Spectrometer Upgrade, July 14 th Muon Spectrometer Upgrade Matthias Grosse Perdekamp, RBRC and UIUC Physics Motivation Components of the upgrade People.

Current Status of RICH LVL-1 Trigger Module Takashi Matsumoto and Ken Oyama Presentation Outline Topics Geometry of Trigger Tile Required function of RICH.

K. Barish UC Riverside 7 Oct Spin PHYSICS at PHENIX with a Central Arm Trigger Kenneth N. Barish For the PHENIX Collaboration UC Riverside DNP’2000,

06/22/04J. Lajoie – Santa Fe Muon Workshop1 Level-1 Triggers for Run-5 Outline –Vertex Triggers : BBC, ZDC (not discussed here) BBC will have ability.

Muon Arm Physics Program Past, Present + Future Patrick L. McGaughey Los Alamos National Laboratory Santa Fe June 17, 2003.

S. Dasu, University of Wisconsin February Calorimeter Trigger for Super LHC Electrons, Photons,  -jets, Jets, Missing E T Current Algorithms.

DAQ Selection Discussion DAQ Subgroup Phone Conference Christopher Crawford

Samuel Silverstein, SYSF ATLAS calorimeter trigger upgrade work Overview Upgrade to PreProcessor MCM Topological trigger.

Trigger system for setup 2016 V. Rogov, V. Yurevich,D.Bogoslovski, S.Sergeev, O.Batenkov* LHEP JINR *V. G. Khlopin Radium Institute, St. Petersburg.

PHENIX J/  Measurements at  s = 200A GeV Wei Xie UC. RiverSide For PHENIX Collaboration.

29/05/09A. Salamon – TDAQ WG - CERN1 LKr calorimeter L0 trigger V. Bonaiuto, L. Cesaroni, A. Fucci, A. Salamon, G. Salina, F. Sargeni.

Electron Trigger in PHENIX Kenta Shigaki (KEK) at PHENIX Heavy Flavor and Light Vector Meson Physics Working Group Meeting on March 9, 2000.

The LHCb Calorimeter Triggers LAL Orsay and INFN Bologna.

The ALICE Electromagnetic Calorimeter

uGT 2016 operations and outlook for 2017

Iwaki System Readout Board User’s Guide

General DSM layout for E+B

ALICE – First paper.

CMS EMU TRIGGER ELECTRONICS

ATLAS L1Calo Phase2 Upgrade

DC trigger test Present layout Trigger electronics

BESIII EMC electronics

Accessing Transversity via Collins and Interference Fragmentation at RHIC Christine Aidala UMass Amherst QCDN-06, Rome June 15, 2006.

Commissioning of the ALICE-PHOS trigger

The LHCb L0 Calorimeter Trigger

RPC FEE The discriminator boards TDC boards Cost schedule.

Presentation transcript:

Reduction only needed for p+p and light A+A calibration runs Generate primitives for level 2 (Ring count in RICH) Electron trigger at low transverse momenta -> access to rare probes: At high transverse momenta: photons, electrons from W-decay, Drell Yan electrons, charged hadrons At low transverse momenta : Electrons from heavy flavor decays Global Et? EMCal/RICH Trigger Layout Possible Triggers: Kenneth Barish 11 February, 2000

Current Layout AMU/ADC Module Trigger Module 256 8bit FADC words RICH Local Level 1 FEM Boards Ersatz Trigger Cards x 172 x 3 RICH EMC to GL1 NIM Logic to GL1

FEM Boards (input from 12x12 EMCal towers) x Ersatz Trigger Card to NIM logic or Local Level 1 EMCal Front End Board and Trigger Card Input: 172 Supermodules with 12x12 towers

AMU/ADC Module Trigger Module 256 8bit FADC words RICH Local Level 1 FEM Boards Ersatz Trigger Cards x MuId ROC x 8 (2 for each threshold) o Use MuId ROC to feed ETC output into data stream and trigger system o Place data receiver module for EMCal data and electron trigger board into RICH local level 1 board for easy access to RICH data. Are RICH primitives (Adjacency check on Tiles, Ring Sums) still required input at Level 2 or can this be generated at level 2 based on increased processing power? If yes, when will the RICH local level 1 be built? RICH EMC to GL1 RICH/EMCal Layout Option #1

172 EMCal Channels 256 RICH Channels East Arm West Arm FPGA’s GL-1 Possible EMCal LL1 Logic

RICH EMCal RICH EMCal RICH EMCal RICH EMCal RICH EMCal Possible Logic Inside FPGA’s

RICH/EMCal Layout Option #2 AMU/ADC Module Trigger Module New RICH/EMCal Local Level 1 FEM Boards Ersatz Trigger Cards x MuId ROC x 8 (2 for each threshold) o Use MuId ROC for prompt.OR. and to transfer ETC output via Glink. o Combined RICH/EMCal local level 1 crate. Use existing design (8Rx) as data receiver cards. New Electron Trigger Board. RICH EMC x 8 (for 256 trigger tiles in 8 FE crates) to GL1 GLink

EMC/RICH Funding Prospects AMU/ADC Module Trigger Module New RICH/EMCal Local Level 1 FEM Boards Ersatz Trigger Cards x MuId ROC x 8 (2 for each threshold) o Use MuId ROC for prompt.OR. and to transfer ETC output via Glink. o Combined RICH/EMCal local level 1 crate. Use existing design (8Rx) as data receiver cards. New Electron Trigger Board. RICH EMC x 8 (for 256 trigger tiles in 8 FE crates) to GL1 GLink (100k) (50k) UCR RBRC 160k (funds req. JFY00) US/J (JFY99/00) (FY00/01)

Outstanding Issues LVL-1 –EMCal Rejection power needed Number of EMCal trigger elements (possible 172) How to realize E t trigger Threshold issues –RICH Number of RICH trigger elements (possible 256) Overlapping tiles? FADC or threshold? –Rejection power needed LVL-2 –Is ring count needed from LVL1? –Electron candidates needed from LVL1. (Brian Cole) –What information needs to be in data streme from LVL1 for LVL2? Offline –What information needs to be in data streme