STAR TOF Readout Electronics and DAQ Joachim Schambach University of Texas at Austin For the STAR TOF Collaboration.

Slides:

Advertisements

Similar presentations

TDC130: High performance Time to Digital Converter in 130 nm

Advertisements

BLM System for NSRL HLS PCaPAC 2000, Oct.9 ~ 12, 2000Page 1 PC and CAN Bus in Beam Loss Monitor System for NSRL Yonggang Cui, Beibei Shao Department of.

An Endcap TOF and TRD for Identifying electrons at EIC Zhangbu Xu (BNL) Prof. Ming Shao (Co-PI) Tonko Ljubicic, Bob Scheetz, Gene van Buren, Lijuan Ruan,

Pawan Kumar Netrakanti QGP-MEET 2006, VECC, February Identified hadron spectra at large transverse momentum in p + p and d +Au collisions at  s.

Wang Yi, Tsinghua University SoLID collaboration meeting, Status of MRPC-TOF 1 Wang Yi Department of Engineering Physics Tsinghua University,

STAR MRPC TOF: Project Overview BNL January 26, 2006 Geary Eppley Rice University.

Frank Geurts Rice University.  Time-of-Flight in STAR ◦ start & stop detectors in Run 9  Time-of-Flight Calibration ◦ upVPD ◦ Barrel TOF ◦ preliminary.

1 MTD Readout Electronics J. Schambach University of Texas Hefei, March 2011.

Figure 5. Histogram of the decay constant. Black curves: raw histograms; Blue curve: Gaussian fit to the histogram from the 20GS/s waveform; Red curve:

Status of MRPC-TOF Wang Yi Department of Engineering Physics Tsinghua University, Beijing, China 1.

STAR d+Au and final-state suppression in Au+Au1 Evidence from d+Au measurements for final-state suppression of high p T hadrons in Au+Au collisions at.

STAR Silicon Vertex Tracker Detector (SVT) Update

Preparation of MTD production Yongjie Sun Center of Particle Physics and Technology University of Science and Technology of China.

04/11/2008Lijuan Ruan (WWND2008)1 Prototype Performance of Novel Muon Telescope Detector at STAR Outline: Motivation Simulation Intrinsic timing and spatial.

2005/6/28-29 第 59 届东方论坛，上海中国与 RHIC-STAR 的国际合作马余刚，陈宏芳，程建平中国 RHIC-STAR 合作组：中国科大，清华大学，上海应物所，华中师大，高能所，近物所 2005/6/28-29.

Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, SoLID status and Chinese contribution 1 Wang Yi Department of Engineering.

1 TOF Electronics Overview J. Schambach University of Texas DoE Review, BNL, 25 Sep 2006.

STAR Time-Projection Chamber Huan Zhong Huang Department of Engineering Physics Tsinghua University & Department of Physics and Astronomy University of.

24/03/2011P.-A. Loizeau – Univ. Heidelberg The CBM Time of Flight wall electronic readout chain Pierre-Alain Loizeau PI – Uni Heidelberg DPG 2011, Münster.

Huazhong Normal University (CCNU) Dong Wang.  Introduction to the Scalable Readout System  MRPC Readout Specification  Application of the SRS to CMB-MRPC.

Frank Geurts Rice University.  TOF Timing ◦ HPTDC chip ◦ Calibration for HPTDC Non-Linearity  TOF Performance Monitoring ◦ Online Monitoring ◦ Prompt.

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.

Frank Geurts Rice Univ..  Introducing ◦ barrel TOF and upVPD in Run 9  TOF software ◦ past, present, and future  Calibrations ◦ start, stop, and status.

Feb. 23rd, 05, STAR Collaboration Meeting, BNL X.Dong, USTC/LBNL 1 Time-Of-Flight in Data Stream in Run 4 and Run 5 Outline  TOF in Run 4  New design.

1 “Fast FPGA-based trigger and data acquisition system for the CERN experiment NA62: architecture and algorithms” Authors G. Collazuol(a), S. Galeotti(b),

QM2005 BudapestJaroslav Bielcik  Motivation  STAR and electron ID  Analysis  Results: p+p, d+Au, and Au+Au at  s NN = 200 GeV  Summary Centrality.

1 MTD Calibration for Cosmic Ray Triggered Data in RUN 10 at STAR Lijuan Ruan (BNL), Liang Li (UT Austin) 04/01/ Workshop on STAR MTD Production.

GEM/MRPC/Chinese Collaboration Haiyan Gao Duke University March 25, 2011.

Hadron Programs at HIRFL-CSR 1 Institute of Modern Physics, CAS, Lanzhou 2 Department of Physics, Tsinghua Univ., Beijing Hushan Xu 2 Zhigang Xiao 1 1.

STAR The Centrality Dependence of Strange Baryon and Meson Production in Cu+Cu and Au+Au with √s NN = 200 GeV Anthony Timmins for the STAR Collaboration.

 0 (1530) in  s NN =200 GeV Au+Au Collisions in STAR Richard Witt for the STAR collaboration Motivation Data Set Analysis Technique Results Comparisons.

STAR S.A. Voloshin Elliptic Flow at RHIC STAR Collaboration U.S. Labs: Argonne, Berkeley, Brookhaven National Labs U.S. Universities: Arkansas, UC Berkeley,

Third workshop on hadron physics in ChinaWang Yi, Tsinghua University A conceptional design of SOLID-TOF Outline: Development of low resistive glass and.

9 th Workshop on Electronics for LHC Experiments 2 October 2003 P. Antonioli (INFN/Bologna) A 20 ps TDC readout module for the Alice Time of Flight system:

高能物理大会广西桂林－ 11.1 J.WU USTC1 STAR-TOF and Related Physics Outline  Introduction  Performance of STAR-TOF prototypes  Physics results: achieved.

Nov.14-20, 2006 QM2006 Shanghai J.WU USTC1 A barrel TOF for STAR at RHIC Outline  Introduction  Performance of STAR-TOF prototypes  Physics results:

The Readout Electronics for Upgrading of BESIII End-capTOF Chunyan Yin University of Science and Technology of China University of Science and Technology.

Properties of particle production at large transverse momentum in Au+Au and Cu+Cu collisions at RHIC Outline Motivation Measurement ( ,p,pbar) Energy.

Berkeley Lab, May Bertrand H.J. Biritz1/16 Outline RHIC and STAR STAR Time of Flight (TOF) High and Low Voltage Power Supply Control Interface Daya.

Frank Geurts Rice University.  Time-of-Flight in STAR ◦ start & stop detectors in Run 9  Time-of-Flight Calibration ◦ upVPD ◦ barrel TOF ◦ preliminary.

April 27-29, Hangzhou1 STAR time-of-flight detector Calibration Ming SHAO USTC.

January 31, MICE DAQ MICE and ISIS Introduction MICE Detector Front End Electronics Software and MICE DAQ Architecture MICE Triggers Status and Schedule.

STAR Helen Caines The Ohio State University QM 2001 Jan 2001 Strangeness Production at RHIC.

Proposal for large-area high- rate Time-of-Flight and Muon Telescope Detector with MRPC technology for EIC Zhangbu Xu (BNL) BNL, Rice, UCLA, Tsinghua,

Hadron Physics in China & 12 GeV JLab, Lanzhou, July 31, Zebo Tang, USTC Zebo Tang University of Science and Technology of China (USTC) MRPC-TOF.

The STAR MRPC TOF Project BNL December 1, 2005 Geary Eppley, with Jo Schambach, for the TOF Group.

To Start a GO Project in China Keyun TANG 1 ， 7 Fei KANG 2 Yang ZhANG 3 Yanlin Ye 4 Zhukang DENG 5 Jun XU 6 Hongqi ZHANG 7 SunLiang CHI 8 Qingxi TONG 9.

ICPPA-2015 Moscow Oct ASIC for calorimetric measurements in astrophysical experiment NUCLEON (overview) E. Atkin1, A. Voronin1,2, D. Karmanov2,

Kraków4FutureDaQ Institute of Physics & Nowoczesna Elektronika P.Salabura,A.Misiak,S.Kistryn,R.Tębacz,K.Korcyl & M.Kajetanowicz Discrete event simulations.

Readout for the HFT at STAR. LG - STAR Upgrades Workshop Dec A Stand-alone Heavy Flavor Tracker for STAR Z. Xu Brookhaven National Laboratory,

Sensor testing and validation plans for Phase-1 and Ultimate IPHC_HFT 06/15/ LG1.

CIPANP '03Jets and high pT hadrons in STAR1 Jets and high p T hadrons: results from STAR Peter Jacobs Lawrence Berkeley National Laboratory STAR Collaboration.

Performance of Prototype MRPC Detector for STAR Frank Geurts (Rice Univ.) for the STAR TOF collaboration.

Chinese Contributions to FAIR Hushan Xu Institute of Modern Physics, CAS, Lanzhou

The UCLA Nuclear Physics Group

GEM R&D updates from Chinese groups Yuxiang Zhao University of Science and Technology of China May 24,

QM2005 BudapestJaroslav Bielcik  Motivation  STAR and electron ID  Analysis  Results: p+p, d+Au, and Au+Au at  s NN = 200 GeV  Summary Centrality.

CBM-TOF-FEE Jochen Frühauf, GSI Picosecond-TDC-Meeting.

NSS2006Shengli Huang1 The Time of Flight Detector Upgrade at PHENIX Shengli Huang PHENIX Collaboration Outlines: 1.Physics motivations 2.Multi-gap Resistive.

XI Workshop on Resistive Plate Chambers and Related Detectors, INFN, 5-10 February, Aging test of high rate MRPC Wang Yi Department of Engineering.

STAR Helen Caines The Ohio State University QM 2001 Jan 2001 Strangeness Production at RHIC.

A 2 Gsps Waveform Digitizer ASIC in CMOS 180 nm Technology

STAR Time-Projection Chamber

Sheng-Li Liu, James Pinfold. University of Alberta

QUARTIC TDC Development at Univ. of Alberta

A Low Power Readout ASIC for Time Projection Chambers in 65nm CMOS

MRPC -High Time Resolution Detector R&D at USTC CHINA Chen, Hongfang 2001/Oct. Oct.2001, Beijing MRPC，USTC.

TPC electronics Atsushi Taketani

X. Zhu1, 3, Z. Deng1, 3, A. Lan2, X. Sun2, Y. Liu1, 3, Y. Shao2

Yields & elliptic flow of and in Au+Au collisions at

Presentation transcript:

STAR TOF Readout Electronics and DAQ Joachim Schambach University of Texas at Austin For the STAR TOF Collaboration

CHEP 2003 J. Schambach, UT Austin 2 The STAR TOF Collaboration P. Fachini, Zhangbu Xu Brookhaven National Laboratory Feng Liu, Lianshou Liu, Zhixu Liu, Jinghua Fu, Yuan Hu, Zhiming Li, Yuanfang Wu, Yan Lu HuaZhong Normal University, Wuhan, China Jin Li, Junguang Lu, Bingyun Zhang Institute of High Energy Physics (IHEP), Beijing, China Wenlong Zhan, Zhiyu Sun Institute of Modern Physics (IMP), LanZhou, China D. Hardtke, F. Retiere, N. Xu Lawrence Berkeley National Laboratory, Berkeley, CA L. Kotchenda Moscow Engineering Physics Institute, Moscow, Russia J.W. Mitchell NASA - Goddard Space Flight Center, Greenbelt, MD G. Paic, E. Cuautle, A. Martinez, G. Calderon UNAM & CINVESTAV, Mexico City, Mexico B. Bonner, G. Eppley, F. Geurts, W.J. Llope, T. Nussbaum, J. Roberts Rice University, Houston, TX Wenging Shen, Yugang Ma, Xiangzhou Cai Shanghai Institute of Nuclear Research (SINR), Shanghai, China Kejun Kang, Jianping Cheng, Yuanjing Li, Yulan Li, Yi Wang Tsinghua University, Beijing, China C. Whitten, H. Huang, G. Igo, V. Ghazikhanian, S. Trentalange, A. Tai, H. Long University of California - Los Angeles, Los Angeles, CA Hongfang Chen, Xin Dong, Xiaolian Wang, Ziping Zhang, Cheng Li, Lijuan Ruan, Shuwei Ye, Jian Wu, Ming Shao, Shengli Huang University of Science and Technology of China (USTC), Hefei, China G. Hoffmann, A. Ishihara, C.F. Moore, L. Ray, J. Schambach, H. Ward University of Texas, Austin, TX T. Trainor University of Washington, Seattle, WA C. Markert Yale University, New Haven, CT

CHEP 2003 J. Schambach, UT Austin 3 RHIC at BNL

CHEP 2003 J. Schambach, UT Austin 4 Multi-Gap Resistive Plate Chamber Developed in collaboration with the ALICE TOF group CERN experiment HARP has been using it for 2 years Tested at CERN in 2000/01 and at AGS in 2002 Prototype tray with 192 channels in current STAR run Timing-resolution 95% Measure large & small scale correlations Increase statistics for multi- strange baryon measurements Extend the P t range of ID’d particles in STAR Gas: 90%C 2 H 2 F 4 5% Iso-Butane 5% SF 6 Pad Geometry

CHEP 2003 J. Schambach, UT Austin 5 TOF Tray Design

CHEP 2003 J. Schambach, UT Austin 6 Electronics Overview

CHEP 2003 J. Schambach, UT Austin 7 On Detector Electronics Maxim 3760AD96687 CERN HPTDC ASIC

CHEP 2003 J. Schambach, UT Austin 8 Off Detector Interface Electronics

CHEP 2003 J. Schambach, UT Austin 9 DAQ Receiver

CHEP 2003 J. Schambach, UT Austin 10 TDIG & TFEE Prototypes TDIG TFEE

CHEP 2003 J. Schambach, UT Austin 11 TDIG Prototype: “Jalapeno” (SBIR with Lloyd Bridges, Blue Sky Electronics) Microchip PIC18F8720 (with CANbus & Serial port) Altera APEX 20K family PLD 2 HPTDC’s, independent or chained JTAG interface Analog meant for comparison of slewing correction, section not (yet) implemented (final version will use time-over-threshold)

CHEP 2003 J. Schambach, UT Austin 12 “Jalapeno” Test Environment PLD used for I/O routing to/from TDC Micro used for power-up sequencing and interface to PC TDC programming via JTAG Current readout of TDC via JTAG as well JTAG software interface via “Standard Test and Programming Language” (STAPL), a JEDEC standard (JESD71), originally the “JAM” Programming & Test Language from Altera Free STAPL “player” available from Altera, including source code Jam player code modified to write optional data files from JTAG output Jalapeno used to learn the (rather complicated) HPTDC ASIC Used to verify that proposed time resolution can be achieved Initially used pulsers, then interface with prototype TFEE

CHEP 2003 J. Schambach, UT Austin 13 HPTDC Architecture

CHEP 2003 J. Schambach, UT Austin 14 Internal Time Resolution HPTDC measures timestamps only Pulse generated by TDC clock is used to reset TDC, so all data points fall into approximately the same bin A delayed version of this pulse is used as hit (with delays generated by an HP8131A pulse generator)

CHEP 2003 J. Schambach, UT Austin 15 TFEE and TDIG Time Resolution Data from complete TFEE and TDIG chain Input pulser lightly coupled and capacitively loaded to simulate MRPC’s