Joint Optoelectronics Working-Group Valencia, 27 Sep 2006 1. Survey results and analysis 2. Comments and discussion 3. Joint projects? 4. Links to management.

Slides:

Advertisements

Similar presentations

The Versatile Link Feasibility Demonstration (Project phase II)

Advertisements

The Radiation Tolerance of Specific Optical Fibers at −25 °C Joshua Abramovitch Southern Methodist University Faculty Advisors: Dr. Andy Liu, Dr. Jingbo.

IEEE10/NSS R. Kass N A. Adair, W. Fernando, K.K. Gan, H.P. Kagan, R.D. Kass, H. Merritt, J. Moore, A. Nagarkar, S. Smith, M. Strang The Ohio State.

Richard Kass IEEE NSS 11/14/ Richard Kass Radiation-Hard ASICs for Optical Data Transmission in the ATLAS Pixel Detector K.E. Arms, K.K. Gan, M.

Optoelectronic Multi-Chip Module Demonstrator System Jason D. Bakos Donald M. Chiarulli, Steven P. Levitan University of Pittsburgh, USA.

CALICE-UK Status Marcel Stanitzki Rutherford Appleton Laboratory.

1 MUON UPGRADE: ME0 GMM All engineering drawings from Sasha Surkhov PRELIMINARY !!

C. Foudas, Imperial CMS Upgrades Workshop FNAL – Trigger Introduction Status of the CMS Trigger Upgrade Activities: –uTCA and Optical Link upgrades.

Status of opto R&D at SMU Jingbo Ye Dept. of Physics SMU For the opto WG workshop at CERN, March 8 th, 2011.

16 Sep 2008 Versatile Link Status Report F. Vasey on behalf of the project steering board With input from C. Issever J. Troska.

IEEE06/San Diego R. Kass N Bandwidth of Micro Twisted-Pair Cables and Spliced SIMM/GRIN Fibers and Radiation Hardness of PIN/VCSEL Arrays W. Fernando,

Versatile Link Project Description

A Serializer ASIC for High Speed Data Transmission in Cryogenic and HiRel Environment Tiankuan Liu On behalf of the ATLAS Liquid Argon Calorimeter Group.

1 A Serializer ASIC at 5 Gbps for Detector Front-end Electronics Readout 1.Overview. 2.Test results of LOCs1, the 5 Gbps 16:1 serializer. 3.Test results.

U.S. ATLAS Executive Meeting Upgrade R&D August 3, 2005Toronto, Canada A. Seiden UC Santa Cruz.

IEEE08/NSS R. Kass N Radiation-Hard/High-Speed Data Transmission Using Optical Links W. Fernando, K.K. Gan, A. Law, H.P. Kagan, R.D. Kass, J. Moore,

1 WP3 Bi-Weekly Meeting Activities at Liverpool 1.Evaluation of Compact DCDC converter Designed to match up to an ABC130 module 2.Status of FIB’d hybrid/module.

Tony WeidbergATLAS Tracker Upgrade Liverpool December '06 1 SLHC Optoelectronics Readout architectures Technologies for TX High speed multiplexing Packaging.

Roger Rusack – The University of Minnesota 1.

V. Cindro, Jožef Stefan Institute, Ljubljana, Slovenia DAQ, DCS, Power Supply and Cables Review CERN, March Electrical PP1 Basic features Electrical.

Introduction This work is supported by US-ATLAS R&D program for the upgrade of the LHC, and the US Department of Energy grant DE-FG02-04ER We are.

Versatile Link The Versatile Transceiver Development Status Csaba Soos, Vincent Bobillier, Stéphane Détraz, Spyros Papadopoulos, Christophe Sigaud, Pavel.

FF-LYNX (*): Fast and Flexible protocols and interfaces for data transmission and distribution of clock, trigger and control signals (*) project funded.

ICTPP09 R. Kass Radiation-Hardness of VCSELs & PINs Richard Kass The Ohio State University OUTLINE Introduction/ATLAS pixel detector Radiation Hardness.

Optical Links CERN Versatile Link Project VL – Oxford involvement CERN VL+ for ATLAS/CMS phase II upgrade – Introduction and aims – Oxford workpackage:

WP1 WP2 WP3 WP4 WP5 COORDINATOR WORK PACKAGE LDR RESEARCHER ACEOLE MID TERM REVIEW CERN 3 RD AUGUST 2010 Mid-term review presentation 3rd August 2010 Ioannis.

Background Physicist in Particle Physics. Data Acquisition and Triggering systems. Specialising in Embedded and Real-Time Software. Since 2000 Project.

SLHC Proposal B Status Optical Readout System Irradiation Guidelines K.K. Gan, Karl Gill, Jan Troska, Francois Vasey, Todd Huffman, Cigdem Issever, Tony.

C. Issever, Oxford 1 Status of Radiation Proposal Focus on: Amendment to Proposal Radiation Protocols.

GEM Trackers for Super BigBite Spectrometer (SBS) in Hall JLab The Super Big Bite Spectrometer (SBS) is one of the major new equipment in hall A in.

Latest ideas in DAQ development for LHC B. Gorini - CERN 1.

Jorgen Christiansen, CERN PH-ESE 1.  Spokes persons and Institute chair elected ◦ SP’s: ATLAS: Maurice Garcia-Sciveres, LBNL CMS: Jorgen Christiansen,

The GBT, a Proposed Architecture for Multi-Gb/s Data Transmission in High Energy Physics P. Moreira CERN – Geneva, Switzerland Topic Workshop on Electronics.

DPF 2011 R. Kass 1 P. Buchholz, A. Wiese, M. Ziolkowski Universität Siegen OUTLINE Introduction Result on 4-channel Driver/Receiver with Redundancy Design.

J.Ye / SMU Sept.4, 2007 Joint ATLAS CMS Opto-electronics working group, subgroup C 1 Report from sub-group C, Optical Link Evaluation Criteria and Test.

4 March 2009 Versatile Link Project Status F. Vasey on behalf of the project steering board With input from C. Issever J. Troska.

1 Status Report on the LOC ASIC 1.The LOC ASIC proposal 2.The SOS technology 3.LOC1 test results 4.LOC2 design status 5.Summary Datao Gong, Andy Liu, Annie.

System and Irradiation Tests on the GOL chip.

CMS-UK Oversight Committee 18/11/03 R M Brown - RAL 1 Exploded view of CMS ECAL Tracker HCAL 4T solenoid Muon chambers Total weight: 12,500 t Overall diameter:

JRA2-brainstorming 4/1/2006, Lucie Linssen, slide 1 introduction to CERN in EUDET The CERN PH (physics) department participates in EUDET PH department:

The ATLAS Collaborative Tool Project A broad overview.

Links from experiments to DAQ systems Jorgen Christiansen PH-ESE 1.

A high speed serializer ASIC for ATLAS Liquid Argon calorimeter upgrade Tiankuan Liu On behalf of the ATLAS Liquid Argon Calorimeter Group Department of.

1 The Link-On-Chip (LOC) Project at SMU 1.Overview. 2.Status 3.Current work on LOCs6. 4.Plan and summary Jingbo Ye Department of Physics SMU Dallas, Texas.

1 Preparation to test the Versatile Link in a point to point configuration 1.Versatile Link WP 1.1: test the Versatile Link in a point to point (p2p) configuration.

Calorimeter Digitisation Prototype (Material from A Straessner, C Bohm et al) L1Calo Collaboration Meeting Cambridge 23-Mar-2011 Norman Gee.

Common R&D projects for the LHC upgrade and plans for irradiation facilities Outline: PH common R&D projects Working Group on future irradiation facilities.

RESEARCHERS WP1 WP2 WP3 WP4 WP5 COORDINATOR WORK PACKAGE LDR RESEARCHER ACEOLE MID TERM REVIEW CERN 3 RD AUGUST 2010 ACEOLE WP4 Optical Transmission Systems.

May 2007DC-DC --- US ATLAS Upgrade R&D --- Garcia-Sciveres1 DC-DC converter R&D US ATLAS Upgrade UCSC May 2007.

Opto Working Group Meeting Summary Tuesday 8 March 2011 Tobias Flick and Francois Vasey.

11 Apr The Versatile Link Project CERN CERN Jan Troska, Francois Vasey, et al. Jan Troska, Francois Vasey, et al. Oxford Oxford.

W. Smith, U. Wisconsin, Upgrade MB, Sept. 9, 2011 Proposal Reviews - 1 Upgrade Peer Review Report Wesley H. Smith U. Wisconsin CMS Upgrade Peer Review.

1 Back-Of-Crate : BOC Status Oct, 2002 BOC is the optical fibre interface for the ROD Receives module control data from ROD, performs clock-data encoding,

5 Gbps J. SMU 1 A Serializer for LAr Front-end electronics upgrade 1.Requirements and design philosophy. 2.Key features of the serializer.

Evaluation of Emerging Parallel Optical Link Technology for High Energy Physics John Chramowicz, Simon Kwan, Alan Prosser, Melissa Winchell Fermi National.

Jorgen Christiansen, CERN PH-ESE 1.  EPIX ITN proposal did not get requested EU funding ◦ CERN based proposals did very bad this time. ◦ I better not.

1 Status report on the LAr optical link 1.Introduction and a short review. 2.The ASIC development. 3.Optical interface. 4.Conclusions and thoughts Jingbo.

Optical Communications for Future Trackers ANL/FNAL/UC/VWS Meeting Nov., 2011 Alan Prosser CD/ESE Fermilab 1.

1 ASIC Development for High Speed Serial Data Transmission from Detector Front-end to the Back-end 1.Overview. 2.Test results of LOCs1, a 5 Gbps 16:1 serializer.

1 Roger Rusack The University of Minnesota. Projects  Past Projects  11,000 channels of 0.8 Gbs for the CMS crystal calorimeter readout.  1,500 channels.

K. Long, 25 June, 2016 IDR: structure and overall timeline: Slides are to introduce discussion of how we prepare IDR. Propose to revise slides as we discuss.

On detector electronics: High voltage part Tilecal session in ATLAS upgrade week (Tuesday 10 November 2009) François Vazeille  What are the constraints.

Southern Methodist University

ATLAS Tracker Upgrade Liverpool December '06

The Silicon-on-Sapphire Technology:

CERN R&D plans and Infrastructures

TileCal upgrade EVO meeting Demonstrator tesks

EU Institution Board 1 representative of each participating institute

The CMS Tracking Readout and Front End Driver Testing

Perugia SuperB Workshop June 16-19, 2009

Presentation transcript:

Joint Optoelectronics Working-Group Valencia, 27 Sep Survey results and analysis 2. Comments and discussion 3. Joint projects? 4. Links to management

Proposed way forward 23 June 2006 By Aug 31 st, Institutes express their interest to participate to WPa.b and indicate their available resources On Sep 27 th (LECC06 Valencia), the work-packages which have reached critical mass and group two or more institutes can be launched ATLAS and CMS Funding requests for optoelectronics R&D are commonly reviewed by WG members who sit in CMS or ATLAS SLHC review committees.

Joint Optoelectronics Working-Group Proposed Work-package Breakdown Optoelectronics working group FEBE 2. System layer 1.1 Interface to front end 1.4 Interface to back end 1.2 data collection 1.3 data transport 1. Physical layer 2.1 Design and simulation 2.2 Demonstrators2.3 Testing 2.4 Interface to DAQ 3. Environment 3.1 Radiation hardness 3.2 Reliability

Joint Optoelectronics Working-Group Interested Institutes Academia Sinica (?) –S.C Lee, TBD Ohio State University –K.K. Gan, 1.5 FTE University of Oklahoma Oklahoma State University –Patrick Skubic, 1.4 FTE Southern Methodist University –Jingbo Ye, 8 FTE University of Ljubljana –Igor Mandic, 0.3 FTE University of Oxford –Cigdem Issever, 1.6 FTE CCLRC RAL Technology-ESD –John Coughlan, 0.5 FTE CERN-PH-MIC –Francois Vasey, 5 FTE Imperial College (?) –Geoff Hall, TBD IN2P3-IRES Strasbourg –Abdenour Lounis, 3 FTE Polytechnique LLR –T. Romanteau, 1.2 FTE University of Minnesota (at CERN) –R. Rusack, 0.5 FTE 7 institutes, 12.8FTE6 institutes, 10.2FTE ATLAS origin CMS origin

Joint Optoelectronics Working-Group Survey Results FEBE 2. System layer 1.1 Interface to front end IRES (super hybrid) 1.4 Interface to back end RAL (system on FPGA) Polytechnique (FPGA) 1.2 data collection SMU (interface ASIC) CERN (Versatile bidi link) 1.3 data transport SMU (link on chip) Ohio (driver, receiver) Oklahoma, Ohio (tests) Taiwan (ASIC) IRES CERN (Versatile bidi link) 1. Physical layer 2.1 Design and simulation SMU Polytechnique (behavioral model) 2.2 Demonstrators Ohio SMU CERN (PON) 2.3 Testing Oxford IRES (test DAQ) CERN, Minnesota 2.4 Interface to DAQ Polytechnique (ACTA) RAL (ATCA) IRES 3. Environment 3.1 Radiation hardness Oxford, Ljubljana Oklahoma, Ohio, SMU CERN, Minnesota 3.2 Reliability SMU Oxford CERN ATLAS+CERN CMS

Announced Development Projects

SMU Project Flipped OE devices on SoS substrate transparent sapphire substrate (UTSi) active CMOS layer quad PIN array flip chip attachment quad VCSEL array UTSi integrated photo detector MMF ribbon fiber VCSEL driver circuitry receiver circuitry UTSi integrated circuitry 200 um

CERN project proposal: Versatile Bi-directional Digital Link

Joint Optoelectronics Working-Group Interpretation of Survey Results 13 institutes, 23 FTE 3 institutes above 3 FTE: SMU (8), CERN (5), IRES (3) 2 development projects announced: –Link on chip SOS (SMU, ongoing) –Versatile bidirectional link (CERN, proposal) 10 institutes below 3 FTE (0.8 average) –Mostly involved in testing Core activity: ex-ATLAS and CERN –Optoelectronics developments and testing Periphery: ex-CMS –Hybrids, Backends, system modeling No system level work Comments Please

Proposal for a different operating mode, 23 June 2006 Move from reporting to collaborating mode Identify the areas of expertise of collaborators Collaborate in smaller subgroups, organize topical meetings? Prepare common R&D proposals? Report at bi-yearly plenary meetings

Joint Optoelectronics Working-Group Possible Sub Groups ? FEBE 2. System layer 1.1 Interface to front end IRES (super hybrid) 1.4 Interface to back end RAL (system on FPGA) Polytechnique (FPGA) 1.2 data collection SMU (interface ASIC) CERN (Versatile bidi link) 1.3 data transport SMU (link on chip) Ohio (driver, receiver) Oklahoma, Ohio (tests) Taiwan (ASIC) IRES CERN (Versatile bidi link) 1. Physical layer 2.1 Design and simulation SMU Polytechnique (behavioral model) 2.2 Demonstrators Ohio SMU CERN (PON) 2.3 Testing Oxford IRES (test DAQ) CERN, Minnesota 2.4 Interface to DAQ Polytechnique (ACTA) RAL (ATCA) IRES Environment 3.1 Radiation hardness Oxford, Ljubljana Oklahoma, Ohio, SMU CERN, Minnesota 3.2 Reliability SMU Oxford CERN Interfaces Components and system

Joint Optoelectronics Working-Group Possible Collaborative projects ? Test procedures and metrics Test equipment and facilities System level test beds Opto-system specifications and interfaces Connectivity to front and back-end … Or crystallize around announced projects

Joint Opto Group ↔ ATLAS/CMS/CERN Upgrade Management Joint Opto Group: ATLAS CMS CERN ATLAS: Upgrade Steering Group & Upgrade Project Office CERNCMS: Upgrade Steering Group Inclusion of Joint Opto Group into upgrade managements? Review of joint proposals? Submit to three review panels? Can we simplify ?