<p>617</p><p><strong>Table of Contents</strong></p><p>617</p><p>ORGANISATION 1</p><p>OVERVIEW 2</p><p>PLENARY SESSIONS 2</p><p>ROUNDTABLE 3</p><p>PARALLEL WORKING GROUPS 3</p><p>POSTERS 3</p><p>INDUSTRIAL EXHIBITION 3</p><p>NEXT WORKSHOP 3</p><p>PLENARY TALKS 5</p><p>Raymond Rausch (CERN, Geneva, Switzerland) Electronics Components and Systems, Radiation Qualification for Use in the LHC Machine 7</p><p>Krishna Shenai (University of Illinois, Chicago, Illinois, USA) Electronics for High-Energy Physics Experiments in the Giga-Scale Integration Era 14</p><p><strong>Andrew J. Lankford</strong> (Department of Physics &amp; Astronomy, University of California, Irvine, California, USA) Developing and Commissioning BABAR Electronics 23</p><p>Peter Alfke (Xilinx, Inc., San Jose, California, USA) The Future of Field-Programmable Gate Arrays 36</p><p><strong>Jorgen Christiansen</strong> (CERN, Geneva, Switzerland) Testing LHC Electronics 41</p><p><strong>Birger Schneider</strong> (microLEX Systems A/S, Hoersholm, Denmark) Scalable Test Solutions: A Means of Improving ASIC Performance and Time-to-Market in Mixed-Signal Engineering Test 51</p><p>Jim Kinnison (The Johns Hopkins University, Applied Physics Laboratory, Laurel, Maryland, USA) Using COTS at the LHC: Building on Space Experience 61</p><p><strong>ELECTRONICS FOR TRACKERS 81</strong></p><p>John Richardson (Lawrence Berkeley National Laboratory, Berkeley, California, USA) The ATLAS Pixel On-Detector Electronics 83</p><p>Kenneth Wyllie (CERN, Geneva, Switzerland) A Pixel Readout Chip for Tracking at ALICE and Particle Identification at LHCb 93</p><p><strong>Abderrezak Mekkaoui</strong> (Fermi National Accelerator Laboratory, Batavia, Illinois, USA) FPIX1: an Advanced Pixel Readout Chip 98</p><p><strong>Waclaw Karpinski</strong> (I.Physikalisches Institut RWTH, Aachen, Germany) Performance Studies of Pixel Readout Electronics in RICMOS IV-SOI and DMILL Processes 103</p><p>Ulrich Goerlach (Institut de Recherches Subatomiques IreS, Strasbourg, France) Recent Developments and Results on APV (DMILL) Circuits for Silicon and MSGC Detectors 108</p><p><strong>Wladek Dabrowski</strong> (Faculty of Physics and Nuclear Techniques, UMM, Krakow, Poland) presented by Francis Anghinolfi (CERN, Geneva , Switzerland) Radiation Hardness of the ABCD Chip for the Binary Readout of Silicon Strip Detectors in the ATLAS Semiconductor Tracker 113</p><p><strong>Francis Anghinolfi</strong> (CERN, Geneva , Switzerland) Performance of the Electrical Module Prototypes for the ATLAS Silicon Tracker 118</p><p>Tim Dubbs (Institute For Particle Physics, University of California, Santa Cruz, California, USA) The Development of the CAFE-P/CAFE-M Bipolar Chips for the ATLAS Semiconductor Tracker 123</p><p>Mitch Newcomer (Physics Department, University of Pennsylvania, Philadelphia, Pennsylvania, USA) Progress in Development of the ASDBLR ASIC for the ATLAS TRT 128</p><p>Carlos Lacasta (Instituto de Física Corpuscular, Valencia, Spain) Wafer Screening of the Front-End ASICs for ATLAS SCT 133</p><p>Gianni Mazza (Istituto Nazionale di Fisica Nucleare, Torino, Italy) Recent Developments on the Silicon Drift Detector Readout Scheme for ALICE Inner Tracking System 138</p><p>Arie de Haas (NIKHEF, Utrecht, The Netherlands) Very Low Mass Microcables for the ALICE Silicon Strip Detector 143</p><p><strong>Jean Robert Lutz</strong> (Institut de Recherches Subatomiques IReS, Strasbourg, France) TAB Bonded SSD Module for the STAR and ALICE Trackers 147</p><p>Markus French (Rutherford Appleton Laboratory, Didcot, UK) The Development of a Rad-Hard CMOS Chip for the Binary Readout of the ATLAS Semiconductor Tracker 152</p><p>Angelo Rivetti (CERN, Geneva, Switzerland and Politecnico. Torino, Italy) Analog Design in Deep Submicron CMOS Processes for LHC 157</p><p>Lawrence Jones (Rutherford Appleton Laboratory, Didcot, UK) The APV25 Deep Submicron Readout Chip for CMS Detectors 162</p><p>Edgar Sexauer (Max-Planck-Institute for Nuclear Physics, Heidelberg, Germany) Design of a Prototype Frontend and Bias Generator for a new Readout Chip for LHCb 167</p><p><strong>Optoelectronics and data transfer systems 173</strong></p><p><strong>Giovanni Cervelli</strong> (CERN, Geneva, Switzerland) Optical Links for the CMS Tracker 175</p><p>Kukka Banzuzi (Helsinki Institute of Physics, Espoo, Finland) Optical Link Developments for the CMS RPC 180</p><p>Gilles Mahout (School of Physics and Astronomy, University of Birmingham, Birmingham, UK) Radiation Hard Optical Links for the ATLAS SCT and Pixel Detectors 185</p><p>Federico Faccio (CERN, Geneva, Switzerland) An Amplifier with AGC for the 80Mbit/s Optical Receiver of the CMS Digital Optical Link 189</p><p>Paulo Moreira (CERN, Geneva, Switzerland) A 1.25Gbit/s Serializer for LHC Data and Trigger Optical Links 194</p><p><strong>Radiation and Magnetic Field Tolerant Electronics Systems 199</strong></p><p>Stephen Watts (Brunel University, Uxbridge, UK) Status of the RD48/ROSE Collaboration 201</p><p>Pratibha Vikas (University of Minnesota, Minneapolis, Minnesota, USA) Avalanche Photodiodes for the CMS Electromagnetic Calorimeter 203</p><p>Giovanni Bonna (ST Microelectronics, Catania, Italy) A Radiation-Hardened Low-Dropout Voltage Regulator for LHC and Space Applications 208</p><p><strong>Electronics for Calorimeters 215</strong></p><p>Jacques Colas (LAPP, Annecy-le-Vieux, France) Overview of the ATLAS LARG Electronics 217</p><p>Sergio Rescia (Brookhaven National Laboratory, Upton, New-York, USA) presented by Helio Takai (Brookhaven National Laboratory, Upton, New-York, USA) Characterization of the Coherent Noise, Electromagnetic Compatibility and Electromagnetic Interference of the ATLAS EM Calorimeter Front End Board 222</p><p>Horst Brettel (Max-Planck-Institute für Physik, München, Germany) Cold Electronics for the Liquid Argon Hadronic End-Cap Calorimeter of ATLAS 227</p><p>Bernhard Skaali (Department of Physics, University of Oslo, Oslo, Norway) Photodiode Read-Out of the ALICE Photon Spectrometer PbWO4 Crystals 232</p><p>Mauro Citterio (Brookhaven National Laboratory, Upton, New-York, USA) The Atlas Calorimeter Preamplifier: Performance, Radiation Damage, Electrostatic Discharge Resistance, Reliability and Manufacturing Issues 237</p><p><strong>Dominique Breton</strong> (Laboratoire de l'Accélérateur Linéaire, Orsay, France) The Front-End Electronics for LHCb Calorimeters 242</p><p>Teresa Monteiro (CERN, Geneva, Switzerland) Selective Readout in the CMS Electromagnetic Calorimeter 247</p><p>Bo Lofstedt (CERN, Geneva, Switzerland) The Digital Readout System for the CMS Electromagnetic Calorimeter 251</p><p>Magnus Engström (University of Stockholm, Stockholm, Sweden) presented by Jonas Klereborn (University of Stockholm, Stockholm, Sweden) The ATLAS Tile Calorimeter Digitizer 255</p><p><strong>Alan E. Baumbaugh</strong> (Fermi National Accelerator Laboratory, Batavia, Illinois, USA) First Testbeam Results for the QIE-Demonstrator Readout for the CMS Hadronic Calorimeter 260</p><p>Guy Perrot (LAPP, Annecy-le-Vieux, France) The ATLAS Calorimeter Calibration Board: Tests of a First Set of Boards New Developments 265</p><p>Jürgen Fent (Max-Planck-Institut für Physik, Werner Heisenberg Institute, München, Germany) Jet Determination in Lar- Calorimeters using a Heavily Interconnected System of FPGA's 270</p><p>Gérard Bohner (Laboratoire de Physique Corpusculaire, Université Blaise Pascal, Aubière, France) A Mixed Analog/Digital Shaper for the LHCb Preshower 274</p><p><strong>Trigger Electronics 279</strong></p><p>Valerio Bocci (Istituto Nazionale di Fisica Nucleare, Roma, Italy) Trigger Implementation in the KLOE Experiment 281</p><p>Vito Lenti (Dipartimento di Fisica dell'Università and Istituto Nazionale di Fisica Nucleare, Bari, Italy) New Developments for the ALICE Trigger 285</p><p>Cornelius Schumacher (Institut für Hochenergiephysik der Universität, Heidelberg, Germany) The Readout Bus of the ATLAS Level-1 Calorimeter Trigger Pre-Processor 290</p><p>Sridhara Dasu (University of Wisconsin, Madison, Wisconsin, USA) CMS Calorimeter Regional Trigger Prototypes 295</p><p>Viraj Perera (Rutherford Appleton Laboratory, Didcot, UK) The electron/photon and tau/hadron Cluster Processor for the ATLAS First-Level Trigger - a Flexible Test System 299</p><p>Jay Hauser (University of California, Los Angeles, California USA) Primitives for the CMS Cathode Strip Muon Trigger 304</p><p>János Erö (Institute for High Energy Physics HEPHY, Vienna, Austria and CERN, Geneva, Switzerland) New Approach for the CMS Muon Trigger Track Finder Processor 309</p><p>Samuel Silverstein (Stockholm University, Stockholm, Sweden) Use of Programmable Logic in a Pipelined Trigger for ATLAS 314</p><p>Darin Acosta (University of Florida, Gainesville, Florida, USA) The Track-Finding Processor for the Level-1 Trigger of the CMS Endcap Muon System 318</p><p>John Dawson (Argonne National Laboratory, Argonne, Illinois, USA) A Prototype ROI Builder for the Second Level Trigger of ATLAS Implemented in FPGA's 323</p><p>Per Gällnö (CERN, Geneva, Switzerland) Modules Development for the TTC System 327</p><p>Kazumi Hasuko (International Center for Elementary Particle Physics ICEPP, University of Tokyo, Tokyo, Japan) Strategy for Timing Adjustment of ATLAS End-Cap/Forward Muon Trigger System 331</p><p>Martin Postranecky (University College London, Department of Physics and Astronomy, London, UK) Timing, Trigger and Control Interface Module for ATLAS SCT Read Out Electronics 336</p><p>Data Acquisition &amp; Detector Control and Real Time System 341</p><p>Attila Racz (CERN, Geneva, Switzerland) Generic Hardware for DAQ Applications 343</p><p>Dominique Gigi (CERN, Geneva, Switzerland) Dual-Port Memory with Reconfigurable Structure 348</p><p>Jose Toledo-Alcarcon (Politechnical University, Valencia, Spain) Readout Unit for the LHCb Experiment 352</p><p>John A. Coughlan (Rutherford Appleton Laboratory, Chilton, Didcot, Oxon, UK) presented by Steve Quinton (Rutherford Appleton Laboratory, Chilton, Didcot, Oxon, UK) A PMC Based ADC Card for CMS Tracker Readout 357</p><p>Carlos Beltrán Almeida (Instituto de Engenharia de Sistemas e Computadores, Lisboa, Portugal) Testability Issues in the CMS ECAL Upper-Level Readout and Trigger System 361</p><p>Wilfred. E. Cleland (University of Pittsburgh, Pittsburgh, Pennsylvania, USA) Readout Driver for the ATLAS Liquid Argon Calorimeters 366</p><p>Detlef Swoboda (CERN, Geneva, Switzerland) The Detector Control System for ALICE - Architecture and Implementation 371</p><p>Alexander Kluge (CERN, Geneva, Switzerland) Study of the ALICE Time of Flight Readout System - AFRO 377</p><p>Horst Fischer (Fakultät für Physik, Universität Freiburg, Freiburg, Germany) F1 - An Eight Channel Time-to-Digital Converter Chip for High Rate Experiments 383</p><p>Grounding Shielding and Cooling 389</p><p>Fritz Szoncsó (CERN, Geneva, Switzerland) Assessment of EMC Parameters of LHC Front End Electronics 391</p><p>Werner Lustermann (ETH, Zürich, Switzerland) presented by Nedko Shivarov (Bulgarian Academy of Sciences, Central Lab. of Mechatronics &amp; Instrumentation, Sofia, Bulgaria &amp; ETH, Zürich, Switzerland) Low Voltage Supply System for the Very Front End Readout Electronics of the CMS Electromagnetic Calorimeter 397</p><p>Mauro Citterio (Brookhaven National Laboratory, Upton, New-York, USA) Are Switching Power Supplies Acceptable for the Liquid Argon Calorimeter Front-End Electronics? 402</p><p>Warren H. Newman (Intersil Corporation, Melbourne, Florida, USA) Radiation Hardened Power Electronics 407</p><p>Juan A. Agapito (Universidad Complutense, Electronics Department, Madrid, Spain) Preliminary Test for Radiation Tolerant Electronic Components for the LHC Cryogenic System 411</p><p>Michel Bosteels (CERN, Geneva, Switzerland) Liquid Cooling Systems (LCS2) for LHC Detectors 416</p><p>Greg Hallewell (Centre de Physique des Particules CPPM, Marseille, France and CERN, Geneva, Switzerland) Fluorocarbon Evaporative Cooling Developments for the ATLAS Pixel and Semiconductor Tracking Detectors 421</p><p>Giovanni M. Grieco (C.A.E.N. S.p.A., Viareggio, Italy) Custom HV and LV Supplies for LHC Experiments 427</p><p>Electronics for Muon Detectors 429</p><p>Jean-Claude Santiard (CERN, Geneva, Switzerland) The Gassiplex0.7-2 Integrated Front-End Analog Processor for the HMPID and the Dimuon Spectrometer of ALICE 431</p><p>Werner Riegler (Harvard University, Cambridge, Massachusetts, USA) Development of an Octal CMOS ASD for the ATLAS Muon Detector 436</p><p>Osamu Sasaki (High Energy Accelerator Research Organisation KEK, Tsukuba, Japan) ASD for the Thin Gap Chambers in the LHC ATLAS Experiment 443</p><p>John W. Chapman (University of Michigan, Ann Arbor, Michigan, USA) Data Flow Simulations through the ATLAS Muon Front-End Electronics 448</p><p>Paul O'Connor (Brookhaven National Laboratory, Upton, New-York, USA) Readout Electronics for a High-Rate CSC Detector 452</p><p>Flavio Loddo (Dipartimento Interateneo di Fisica and Istituto Nazionale di Fisica Nucleare, Bari, Italy) A Prototype Front End Chip for the CMS Resistive Plate Chambers 457</p><p>Yasuo Arai (National High Energy Accelerator Research Organisation KEK, Tsukuba, Japan) Performance and Irradiation Tests of the 0.3 µm CMOS TDC for the ATLAS MDT 462</p><p>POSTERS 467</p><p>Pisana Placidi (CERN, Geneva, Switzerland and University and Istituto Nazionale di Fisica Nucleare, Perugia, Italy) A 40 MHz Clock and Trigger Recovery Circuit for the CMS Tracker Fabricated in a 0.25 µm CMOS Technology and Using a Self Calibration Technique 469</p><p>Thomas Meyer (Department of Physics and Astronomy, Iowa State University, Ames, Iowa, USA) CANbus and Microcontroller Use in the BaBar Detector at SLAC 473</p><p>Cornelius Schumacher (Institut für Hochenergiephysik, Heidelberg, Germany) The ATLAS Level-1 Calorimeter Trigger Pre-Processor 478</p><p>Gustavo Cancelo (Fermi National Accelerator Laboratory, Batavia, Illinois, USA) Optimization of a Readout Architecture for Pixel Detectors 483</p><p>Zoltán Meggyesi (CERN, Geneva, Switzerland) FPGA Design in the Presence of Single Event Upsets 489</p><p>György Rubin (CERN, Geneva, Switzerland) The ALICE Detector Data Link 493</p><p>Yury Volkov (Moscow Engineering Physics Institute, Moscow, Russia) Development of the Printed Circuit Units for Multiwire Chambers 499</p><p>Eduard Atkin (Moscow Engineering Physics Institute, Moscow, Russia) Analog Signal Splitter 501</p><p>Cristoforo Marzocca (Dipartimento di Elletrotecnica ed Elettronica, Politecnico, Bari, Italy) Relative Robustness Against Process Fluctuations of Basic Building Blocks for Analog Front-End of Particle Detectors 503</p><p>Ulrich Trunk (Max-Planck-Institut für Kernphysik, Heidelberg, Germany) Performance and Radiation Tolerance of the Helix128-2.2 and 3.0 Readout Chips for the HERA-B Microstrip Detectors 508</p><p>Jonathan Fulcher (Imperial College, London, UK) Single Event Upset Studies on the APV6 Front End Readout Chip 513</p><p>Nunzio Randazzo (University of Catania and Istituto Nazionale di Fisica Nucleare, Catania, Italy) Charge Amplifier and Analog Memory for Silicon Drift Detectors in ALICE 518</p><p>Paul Mockett (University of Washington, Seattle, Washington, USA) A Low Cost CAN Node for A/D Measurements in ATLAS 521</p><p>Magnus Hansen (CERN, Geneva, Switzerland) FERMI - A Digital Front End Readout Micro-System for Calorimetric Detectors at LHC 525</p><p>Jean-Pierre Mendiburu (LAPP, Annecy-le-Vieux, France) The Electronic Calibration of the ECAL-CMS 531</p><p>Christine Hu-Guo (Institut de Recherches Subatomiques IReS, Strasbourg, France) Low Noise BiCMOS Front-End Amplifier in the DMILL Technology 537</p><p>Christine Hu-Guo (Institut de Recherches Subatomiques IReS, Strasbourg, France) A 128 Channels Analog Readout Chip (APVD_DC) for DC-Coupled Silicon Detectors of the CMS Tracker 542</p><p>Peter Skorobogatov (Specialized Electronic Systems, Moscow, Russia) Use of Diffused Laser Irradiation to Improve Dose Rate Simulation Adequacy 547</p><p>Christian Kiesling (Max-Planck-Institut für Physik, München, Germany) Neural Network Triggers for Global Event Decision at the LHC 551</p><p>Vladimir Popov (Institute for Theoretical and Experimental Physics, Moscow, Russia) The HERA-B high-PT Level-0 Trigger Logic Electronics 557</p><p>Daniel Dzahini (ISN, Grenoble, France) An Automated Test Bench for the ATLAS Shapers and SCAs 561</p><p>Hermann Kolanoski (DESY, Zeuthen, Germany) Large-System Experience with the ASD-8 Chip in the HERA-B Experiment 564</p><p>PAPER ONLY 569</p><p>Federico Faccio (CERN, Geneva, Switzerland) SEU effects in registers and in a Dual-Ported Static RAM designed in a 0.25 µm CMOS technology for applications in the LHC 571</p><p>Ekkehard Gerndt (DESY, Hamburg, Germany) The HERA-B Level 1 Trigger 576</p><p>Michel Dupanloup (Institut de Physique Nucléaire de Lyon, Villeurbanne, France Preliminary Irradiation Tests of the APVD Circuit for the CMS Tracker 581</p><p>Vitali V. Sushkov (University of California, Riverside, California, USA) Noise Contribution to Timing with Fraction Discriminators 588</p><p>LIST OF PARTICIPANTS 593</p><p>INDEX 607</p><p>617</p><h2>ORGANISATION</h2><p>The fifth in this series of workshops on Electronics for LHC Experiments, was organised for the CERN LHCC Electronics Board by the University of Wisconsin, Madison, Wisconsin, USA.</p>