Options for future high luminosity upgrades of the LHC machine (p. 3) |
by Brüning, Oliver Sim |
R&D on Front-End Electronics for Linear Collider Detector Applications (p. 8) |
by Schumm, B A |
BTeV electronics (p. 16) |
by Butler, Joel |
Field Programmable Gate Arrays in 2004 (p. 26) |
by Alfke, Peter |
Optical links for LHC: experience from the CMS project and future prospects (p. 31) |
by Vasey, François |
Trigger and Data Acquisition for the Super LHC (p. 34) |
by Smith, Wesley H |
Advanced Solid State Detector Technologies for Particle Detection (p. 38) |
by Moraes, Danielle |
Pixel Multichip Module for the BTeV Experiment at Fermilab (p. 42) |
by Cardoso, Guilherme |
Integration and test of the ALICE SPD readout chain (p. 47) |
by Boccardi, Andrea |
Dedicated front-end electronics for the next generation of linear collider electromagnetic calorimeter (p. 51) |
by Manen, S |
Analog Design in ULSI CMOS Processes (p. 54) |
by Anelli, Giovanni |
Linear transmission of analogue current-signals via fibre optics using the Optically-Coupled Current-Mirror (OCCM) architecture (p. 59) |
by Camin, D V |
CDF Level 2 Trigger Upgrade : the Pulsar Project (S-Link based)(p. 63) |
by Bogdan, M |
Tiny Triplet Finder (TTF) : A track segment recognition scheme and its FPGA(p. 68) |
by Wu, J |
An Initial Look at a CMS Level-1 Trigger for an Upgraded LHC (p. 73) |
by Cussans, D G |
An Asynchronous Level-1 Tracking Trigger for Future LHC Detector Upgrades (p. 77) |
by Madorsky, A |
The Large Synoptic Survey Telesope project : A Proposed Facility for Pursuing New Fundamental Physics(p. 85) |
by Stubbs, Christopher |
Recent Results on the Development of Ultra Radiation Hard : Semiconductor Detectors for Very High Luminosity Colliders(p. 92) |
by Bruzzi, Mara |
Electronics Issues & challenges for future linear colliders (p. 96) |
by Le Dû, P |
Qualification of the Front End Cards for the CMS ECAL (p. 101) |
by Gastal, Martin |
The CMS ECAL Very Front End Electronics Production and Test (p. 107) |
by Biino, C |
Radiation effects and mitigation strategies for modern FPGAs (p. 112) |
by Stettler, Marc |
Irradiation tests of ROHM 0.35um ASIC and Actel Anti-fuse FPGA for the ATLAS Muon Endcap Level-1 Trigger System (p. 117) |
by Ichimiya, R |
Realization of ladder EndCap electronics for the ALICE ITS SSD (p. 122) |
by Kluit, Ruud |
A flexible stand-alone testbench for facilitating system tests of the CMS Preshower (p. 127) |
by Vichoudis, Paschalis |
LHCb Silicon Tracker electronics : from R&D to Preproduction(p. 132) |
by Vollhardt, Achim |
PACE3 : A large dynamic range analog memory ASIC assembly designed for the readout of silicon sensors in the LHC CMS Preshower (p. 137) |
by Aspell, P |
SEU robustness, total dose radiation hardness and analog performance of the Beetle chip (p. 142) |
by Trunk, Ulrich |
Production Testing and Quality Assurance of CMS Silicon Microstrip Tracker Readout Chips (p. 148) |
by Barrillon, Pierre |
High Statistics Testing of Radiation Hardness and Reliability of Lasers and Photodiodes (p. 153) |
by Gill, K |
Optical Data Links in CMS ECAL (p. 158) |
by Grahl, James |
Predicting the In-System Performance of the CMS Tracker Analogue Readout Optical Links (p. 164) |
by Dris, Stefanos |
Qualification of the CMS Tracker Control Link Digital Optohybrid (p. 169) |
by Noah, E |
Experience with Large-Scale Industrial Production Considering the CMS Tracker Analog Optohybrids (p. 174) |
by Friedl, M |
Radiation-hard ASICs for optical data transmission in the ATLAS pixel detector (p. 179) |
by Rahimi, A |
Radiation tolerance tests for key components of the ALICE TOF Tdc Readout Module (p. 184) |
by Antonioli, Pietro |
Packaging technology for the electronics of the ALICE LHC experiment (p. 189) |
by Blank, T V |
The powering scheme of the CMS tracker (p. 194) |
by Paoletti, Simone |
Power supplies for LHC Experiments for SE and HE application (p. 199) |
by Plein, M |
Overview of the ATLAS Electromagnetic Compatibility Policy (p. 205) |
by Blanchot, Georges |
Multiprocessor system controlling power supply distribution for the ATLAS SCT (p. 210) |
by Malecki, Piotr |
Test results of the Data Concentrator Card of the CMS Electromagnetic Calorimeter Readout System (p. 217) |
by Alemany, R |
Performance of the CMS Silicon Tracker Front-End Driver (p. 222) |
by Iles, G |
The Muon Sorter in the CMS Drift Tubes Regional Trigger (p. 227) |
by Guiducci, Luigi |
Tile Calorimeter Read Out Driver : Firmware Developments for the Final Prototype(p. 232) |
by Castelo, J |
Design and Performance of a PCI Interface with four 2 Gbit/s Serial Optical Links (p. 238) |
by Haas, S |
The L0 Off Detector Electronics (ODE) for the LHCb muon spectrometer (p. 243) |
by Balla, A |
Tests of the Boards Generating the CMS ECAL Trigger Primitives : from the On-Detector Electronics to the Off-Detector Electronics System(p. 248) |
by Paganini, P |
Design of a z-Vertex Trigger and its Operation Experience in the H1 Experiment at HERA (p. 253) |
by Urban, M C |
The final design of the ATLAS Trigger/DAQ Readout-Buffer Input (ROBIN) Device (p. 258) |
by Kugel, A |
Integration study and first test results of the CMS Muon Barrel Alignment system (p. 264) |
by Novák, D |
Very high dynamic range and high sampling rate VME digitizing boards for physics experiments (p. 268) |
by Breton, D |
The ALICE Data-Acquisition Read-out Receiver card (p. 273) |
by Carena, F |
ALICE Trigger System (p. 277) |
by Evans, D |
The ATLAS Level-1 Central Trigger System 012 (p. 281) |
by Borrego-Amaral, P |
Experience with Trigger Electronics for the Cathode Strip Chamber System of CMS (p. 292) |
by Hauser, J |
Calorimeter Trigger Synchronization in CMS, Implementation and Test System (p. 298) |
by Almeida, N |
ATLAS/LAr Calibration System (p. 302) |
by Masso, N |
Design and Realization of an ALICE SDD End-Ladder Prototype (p. 307) |
by Gabrielli, A |
The ALICE TPC Readout Control Unit (p. 311) |
by Gonzalez-Gutierrez, Carmen |
The Final prototype of the Fast Merging Module (FMM) for readout status processing in CMS DAQ (p. 316) |
by Rácz, Attila |
TTC Interface Module for ATLAS Read-Out Electronics : Final production version based on Xilinx FPGA devices(p. 320) |
by Butterworth, J |
Stand-alone Cosmic Ray Trigger Electronics for the ATLAS Tile Calorimeter (p. 327) |
by Tang, F |
Development of the Bandgap Voltage Reference Circuit, Featuring Dynamic-Threshold MOS Transistors (DTMOST's) in 0.13um CMOS Technology (p. 333) |
by Gromov, V |
A VME Board Prototype of High Voltage Power Supply Incorporating Piezoelectric Ceramic Transformer (p. 335) |
by Imori, Masatori |
The Otis Tdc Chip For LHCb Outer Tracker Readout (p. 340) |
by Deppe, H |
The ATLAS Local Trigger Processor (LTP) 018 (p. 344) |
by Borrego-Amaral, P |
A novel String Banana Template Method for Tracks Reconstruction in High Multiplicity Events with significant Multiple Scattering and its Firmware Implementation (p. 348) |
by Kulinich, P |
Performance of a Pre-Production Track-Finding Processor for the Level-1 Trigger of the CMS Endcap Muon System (p. 353) |
by Madorsky, Alexander |
Optical Multiplexer Board for TileCal Data Redundancy (p. 358) |
by Torres, J |
CMS ECAL FENIX ASIC design methodology (p. 362) |
by Hansen, M |
Pressure monitoring system for the CMS muon chambers (p. 366) |
by Novák, D |
Software and DAQ for the CMS Silicon Tracker Front End Driver (p. 370) |
by Fulcher, J |
The Manufacture of the CMS Tracker Front-End Driver (p. 375) |
by Coughlan, J A |
Control System for the LHCb Muon Detector Front-end using SCADA PVSS (p. 379) |
by Nobrega, R |
ALICE DDL Radiation Tolerance Tests for the FPGA Configuration Loss (p. 384) |
by Dénes, E |
Radiation Qualification of Commercial-Off-The-Shelf LVDS and G-link Serializers and Deserializers for the ATLAS Endcap Muon Level-1 Trigger System (p. 389) |
by Ichimiya, R |
Radiation Resistance of the Single Frequency 1310-nm AlGaInAs-InP Grating-Outcoupled Surface-Emitting Laser (p. 394) |
by Ye, Jingo |
A Pattern Recognition Scheme for Large Curvature Circular Tracks and an FPGA Implementation Using Hash Sorter (p. 397) |
by Wu, Jinyuan |
Rad-Tol Pt-100 Isolation Amplifiers for the LHC Cryogenic System (p. 402) |
by Agapito, J A |
Design and Implementation of the Global Calorimeter Trigger for CMS (287- 291) |
by Newbold, D |