Particle Physics in the Czech Republic (p. 3) |
by Vrba, Vaclav |
The LHC status : commissioning plans and interface with the experiments(p. 12) |
by Macina, Daniela |
The Time Projection Chamber for the ALICE Experiment (p. 17) |
by Musa, Luciano |
Distributed Power Architectures for Computing Systems (p. 28) |
by Spiazzi, Giorgio |
Fault-tolerant and radiation-hardened SPARC processors (p. 39) |
by Gaisler, Jiri |
Field-programmable technology : Today’s and tomorrow’s(p. 47) |
by Luk, Wayne |
Electronics and Sensor Study with the OKI SOI process (p. 57) |
by Arai, Yasuo |
3D System Integration for high density Interconnects (p. 64) |
by Wieland, R M |
ILC Detector R&D (p. 71) |
by Demarteau, Marcel |
Synchronization of the CMS Cathode Strip Chambers (p. 80) |
by Raknessa, G |
DT Sector Collector electronics design and construction (p. 85) |
by Guiducci, L |
Infrastructures and Installation of the Compact Muon Solenoid Data Acquisition at CERN (p. 93) |
by Bauer, G |
Implementation and performance of the Detector Control System for the electromagnetic calorimeter of the CMS experiment (p. 100) |
by Adzic, P |
Performance Study of the CMS Ecal Electronics using electrons from 15 GeV to 250 GeV (p. 105) |
by Argirò, Stefano |
A MAPS based readout for Tera : Pixel electromagnetic calorimeter at the ILC(p. 110) |
by Villani, E G |
Radiation-Hard Optical Link for SLHC (p. 117) |
by Gan, K K |
Optical absorption in commercial single mode optical fibres for the LHC machine (p. 121) |
by Wijnands, T J |
Quality Control of the CMS Tracker and ECAL Installed Optical Cabling (p. 125) |
by Ricci, D |
The Phase-I Trigger Readout Electronics Upgrade of the ATLAS Liquid Argon Calorimeters (p. 128) |
by Uno, Kenta |
Electronics and Trigger developments for the Diffractive Physics Proposal at 220 m from LHC-ATLAS (p. 133) |
by Le Dû, P |
Production and Testing of the LHCb Outer Tracker Front End Readout Electronics (p. 138) |
by Simioni, Eduard |
The ALICE Silicon Pixel Detector System (SPD) (p. 143) |
by Kluge, A |
Test and commissioning of the CARLOS control boards for the ALICE Silicon Drift Detectors (p. 148) |
by Alessandro, Bruno |
Towards the final ATLAS Pixel Detector Control System (p. 152) |
by Kersten, Susanne |
Status of the ATLAS Pixel Detector (p. 159) |
by Arguin, J F |
ATLAS SCT Commissioning (p. 164) |
by Limper, Maaike |
SCT and TRT Performance from Cosmic Ray Runs (p. 168) |
by Sandaker, Heidi |
System Design of the ATLAS Absolute Luminosity Monitor (p. 173) |
by Anghinolfi, Francis |
Development and Commissioning of the CMS Luminosity Readout System (p. 181) |
by Jones, J |
Time Calibration of the LHCb muon System (p. 186) |
by Cadeddu, S |
CMS Drift Tube Chambers Read-Out Electronics (p. 190) |
by Cela, J M |
The Cathode Strip Chamber Data Acquisition System for CMS (p. 195) |
by Bylsma, B G |
The First Result of Global Commissioning of the ATLAS Endcap Muon Trigger System in ATLAS Cavern (p. 199) |
by Sugimoto, T |
The TOTEM electronics system (p. 205) |
by Anelli, Giovanni M |
The TOTEM front end driver, its components and applications in the TOTEM experiment (p. 211) |
by Antchev G |
The ATLAS level-1 Central Trigger (p. 217) |
by Spiwoks, R |
First Measurements with the ATLAS Level-1 Calorimeter Trigger PreProcessor System (p. 222) |
by Achenbach, R |
Commissioning of the Jet/Energy-sum and Cluster Processors for the ATLAS Level-1 Calorimeter Trigger System (p. 227) |
by Achenbach, R |
The ATLAS barrel level-1 Muon Trigger Sector-Logic/RX off-detector trigger and acquisition board (p. 232) |
by Chiodi, G |
Integration of the CMS regional calorimeter Trigger hardware into the CMS level-1 Trigger (p. 241) |
by Klabbers, Pamela |
First results on the performance of the CMS global calorimeter trigger (p. 246) |
by Foudas, C |
Modular trigger processing : The GCT muon and quiet bit system(p. 251) |
by Stettler, Matthew |
The ALICE trigger electronics (p. 259) |
by Krivda, M |
Data transmission and selection for the L0 calorimeter trigger of LHCb (p. 264) |
by Avoni, G |
A first-level track trigger architecture for super-CMS (p. 269) |
by Brooke, J |
Development of a small-scale protope of the GOSSIPO-2 chip in 0.13 um CMOS technology (p. 277) |
by Kluit, R |
Steering and eadout chips for DEPFET sensor matrices (p. 282) |
by Fischer, P |
Development of a selftriggered high counting rate ASIC for readout of 2D gas microstrip neutron detectors (p. 287) |
by Brogna, AS |
VFAT2 : A front-end system on chip providing fast trigger information, digitized data storage and formatting for the charge sensitive readout of multi-channel silicon and gas particle detectors(p. 292) |
by Aspell, P |
Development of an ASIC for CCD readout at the vertex detectors of the intrenational linear collider (p. 299) |
by Murray, P |
MAROC : Multi-Anode readout chip(p. 304) |
by Barrillon, P |
HADROC1 : Readout chip of the digital hadronic calorimeter of ILC(p. 309) |
by Bouchel, M |
A CMOS 130nm Evaluation digitzer chip for silicon strips readout (p. 314) |
by Da Silva, W |
Development of SEU-robust, radiation-tolerant and industry-compatible programmable logic components (p. 321) |
by Bonacini, S |
A low power and low signal 4 bit 50MS/s double sampling pipelined ADC for monolithie active pixel sensors (p. 326) |
by Dahoumane, M |
The GBT : A proposed architecure for multi-Gb/s data transmission in high energy physics(p. 332) |
by Moreira, P |
A circuit suitable for th ereadout of ultra tin pixel detectors at SLHC and Elsewhere (p. 337) |
by Campbell, M |
Low Power Front End for the Optical Module of a Neutrino Underwater Telescope (p. 343) |
by Lo Presti, D |
Electronic Developments for the Hades RPC Wall : Overview and Progress(p. 347) |
by Gil, A |
System aspects of the ILC-electronics and power pulsing (p. 355) |
by Göttlicher, P |
ATLAS SCT POWER SUPPLY SYSTEM (p. 365) |
by Phillips, P W |
Radiation-Tolerant Custom Made Low Voltage Power Supply System for ATLAS/TileCal Detector (p. 369) |
by Hruska, I |
The Implementation of the power supply system of the CMS Silicon Strip Tracker (p. 377) |
by Paoletti, S |
Serial Powering of Silicon Sensors (p. 382) |
by Villani, E G |
Low Voltage Power Supply Incorporating Ceramic Transformer (p. 389) |
by Imori, M |
High Radiation Resistant DC-DC Converter Regulators for use in Magnetic fields for LHC High Luminosity Silicon Trackers (p. 394) |
by Dhawan, S |
Inductor based switching DC-DC converter for low voltage power distribution in SLHC (p. 399) |
by Michelis, S |
Results and Consequences of Magnet Test and Cosmic Challenge of the CMS Barrel Muon Alignment System (p. 407) |
by Bencze, Gy L |
Calibration and performance tests of the Very-Front-End electronics for the CMS electromagnetic calorimeter (p. 411) |
by Blaha, J |
CARLOSrx : An online Data Acquisition system for ALICE ITS SDD(p. 416) |
by Antinori, S |
A Trigger/Timing Logic Unit for ILC Test-beams (p. 420) |
by Cussans, D |
Optimization of amplifiers for monolithic active pixel sensors (p. 423) |
by Dorokhov, A |
Digital part of SiPM Integrated Read-Out Chip ASIC for ILC hadronic calorimeter (p. 428) |
by Dulucq, F |
Software environment for controlling and re-configuration of Xilinx Virtex FPGAs – TWEPP-07 (p. 432) |
by Fehlker, D |
Skiroc : A Front-end Chip to Read Out the Imaging Silicon-Tungsten Calorimeter for ILC(p. 437) |
by Bouchel, Michel |
Proposal of a readout technique for low-pitch pixel devices (p. 440) |
by Gabrielli, Alessandro |
Design of on-chip data sparsification for a mixed-mode MAPS device (p. 443) |
by Gabrielli, Alessandro |
Design of an integrated particle detector-cell based on latchup effect (p. 445) |
by Gabrielli, Alessandro |
Proposal, development and test of an analog front-end electronic board for Nemo telescope (p. 448) |
by Caponetto, L |
The ATLAS Level-1 Muon to Central Trigger Processor Interface (p. 453) |
by Berge, D |
FPGA based Readout Logic of the Front-end Electronics of the ATLAS Absolute Luminosity Monitor (p. 458) |
by Iwanski, W |
Final Test at the Surface of the ATLAS Endcap Muon Trigger Chamber Electronics (p. 463) |
by Kubota, T |
ALIBAVA : A portable readout system for silicon microstrip sensors(p. 468) |
by Marco-Hernández, R |
Distribution of the Timing, Trigger and Control Signals in the Endcap Cathode Strip Chamber System at CMS (p. 473) |
by Geurts, F |
ELMB Microcontroller Firmware and SCADA Integration for the LHCb Muon Detector Readout Control System (p. 477) |
by Nobrega, R |
Track Momentum Discrimination Using Cluster Width in Silicon Strip Sensors for SLHC (p. 482) |
by Barbagli, G |
The CMS Pixel FED (p. 487) |
by Pernicka, M |
MAPS in 130 nm triple well CMOS technology for HEP applications (p. 492) |
by Pozzati, E |
SPIROC (SiPM Integrated Read-Out Chip) : Dedicated very front-end electronics for an ILC prototype hadronic calorimeter with SiPM read-out(p. 497) |
by Bouchel, Michel |
Status of the Optical Multiplexer Board 9U Prototype (p. 502) |
by Torres, J |
ATLAS Pixel Detector System Test (p. 505) |
by Triplett, N |
Installation and Commissioning of the CMS Timing, Trigger and Control Distribution System (p. 508) |
by Troska, J |
A Complete Set of Firmware for the TileCal Read-Out Driver (p. 513) |
by Valero, A |
TWEPP-07 Executive Summary (xvi) |
by Christiansen, J |
Development of the ATLAS Liquid Argon Calorimeter Readout Electronics for the HL-LHC |
by Gensolen, Fabrice |