Run II computing (p. 3) |
by Böhnlein, A |
Computing for Belle (p. 8) |
by Katayama, N |
Concepts and technologies used in contemporary DAQ systems (p. 14) |
by Purschke, M |
Grid3 : An Application Grid Laboratory for Science(p. 18) |
by Gardner, R |
Grid Security (p. 24) |
by Kelsey, D |
The impact of e-science (p. 30) |
by Peach, Kenneth J |
Improving Standard C++ for the Physics Community (p. 34) |
by Brown, W |
Physics Validation of the LHC Software (p. 40) |
by Gianotti, F |
Network Architecture : lessons from the past, vision for the future(p. 47) |
by Flückiger, F |
New experiences with the ALICE High Level Trigger Data Transport Framework (p. 59) |
by Steinbeck, T M |
The Architecture of the ZEUS Second Level Global Tracking Trigger (p. 63) |
by Sutton, M |
A Level-2 trigger algorithm for the identification of muons in the ATLAS Muon Spectrometer (p. 67) |
by Di Mattia, A |
An Embedded Linux System Based on PowerPC (p. 71) |
by Ye, M |
The introduction to BES computing environment (p. 75) |
by Xu, D |
The DAQ system for the Fluorescence Detectors of the Pierre Auger Observatory (p. 79) |
by Mathes, H |
The PHENIX Event Builder (p. 83) |
by Winter, D |
Integration of ATLAS Software in the Combined Beam Test (p. 87) |
by Dobson, M |
Performance of the ATLAS DAQ DataFlow system (p. 91) |
by Ünel, G |
Raw Ethernet based hybrid control system for the automatic control of suspended masses in gravitational waves interferometric detectors (p. 97) |
by Eleuteri, A |
The Configurations Database Challenge in the ATLAS DAQ System (p. 101) |
by Soloviev, I |
Experience with CORBA communication middleware in the ATLAS DAQ. (p. 105) |
by Kolos, S |
Portable Gathering System for Monitoring and Online Calibration at ATLAS (p. 111) |
by Conde-Muíño, P |
Control and state logging for the PHENIX DAQ System (p. 115) |
by Desmond, E J |
Linux for the CLEO-c Online system (p. 119) |
by Schwarthoff, H |
Status of the alignment sensor calibrations in the ATLAS-Muon experiment (p. 123) |
by Gautard, V |
Online Monitoring and online calibration/reconstruction for the PHENIX experiment (p. 127) |
by Pinkenburg, C |
Boosting the data logging rates in run 4 of the PHENIX experiment (p. 130) |
by Pinkenburg, C |
Experience with Real Time Event Reconstruction Farm for Belle Experiment (p. 133) |
by Itoh, R |
The ALICE High Level Trigger (p. 137) |
by Richter, M |
A Hardware Based Cluster Control And Management System (p. 140) |
by Panse, R |
The High Level Filter of the H1 Experiment at HERA (p. 144) |
by Campbell, A |
Simulations and Prototyping of the LHCb L1 and HLT Triggers (p. 148) |
by Shears, T |
Jefferson Lab Data Acquisition Run Control System (p. 151) |
by Gyurjyan, V |
The ALICE Experiment Control System (p. 155) |
by Carena, F |
Control in the ATLAS TDAQ System (p. 159) |
by Liko, D |
DZERO Data Aquistiion Monitoring and History Gathering (p. 163) |
by Watts, G |
The LHCb configuration database (p. 167) |
by Abadie, L |
A Control Software for the ALICE High Level Trigger (p. 171) |
by Steinbeck, T M |
The application of PowerPC/VxWorks to the read-out subsystem of the BESIII DAQ (p. 175) |
by Tao, N |
LCG Generator (p. 183) |
by Bartalini, P |
FAMOS, a FAst MOnte-Carlo Simulation for CMS (p. 187) |
by Beaudette, F |
Applications of the FLUKA Monte Carlo code in High Energy and Accelerator Physics (p. 191) |
by Battistoni, G |
Update On the Status of the FLUKA Monte Carlo Transport Code (p. 195) |
by Pinsky, L |
Geant4 : status and recent developments(p. 199) |
by Apostolakis, John |
Physics validation of the simulation packages in a LHC-wide effort (p. 203) |
by Ribon, A |
Overview and new developments in Geant4 electromagnetic physics (p. 207) |
by Ivantchenko, V |
Ion transport simulation using Geant4 hadronic physics (p. 211) |
by Wellisch, J |
Adding Kaons to the Bertini Cascade Model (p. 215) |
by Wright, D |
CHIPS based hadronization of quark-gluon strings (p. 219) |
by Kosov, M |
Synergia : A Modern Tool for Accelerator Physics Simulation(p. 223) |
by Spentzouris, P |
The Simulation of the ATLAS Experiment : Present Status and Outlook(p. 227) |
by Rimoldi, A |
An Object-Oriented Simulation Program for CMS (p. 231) |
by Stavrianakou, M |
The Virtual MonteCarlo : status and applications(p. 235) |
by Carminati, F |
From Geant 3 to Virtual Monte Carlo : Approach and Experience(p. 239) |
by Lauret, J |
The High Level Trigger software for the CMS experiment (p. 242) |
by van der Aa, O |
Fast Tracking for the ATLAS LVL2 Trigger (p. 246) |
by Baines, J T M |
Implementation and Performance of the High Level Trigger Electron and Photon Selection for the ATLAS Experiment at the LHC (p. 250) |
by Schiavi, C |
Event Data Model in ATLAS (p. 255) |
by Åkesson, P F |
How to build an event store - the new Kanga Event Store for BaBar (p. 259) |
by Steinke, M |
Using the reconstruction software, ORCA, in the CMS datachallenge (p. 262) |
by Wynhoff, S |
H1OO - an analysis framework for H1 (p. 265) |
by Katzy, J |
A New STAR Event Reconstruction Chain (p. 268) |
by Pruneau, C A |
Detector-independent vertex reconstruction toolkit (VERTIGO) (p. 272) |
by Mitaroff, W A |
Development of algorithms for cluster finding and track reconstruction in the forward muon spectrometer of ALICE experiment (p. 276) |
by Zinchenko, A I |
Adaptive Multi-vertex fitting (p. 280) |
by Frühwirth, R |
CMS Tracker Visualisation Tools (p. 283) |
by Mennea, Maria Santa |
Deterministic Annealing for Vertex Finding at CMS (p. 287) |
by Chabanat, E |
The CEDAR Project (p. 291) |
by Butterworth, J M |
The Track Extrapolation package in the new ATLAS Tracking Realm (p. 295) |
by Salzburg, A |
Mantis : the Geant4-based simulation specialization of the CMS COBRA framework(p. 299) |
by Stavrianakou, M |
OpenPAW (p. 303) |
by Barrand, G |
Validation of the GEANT4 Bertini Cascade model and data analysis using the Parallel ROOT Facility on a Linux cluster (p. 306) |
by Heikkinen, A M |
Volume-based Representation of the Magnetic Field (p. 310) |
by Amapane, N |
The Binary Cascade (p. 313) |
by Folger, G |
New Applications of PAX in Physics Analyses at Hadron Colliders (p. 317) |
by Schmidt, A |
The Description of the Atlas Detector (p. 321) |
by Spagnolo, S |
Dynamic Matched Filters for Gravitational Waves Detection (p. 325) |
by Pardi, S |
Extending EGS with SVG for Track Visualization (p. 328) |
by White, B |
Muon Event Filter Software for the ATLAS Experiment at LHC (p. 334) |
by Biglietti, M |
Monte Carlo Event Generation in a Multilanguage, Multiplatform Environment (p. 338) |
by Graf, N |
Pixel Reconstruction in the CMS High-Level Trigger (p. 340) |
by Cucciarelli, S |
The Virtual Geometry Model (p. 345) |
by Hrivnacova, I |
The ZEUS Global Tracking Trigger Barrel Algorithm (p. 349) |
by Sutton, M |
The GeoModel Toolkit for Detector Description (p. 353) |
by Boudreau, J |
IGUANA Interactive Graphics Project : Recent Developments(p. 357) |
by Osborne, I |
The Atlantis event visualisation program for the ATLAS experiment (p. 361) |
by Konstantinidis, N P |
Panoramix (p. 365) |
by Barrand, G |
WIRED 4 - A generic Event Display plugin for JAS 3 (p. 369) |
by Dönszelmann, M |
Self-Filling Histograms : An object-oriented analysis framework(p. 373) |
by List, J |
PYTHON-based Physics Analysis Environment for LHCb (p. 377) |
by Belyaev, I |
A statistical toolkit for data analysis (p. 381) |
by Pia, M |
Muon Reconstruction Software in CMS (p. 384) |
by Neumeister, N |
Fast reconstruction of tracks in the inner tracker of the CBM experiment (p. 388) |
by Kisel, I |
Full Event Reconstruction in Java (p. 392) |
by Graf, N |
Test of the ATLAS Inner Detector reconstruction software using combined test beam data (p. 395) |
by Costa, M |
Track reconstruction in high density environment (p. 399) |
by Belikov, I |
The new BaBar Analysis Model (p. 403) |
by Brown, D |
Offline Software for the ATLAS Combined Test Beam (p. 407) |
by Farilla, A |
A kinematic and a decay chain reconstruction library (p. 411) |
by Prokofiev, K |
A Gaussian-Sum Filter for Vertex Reconstruction (p. 415) |
by Frühwirth, R |
Vertex finding and B-tagging algorithms for the ATLAS Inner Detector (p. 419) |
by Wildauer, A |
Bayesian Approach for Combined Particle Identification in ALICE Experiment at LHC (p. 423) |
by Belikov, I |
A Dynamically Reconfigurable Data Stream Processing System (p. 429) |
by Nogiec, J |
The SEAL Component Model (p. 433) |
by Chytracek, R |
The SEAL C++ Reflection System (p. 437) |
by Roiser, S |
Reflection-Based Python-C++ Bindings (p. 441) |
by Lavrijsen, W |
AIDA, JAIDA and AIDAJNI : Data Analysis using interfaces(p. 445) |
by Dönszelmann, M |
Go4 analysis design (p. 449) |
by Essel, H |
OpenScientist. Status of the project (p. 452) |
by Barran, G |
The Athena Control Framework in Production, New Developments and Lessons Learned (p. 456) |
by Calafiura, P |
Composite Framework for CMS Applications (p. 459) |
by Osborne, I |
IceTray : a Software Framework for IceCube(p. 463) |
by De Young, T R |
The Offline Framework of the Pierre Auger Observatory (p. 467) |
by Nellen, L |
LCIO persistency and data model for LC simulation and reconstruction (p. 471) |
by Gaede, F |
POOL Development Status and Plans (p. 475) |
by Düllmann, D |
POOL Integration into three Experiment Software Frameworks (p. 479) |
by Düllmann, D |
Recent Developments in the ROOT I/O (p. 483) |
by Canal, P |
XML I/O in ROOT (p. 487) |
by Linev, S |
EventStore : Managing Event Versioning and Data Partitioning using Legacy Data Formats(p. 490) |
by Jones, C |
ATLAS Metadata Interfaces (AMI) and ATLAS Metadata Catalogs (p. 494) |
by Fulachier, J |
CMS Detector Description : New Developments(p. 498) |
by Case, M |
Addressing the persistency patterns of the time evolving HEP data in the ATLAS/LCG MySQL Conditions Databases (p. 502) |
by Pedro, L |
CDB - Distributed Conditions Database of BaBar Experiment (p. 506) |
by Gaponenko, I A |
LCG Conditions Database Project Overview (p. 510) |
by Valassi, A |
PyBus -- A Python Software Bus (p. 514) |
by Lavrijsen, W |
CMD-3 Project Offline Software Development (p. 518) |
by Zaytsev, A |
Automated Tests in NICOS Nightly Control System (p. 521) |
by Undrus, A |
Domain Specific Visual Query Language for HEP analysis or How far can we go with user friendliness? (p. 524) |
by Moreira Do Amaral, V |
Transparently managing time varying conditions and detector data on ATLAS (p. 528) |
by Leggett, C |
The TAG Collector : A Tool for ATLAS Code Release Management(p. 531) |
by Albrand, S |
CMS Software Installation (p. 535) |
by Rabbertz, K |
Porting CLEO software to Linux (p. 539) |
by Kuznetsov, V |
Specifying Selection Criteria using C++ Expression Templates (p. 543) |
by Jones, C |
Paths : Specifying Multiple Job Outputs via Filter Expressions(p. 547) |
by Jones, C |
ATLAS Detector Description Database Architecture (p. 551) |
by Vaniachine, A |
Rio (p. 555) |
by Barrand, G |
A database perspective on CMS detector data (p. 558) |
by Liendl, M |
Status and Plans of the LCG PI Project (p. 562) |
by Pfeiffer, A |
Porting LCG Applications (p. 566) |
by Reguero, I |
The WEB interface for the ATLAS/LCG MySQL Conditions Databases and performance constraints in the visualisation of extensive scientific/technical data (p. 571) |
by Pedro, L |
Conditions Databases : the interfaces between the different ATLAS systems(p. 575) |
by Pedro, L |
A Pattern-based Continuous Integration Framework for Distributed EGEE Grid Middleware Development (p. 579) |
by Di Meglio, A |
Managing third-party software for the LCG (p. 583) |
by Poinsignon, E |
INDICO : the software behind CHEP 2004 (p. 586) |
by Le Meur, Jean-Yves |
Parallel Compilation of CMS Software (p. 590) |
by Ashby, Shaun |
The Geometry Package for the Pierre Auger Observatory (p. 594) |
by Nellen, L |
Harp data and software migration from Objectivity to Oracle (p. 597) |
by Valassi, A |
Persistence for Analysis Objects (p. 601) |
by Hrivnác, J |
GraXML - Modular Geometric Modeler (p. 605) |
by Hrivnác, J |
The LCG Savannah software development portal (p. 609) |
by Perrin, Yves |
Guidelines for Developing a Good GUI (p. 613) |
by Antcheva, I |
Aspects (p. 617) |
by Hrivnác, J |
Aspect-Oriented Extensions to HEP Frameworks (p. 621) |
by Tull, C |
Optimizing Selection Performance on Scientific Data by utilizing Bitmap Indices (p. 625) |
by Schmücker, H |
Developments of Mathematical Software Libraries for the LHC experiments (p. 629) |
by Moneta, L |
The ZOOM Minimization Package (p. 633) |
by Fischler, M |
Automatic Procedures as Generated Analysis Tool (p. 637) |
by Winde, M |
CLHEP Infrastructure Improvements (p. 640) |
by Garren, L |
Software management infrastructure in the LCG Application Area (p. 644) |
by Pfeiffer, A |
Supporting the Development Process of the DataGrid Workload Management System Software with GNU autotools, CVS and RPM (p. 647) |
by Ronchieri, E |
Quality Assurance and Testing in LCG (p. 651) |
by Gallas, M |
IgProf profiling tool (p. 655) |
by Eulisse, G |
Don Quijote - Data Management for the ATLAS Automatic Production System (p. 661) |
by Branco, M |
Managed Data Storage and Data Access Services for Data Grids (p. 665) |
by Fuhrmann, P |
FroNtier : High Performance Database Access Using Standard Web Components in a Scalable Multi-tier Architecture(p. 669) |
by Lueking, L |
Experiences with Data Indexing services supported by the NorduGrid middleware (p. 673) |
by Nielsen, J |
Evolution of LCG-2 Data Management (p. 676) |
by Casey, J |
The Next Generation Root File Server (p. 680) |
by Hanushevsky, A |
Storage Resource Managers at Brookhaven (p. 684) |
by Popescu, R |
File-Metadata Management System For The LHCb Experiment (p. 688) |
by Cioffi, C |
Data Management in EGEE (p. 691) |
by McCance, G |
SAMGrid Integration of SRMs (p. 695) |
by Kennedy, R |
Multi-Terabyte EIDE Disk Arrays running Linux RAID5 (p. 699) |
by Sanders, D A |
Building the LCG : from middleware integration to production quality software(p. 703) |
by Serra, M |
OptorSim : a Simulation Tool for Scheduling and Replica Optimisation in Data Grids(p. 707) |
by Nicholson, C |
Usage statistics and usage patterns on the NorduGrid : Analyzing the logging information collected on one of the largest production Grids of the world(p. 711) |
by Kónya, B |
Experience integrating a General Information System API in LCG Job Management and Monitoring Services (p. 715) |
by Méndez-Lorenzo, P |
Experiment Software Installation experience in LCG-2 (p. 719) |
by Santinelli, R |
Grid Deployment Experiences : The path to a production quality LDAP based grid information system(p. 723) |
by Field, L |
Using Tripwire to check cluster system integrity (p. 727) |
by Perez-Calle, E |
Database Usage and Performance for the Fermilab Run II Experiments (p. 731) |
by Lueking, L |
Mass Storage Management and the Grid (p. 735) |
by Earl, A |
Beyond Persistence : Developments and Directions in ATLAS Data Management(p. 739) |
by Malon, D |
A general and flexible framework for virtual organization application tests in a grid system (p. 742) |
by Coviello, T |
Job Monitoring in Interactive Grid Analysis Environment (p. 746) |
by Anjum, A |
Predicting Resource Requirements of a Job Submission (p. 750) |
by Anjum, A |
Distributed Testing Infrastructure and Processes for the EGEE Grid Middleware (p. 754) |
by Guy, L |
LHC data files meet mass storage and networks : going after the lost performance(p. 758) |
by Tuura, L |
JIM Deployment for the CDF Experiment (p. 762) |
by Burgon-Lyon, M |
Data management services of NorduGrid (p. 765) |
by Eerola, Paule Anna Mari |
A Multidimensional Approach to the Analysis of Grid Monitoring Data (p. 767) |
by Rubini, G |
An intelligent resource selection system based on neural network for optimal application performance in a grid environment (p. 771) |
by Castellano, M |
Production data export and archiving system for new data format of the BaBar experiment (p. 775) |
by Trunov, A |
Alibaba : A heterogeneous grid-based job submission system used by the BaBarexperiment(p. 779) |
by Barlow, R |
Patriot : Physics Archives and Tools required to Investigate Our Theories(p. 783) |
by Mrenna, S |
SRM and GFAL Testing for LCG2 (p. 785) |
by Slabospitskaya, E |
DIRAC Lightweight Information and Monitoring Services using XML-RPC and Instant Messaging (p. 788) |
by Stokes-Rees, I |
Cross Experiment Workflow Management : The Runjob Project(p. 792) |
by Love, P |
Job-monitoring over the Grid with GridIce infrastructure (p. 795) |
by Donvito, G |
Distributed Tracking, Storage, and Re-use of Job State Information on the Grid (p. 798) |
by Matyska, L |
Participation of Russian sites in the Data Challenge of ALICE experiment in 2004 (p. 802) |
by Bugaenko, Y |
SAMGrid Monitoring Service and its Integration with MonALisa (p. 805) |
by Lyon, A |
Monitoring a Petabyte Scale Storage System (p. 809) |
by Berman, E |
Generic logging layer for the distributed computing (p. 813) |
by Lauret, J |
SAMGrid Experiences with the Condor Technology in Run II Computing (p. 815) |
by Terekhov, I |
Global Grid User Support for LCG (p. 819) |
by Antoni, T |
Experience with POOL from the LCG Data Challenges of the three LHC experiments (p. 822) |
by Düllmann, D |
Middleware for the next generation Grid infrastructure (p. 826) |
by Laure, E |
The Clarens Grid-enabled Web Services Framework : Services and Implementation(p. 830) |
by Van Lingen, F |
Experiences with the gLite Grid Middleware (p. 834) |
by Lamanna, M |
Software Agents in Data and Workflow Management (p. 838) |
by Barrass, T A |
Housing Metadata for the Common Physicist Using a Relational Database (p. 842) |
by Merritt, K |
Lattice QCD Data and Metadata Archives at Fermilab and the International Lattice Data Grid (p. 846) |
by Neilsen, E H |
Huge Memory systems for data-intensive science (p. 850) |
by Mount, R |
Evaluation of Grid Security Solutions using Common Criteria (p. 854) |
by Naqvi, S |
Mis-use Cases for the Grid (p. 858) |
by Skow, D |
Using Nagios for intrusion detection (p. 860) |
by Cardenas-Montes, M |
Secure Grid Data Management Technologies in ATLAS (p. 864) |
by Branco, M |
Building Global HEP Systems on Kerberos (p. 868) |
by Crawford, M |
Authentication/Security services in the ROOT framework (p. 872) |
by Ganis, G |
A Scalable Grid User Management System for Large Virtual Organization (p. 876) |
by Carcassi, G |
The Virtual Organization Membership Service eXtension project (VOX) (p. 879) |
by Wu, Y |
G-PBox : a Policy Framework for Grid Environments(p. 883) |
by Ciaschini, V |
Resource Predictors in HEP Applications (p. 887) |
by Grinstein, S |
SPHINX : A Scheduling Middleware for Data Intensive Applications on a Grid(p. 891) |
by Cavanaugh, R J |
Information and Monitoring Services within a Grid Environment (p. 895) |
by Fisher, S |
Pratical approaches to Grid workload and resource management in the EGEE project (p. 899) |
by Sgaravatto, M |
Grid2003 Monitoring, Metrics, and Grid Cataloging System (p. 903) |
by Kim, B |
MonALISA : An Agent Based, Dynamic Service System to Monitor, Control and Optimize Grid based Applications(p. 907) |
by Legrand, I |
Design and Implementation of a Notification Model for Grid Monitoring Events (p. 911) |
by De bortoli, N |
BaBar Bookkeeping - a distributed meta-data catalog of the BaBar event store (p. 915) |
by Smith, D |
A Lightweight Monitoring and Accounting System for LHCb DC'04 Production (p. 921) |
by Sánchez-García, M |
Development and use of MonALISA high level monitoring services for the star unified Meta-Scheduler (p. 924) |
by Efstathiadis, E F |
DIRAC - The Distributed MC Production and Analysis for LHCb (p. 928) |
by Tsaregorodtsev, A |
The evolution of the distributed Event Reconstruction Control System in BaBar (p. 935) |
by Ceseracciu, A |
Production Management Software for the CMS Data Challenge (p. 939) |
by Andreeva, J |
ATLAS Production System in ATLAS Data Challenge 2 (p. 943) |
by Goossens, L |
A GRID approach for Gravitational Waves Signal Analysis with a Multi-Standard Farm Prototype (p. 947) |
by Pardi, S |
The architecture of the AliEn system (p. 951) |
by Buncic, P |
A distributed, Grid-based analysis system for the MAGIC telescope (p. 955) |
by Kornmayer, H |
HEP Applications Experience with the European DataGrid Middleware and Testbed (p. 959) |
by Burke, S |
The Open Science Grid (OSG) (p. 963) |
by Pordes, R |
Use of Condor and GLOW for CMS Simulation Production (p. 967) |
by Dasu, S |
Application of the SAMGrid Test-Harness for Performance Evaluation and Tuning of a Distributed Cluster Implementation of Data Handling Services (p. 970) |
by Lyon, A |
Job Submission and Monitoring on the PHENIX Grid* (p. 974) |
by Morrison, D |
The Condor based CDF CAF (p. 978) |
by Würthwein, F |
Federating Grids : LCG meets Canadian HEPGrid(p. 982) |
by Walker, R |
Toward a Grid Technology Independent Programming Interface for HEP Applications (p. 986) |
by Donno, F |
New distributed offline processing scheme at Belle (p. 990) |
by Ronga, F.J. |
Testing the CDF Distributed Computing Framework (p. 994) |
by Bartsch, V |
XTNetFile, a fault tolerant extension of ROOT TNetFile (p. 996) |
by Dorigo, A |
Production of simulated events for the BaBar experiment by using LCG (p. 1000) |
by Bozzi, C |
GROSS : an end user tool for carrying out batch analysis of CMS data on the LCG-2 Grid(p. 1003) |
by Tallini, H |
The ATLAS Computing Model (p. 1007) |
by Adams, D |
The role of legacy services within ATLAS DC2 (p. 1010) |
by Kennedy, J |
Installing and Operating a Grid Infrastructure at DESY. (p. 1014) |
by Gellrich, A |
GoToGrid - A Web-Oriented Tool in Support to Sites for LCG Installations (p. 1018) |
by Schulz, M |
Job Interactivity using a Steering Service in an Interactive Grid Analysis Environment (p. 1022) |
by Anjum, A |
Tools for GRID deployment of CDF offline and SAM data handling systems for Summer 2004 computing (p. 1026) |
by Kreymer, A |
The BABAR Analysis Task Manager (p. 1030) |
by Röthel, W |
Data Rereprocessing on Worldwide Distributed Sytems (p. 1034) |
by Wicke, D |
LEXOR, the LCG-2 Executor for the ATLAS DC2 Production System (p. 1038) |
by Rebatto, D |
DIRAC : Workload Management System(p. 1041) |
by Garonne, V |
The D0 Virtual Center and planning for large scale computing (p. 1045) |
by Böhnlein, A |
D0 data processing within EDG/LCG (p. 1048) |
by Harenberg, T |
Deployment of SAM for the CDF Experiment (p. 1052) |
by Stonjek, S |
CERN Modular Physics Screensaver or Using spare CPU cycles of CERN's Desktop PCs (p. 1055) |
by McIntosh, E |
BaBar simulation production - A millennium of work in under a year (p. 1059) |
by Smith, D |
Role of Tier-0, Tier-1 and Tier-2 Regional Centers in CMS DC04 (p. 1065) |
by Barrass, T |
AMS-02 Computing and Ground Data Handling (p. 1070) |
by Klimentov, A |
Distributed Grid Experiences in CMS DC04 (p. 1074) |
by Fanfani, A |
Experience producing simulated events for the DZero experiment on the SAM-Grid (p. 1078) |
by Terekhov, I |
The ALICE Data Challenge 2004 and the ALICE distributed analysis prototype (p. 1082) |
by Betev, L |
Results of the LHCb experiment Data Challenge 2004 (p. 1087) |
by Closier, J |
ATLAS Data Challenge Production on Grid3 (p. 1091) |
by Mambelli, M |
Performance of the NorduGrid ARC and the Dulcinea Executor in ATLAS Data Challenge 2 (p. 1095) |
by Eerola, Paule Anna Mari |
HEP@Home - A distributed computing system based on BOINC (p. 1099) |
by Amorim, A |
AliEn Web Portal (p. 1103) |
by Betev, L |
The ARDA Prototypes (p. 1107) |
by Lamanna, M |
Super scaling PROOF to very large clusters (p. 1111) |
by Ballintijn, M |
ATLAS Distributed Analysis (p. 1115) |
by Adams, D |
Grid Enabled Analysis : Architecture, prototype and status(p. 1119) |
by Van Lingen, F |
The ganga user interface for physics analysis and distributed resources (p. 1123) |
by Soroko, A |
Tier-1 and Tier-2 real-time analysis experience in CMS Data Challenge 2004 (p. 1127) |
by De Filippis, N |
Grid Collector : Using an Event Catalog to Speed up User Analysis in Distributed Environment(p. 1131) |
by Wu, K |
Interactive Data Analysis on the Grid using Globus 3 and JAS3 (p. 1135) |
by Johnson, T |
Globally Distributed User Analysis Computing at CDF (p. 1139) |
by Sill, A |
Current Status of Fabric Management at CERN (p. 1145) |
by Cancio, G |
Developing & Managing a large Linux farm - the Brookhaven Experience (p. 1149) |
by Chan, T |
Lattice QCD Clusters at Fermilab (p. 1153) |
by Holmgren, D |
ScotGrid: A Prototype Tier 2 Centre (p. 1157) |
by Earl, A |
A Regional Analysis Center at the University of Florida (p. 1161) |
by Rodríguez, J |
CHOS, a method for concurrently supporting multiple operating system (p. 1165) |
by Canon, S |
Implementation of a reliable and expandable on-line storage for compute clusters (p. 1169) |
by Vanwezel, J |
Gfarm v2 : A Grid file system that supports high-performance distributed and parallel data computing(p. 1172) |
by Tatebe, O |
Performance analysis of Cluster File System on Linux (p. 1176) |
by Cheng, Y |
Chimera - a new, fast, extensible and Grid enabled namespace service (p. 1180) |
by Gasthuber, M |
Managing software licences for a large research laboratory (p. 1183) |
by Høimyr, Nils-Joar |
Simplified deployment of an EDG/LCG cluster via LCFG-UML (p. 1187) |
by Hardt, M |
InGRID - Installing GRID (p. 1190) |
by Taurino, F |
Cluster architectures used to provide CERN central CVS services (p. 1192) |
by Lopienski, S |
A database prototype for managing computer systems configurations (p. 1196) |
by Sinanis, N |
Parallel implementation of Parton String Model event generator (p. 1201) |
by Nemnyugin, S |
New compact hierarchical mass storage system at Belle realizing a peta-scale system with inexpensive ice-raid disks and an S-ait tape library (p. 1204) |
by Katayama, N |
The Project CampusGrid (p. 1208) |
by Schneider, O |
The status of Fermilab Enstore Data Storage System (p. 1210) |
by Moibenko, A |
64-Bit Opteron systems in High Energy and Astroparticle Physics (p. 1213) |
by Wegner, P |
InfiniBand for High Energy Physics (p. 1217) |
by Heiss, A |
CASTOR : Operational issues and new Developments(p. 1221) |
by Durand, J |
dCache, LCG Storage Element and enhanced use cases (p. 1227) |
by Fuhrmann, P |
Storage Resource Manager (p. 1230) |
by Perelmutov, T |
SRB system at Belle/KEK (p. 1234) |
by Iida, Y |
StoRM : grid middleware for disk resource management(p. 1238) |
by Zappi, R |
The SAMGrid Database Server Component : Its Upgraded Infrastructure and Future Development Path(p. 1242) |
by Loebel-Carpenter, L |
AutoBlocker : A system for detecting and blocking of network scanning based on analysis of netflow data(p. 1249) |
by Bobyshev, A |
Remote Shifting at the CLEO Experiment (p. 1252) |
by Wilksen, T |
WAN Emulation Development and Testing at Fermilab (p. 1256) |
by Bobyshev, A |
Methodologies and techniques for analysis of network flow data (p. 1259) |
by Bobyshev, A |
Networking for High Energy and Nuclear Physics as Global E-Science (p. 1263) |
by Newman, H |
ALICE Multi-site Data Transfer Tests on a Wide Area Network (p. 1269) |
by Bagnasco, S |
Breaking the 1 GByte/sec Barrier? High speed WAN data transfers for science (p. 1279) |
by Bunn, J |
Test of data transfer over an international network with a large RTT (p. 1284) |
by Tanaka, J |
Realization of a stable network flow with high performance communication in high bandwidth-delay product network (p. 1288) |
by Kodama, Y |
Wide area network monitoring system for HEP experiments at Fermilab (p. 1292) |
by Grigoriev, M |
On-demand Layer VPN Support for Grid Applications (p. 1296) |
by Ferrari, T |
LambdaStation : A forwarding and admission control service to interface production network facilities with advanced research network paths(p. 1300) |
by Demar, P |
Bringing High-Performance Networking to HEP Users (p. 1304) |
by Dallison, S |
HEPBook : A Personal Collaborative HEP notebook(p. 1308) |
by Roediger, G |
A Globally Distributed Real Time Infrastruture for World Wide Collaborations (p. 1312) |
by Gálvez, P |
The Network Security Protection System at IHEP-Net (p. 1316) |
by Ma, L |
Simulations and Prototyping of the LHCb L1 and HLT triggers |
by Shears, Tara |
The GANGA user interface interface for physics analysis on distributed resources |
by Soroko, A |
File-Metadata Management System for the LHCb Experiment |
by Cioffi, C |
A Lightweight Monitoring and Accounting System for LHCb DC'04 Production |
by Garonne, V |
DIRAC - The Distributed MC Production and Analysis for LHCb |
by Tsaregorodtsev, A |
PYTHON-based Physics Analysis Environment for LHCb |
by Belyaev, I |
Results of the LHCb experiment Data Challenge 2004 |
by Closier, Joël |
LHCb Online Configuration Database |
by Abadie, Lana |