| Performance of the LHCb High Level Trigger in 2012 (p. 12001) |
| by Albrecht, Johannes |
| The H.E.S.S. data acquisition system (p. 12003) |
| by Balzer, A |
| Real-time $b$-jet identification in ATLAS (p. 12004) |
| by Buzatu, A |
| The ALICE DAQ infoLogger (p. 12005) |
| by Chapeland, Sylvain |
| Deferred High Level Trigger in LHCb: A Boost to CPU Resource Utilization (p. 12006) |
| by Frank, Markus |
| The Evolution of the Trigger and Data Acquisition System in the ATLAS Experiment (p. 12007) |
| by Garelli, N |
| Implementation of a PC-based Level 0 Trigger Processor for the NA62 Experiment (p. 12008) |
| by Pivanti, M |
| FwWebViewPlus: integration of web technologies into WinCC OA based Human-Machine Interfaces at CERN (p. 12009) |
| by Golonka, Piotr |
| FPGA-based 10-Gbit Ethernet Data Acquisition Interface for the Upgraded Electronics of the ATLAS Liquid Argon Calorimeters (p. 12010) |
| by Grohs, J P |
| The new CMS DAQ system for LHC operation after 2014 (DAQ2). (p. 12014) |
| by Bauer, Gerry |
| External access to ALICE controls conditions data (p. 12015) |
| by Jadlovsky, J |
| GPUs for real-time processing in HEP trigger systems (p. 12017) |
| by Lamanna, G |
| NaNet:a low-latency NIC enabling GPU-based, real-time low level trigger systems (p. 12018) |
| by Ammendola, Roberto |
| GPU Enhancement of the Trigger to Extend Physics Reach at the LHC (p. 12019) |
| by Lujan, P. |
| The ATLAS Hadronic Tau Trigger (p. 12021) |
| by Mahlstedt, J |
| ATLAS High-Level Trigger performance for calorimeter-based algorithms in LHC Run-I (p. 12022) |
| by Mann, A |
| A PCIe Gen3 based readout for the LHCb upgrade (p. 12023) |
| by Bellato, M |
| Performance and development plans for the Inner Detector trigger algorithms at ATLAS (p. 12024) |
| by Martin-Haugh, S |
| Prototype of a File-Based High-Level Trigger in CMS (p. 12025) |
| by Bauer, Gerry |
| Algorithms, performance, development of the ATLAS High-Level trigger (p. 12026) |
| by Nagano, K |
| DAQ Architecture for the LHCb Upgrade (p. 12027) |
| by Liu, Guoming |
| FPGA based data acquisition system for COMPASS experiment (p. 12029) |
| by Bodlak, M. |
| Automating the CMS DAQ (p. 12031) |
| by Bauer, Gerry |
| The LHCb Silicon Tracker - Control system specific tools and challenges (p. 12032) |
| by Adeva, G |
| The LHCb Data Acquisition during LHC Run 1 (p. 12033) |
| by Alessio, F |
| The design and performance of the ATLAS jet trigger (p. 12034) |
| by Shimizu, S |
| Computing challenges in the certification of ATLAS Tile Calorimeter front-end electronics during maintenance periods (p. 12035) |
| by Solans, C |
| The CMS High Level Trigger (p. 12036) |
| by Trocino, Daniele |
| O$^2$: A novel combined online and offline computing system for the ALICE Experiment after 2018 (p. 12037) |
| by Ananya |
| The ALICE Data Quality Monitoring: qualitative and quantitative review of three years of operations (p. 12038) |
| by von Haller, Barthélémy |
| Performance of the ATLAS muon trigger in p-p collisions at $\sqrt{s}=8$ TeV (p. 12040) |
| by Woudstra, MJ |
| 10~Gbps TCP/IP streams from the FPGA for High Energy Physics (p. 12042) |
| by Bauer, Gerry |
| Geant4 - Towards major release 10 (p. 22005) |
| by Cosmo, G |
| Concepts for fast large scale Monte Carlo production for the ATLAS experiment (p. 22006) |
| by Debenedetti, C |
| A J2EE based server for Muon Spectrometer Alignment monitoring in the ATLAS detector (p. 22009) |
| by Formica, A |
| DD4hep: A Detector Description Toolkit for High Energy Physics Experiments (p. 22010) |
| by Frank, M |
| Introducing concurrency in the Gaudi data processing framework (p. 22013) |
| by Clemencic, Marco |
| Geant4 Electromagnetic Physics for LHC Upgrade (p. 22015) |
| by Ivanchenko, V N |
| Preparing the track reconstruction in ATLAS for a high multiplicity future (p. 22018) |
| by Langenberg, Robert |
| An SQL-based approach to physics analysis (p. 22022) |
| by Limper, Maaike |
| Simulation of Pile-up in the ATLAS Experiment (p. 22024) |
| by Marshall, Z |
| Status and new developments of the Generator Services (p. 22029) |
| by Hegner, B |
| Recent Developments in the Geant4 Hadronic Framework (p. 22030) |
| by Pokorski, Witold |
| Detector and event visualization with SketchUp at the CMS experiment (p. 22032) |
| by Sakuma, Tai |
| Stitched Together: Transitioning CMS to a Hierarchical Threaded Framework (p. 22034) |
| by Jones, C D |
| A new Scheme for ATLAS Trigger Simulation using Legacy Code (p. 22039) |
| by Galster, G |
| AGIS: The ATLAS Grid Information System (p. 32001) |
| by Anisenkov, A |
| Monitoring of large-scale federated data storage: XRootD and beyond (p. 32004) |
| by Andreeva, J |
| WLCG Transfers Dashboard: a Unified Monitoring Tool for Heterogeneous Data Transfers (p. 32005) |
| by Andreeva, J |
| PROOF as a Service on the Cloud: a Virtual Analysis Facility based on the CernVM ecosystem (p. 32007) |
| by Berzano, Dario |
| Micro-CernVM: Slashing the Cost of Building and Deploying Virtual Machines (p. 32009) |
| by Blomer, J. |
| Design and Performance of the Virtualization Platform for Offline computing on the ATLAS TDAQ Farm (p. 32011) |
| by Ballestrero, S |
| GLUE 2 deployment: Ensuring quality in the EGI/WLCG information system (p. 32012) |
| by Burke, Stephen |
| Evolution of the ATLAS Distributed Computing system during the LHC Long shutdown (p. 32016) |
| by Campana, S |
| Recent and planned changes to the LHCb computing model (p. 32017) |
| by Cattaneo, Marco |
| Using the CMS High Level Trigger as a Cloud Resource (p. 32019) |
| by Colling, David |
| Preserving access to ALEPH computing environment via virtual machines (p. 32021) |
| by Coscetti, Simone |
| The CMS data quality monitoring software: experience and future prospects (p. 32024) |
| by De Guio, Federico |
| Towards a centralized Grid Speedometer (p. 32028) |
| by Dzhunov, I |
| Grid Site Testing for ATLAS with HammerCloud (p. 32030) |
| by Elmsheuser, J |
| Towards a Global Service Registry for the World-Wide LHC Computing Grid (p. 32032) |
| by Field, Laurence |
| Towards an HTTP Ecosystem for HEP Data Access (p. 32034) |
| by Furano, Fabrizio |
| Evaluating Google Compute Engine with PROOF (p. 32036) |
| by Ganis, Gerardo |
| CMS Computing Model Evolution (p. 32039) |
| by Grandi, Claudio |
| CMS computing operations during run 1 (p. 32040) |
| by Adelman, J |
| Request for All - Generalized Request Framework for PhEDEx (p. 32043) |
| by Huang, C-H |
| Request for All - A Generalized Request Framework for PhEDEx (p. 32043) |
| by Huang, C -H |
| Processing of the WLCG monitoring data using NoSQL (p. 32048) |
| by Andreeva, J |
| Virtualised data production infrastructure for NA61/SHINE based on CernVM (p. 32051) |
| by Larsen, Dag Toppe |
| Derived Physics Data Production in ATLAS: Experience with Run 1 and Looking Ahead (proceedings) (p. 32052) |
| by Laycock, P |
| The ATLAS Distributed Analysis System (p. 32053) |
| by Legger, F |
| CernVM Online and Cloud Gateway: a uniform interface for CernVM contextualization and deployment (p. 32055) |
| by Lestaris, G. |
| Evolution of the ATLAS PanDA Workload Management System for Exascale Computational Science (p. 32062) |
| by Maeno, T |
| Experience in CMS with the common analysis framework project (p. 32064) |
| by Mascheroni, Marco |
| Running Jobs in the Vacuum (p. 32065) |
| by McNab, A |
| Commissioning the CERN IT Agile Infrastructure with experiment workloads (p. 32066) |
| by Medrano Llamas, Ramón |
| Helix Nebula and CERN: A Symbiotic approach to exploiting commercial clouds (p. 32067) |
| by Barreiro Megino, Fernando Harald |
| Next Generation PanDA Pilot for ATLAS and Other Experiments (p. 32071) |
| by Nilsson, P |
| Using Puppet to contextualize computing resources for ATLAS analysis on Google Compute Engine (p. 32073) |
| by Öhman, H |
| CMS Multicore Scheduling Strategy (p. 32074) |
| by Perez-Calero Yzquierdo, Antonio |
| ILCDIRAC, a DIRAC extension for the Linear Collider community (p. 32077) |
| by Grefe, C |
| Task Management in the New ATLAS Production System (p. 32078) |
| by De, K |
| CMS users data management service integration and first experiences with its NoSQL data storage (p. 32079) |
| by Riahi, H |
| Running a typical ROOT HEP analysis on Hadoop MapReduce (p. 32080) |
| by Russo, Stefano Alberto |
| FTS3: New Data Movement Service For WLCG (p. 32081) |
| by Ayllon, A A |
| Dashboard Task Monitor for managing ATLAS user analysis on the Grid (p. 32083) |
| by Sargsyan, L. |
| ATLAS Distributed Computing Monitoring tools during the LHC Run I (p. 32084) |
| by Schovancova, J |
| ATLAS Distributed Computing Operation Shift Teams experience during the discovery year and beginning of the Long Shutdown 1 (p. 32085) |
| by Sedov, A |
| Towards Provenance and Traceability in CRISTAL for HEP (p. 32091) |
| by Shamdasani, Jetendr |
| Self managing experiment resources (p. 32093) |
| by Stagni, Federico |
| ATLAS Job Transforms: A Data Driven Workflow Engine (p. 32094) |
| by Stewart, G A |
| Dcs Data Viewer, an Application that Accesses ATLAS DCS Historical Data (p. 32097) |
| by Tsarouchas, C |
| Automating usability of ATLAS Distributed Computing resources (p. 32098) |
| by Tupputi, S A |
| Integration of Cloud resources in the LHCb Distributed Computing (p. 32099) |
| by Ubeda Garcia, Mario |
| Integrating multiple scientific computing needs via a Private Cloud infrastructure (p. 32100) |
| by Bagnasco, S |
| Reliability Engineering Analysis of ATLAS Data Reprocessing Campaigns (p. 32101) |
| by Vaniachine, A |
| PROOF-based analysis on the ATLAS Grid facilities: first experience with the PoD/PanDa plugin (p. 32102) |
| by Vilucchi, E |
| Exploring virtualisation tools with a new virtualisation provisioning method to test dynamic grid environments for ALICE grid jobs over ARC grid middleware (p. 32103) |
| by Wagner, Boris |
| The ATLAS EventIndex: an event catalogue for experiments collecting large amounts of data (p. 42002) |
| by Barberis, D |
| ATLAS Replica Management in Rucio: Replication Rules and Subscriptions (p. 42003) |
| by Barisits, M |
| Popularity Prediction Tool for ATLAS Distributed Data Management (p. 42004) |
| by Beermann, T |
| CMS Use of a Data Federation (p. 42005) |
| by Bloom, Kenneth Arthur |
| System level traffic shaping in disk servers with heterogeneous protocols (p. 42007) |
| by Cano, Eric |
| ATLAS DQ2 to Rucio renaming infrastructure (p. 42008) |
| by Serfon, C |
| The future of event-level information repositories, indexing, and selection in ATLAS (p. 42009) |
| by Barberis, D |
| Next generation database relational solutions for ATLAS distributed computing (p. 42012) |
| by Dimitrov, G |
| Security in the CernVM File System and the Frontier Distributed Database Caching System (p. 42015) |
| by Dykstra, David |
| Disk storage at CERN: Handling LHC data and beyond (p. 42017) |
| by Espinal, Xavier |
| Looking back on 10 years of the ATLAS Metadata Interface. Reflections on architecture, code design and development methods. (p. 42019) |
| by Fulachier, J |
| Utility of collecting metadata to manage a large scale conditions database in ATLAS (p. 42020) |
| by Gallas, EJ |
| Rucio - The next generation of large scale distributed system for ATLAS Data Management (p. 42021) |
| by Garonne, V |
| Data Bookkeeping Service 3 - Providing event metadata in CMS (p. 42022) |
| by Giffels, Manuel |
| DPM - efficient storage in diverse environments (p. 42025) |
| by Hellmich, Martin |
| di-EOS - 'distributed EOS': Initial experience with split-site persistency in a production service (p. 42026) |
| by Peters, A J |
| The Repack Challenge (p. 42028) |
| by Kruse, Daniele Francesco |
| The DMLite Rucio Plugin: ATLAS data in a filesystem (p. 42030) |
| by Lassnig, M |
| Streamlining CASTOR to manage the LHC data torrent (p. 42031) |
| by Lo Presti, Giuseppe |
| Optimising query execution time in LHCb Bookkeeping System using partition pruning and Partition-Wise joins (p. 42032) |
| by Mathe, Zoltan |
| Prototyping a file sharing and synchronization service with Owncloud (p. 42034) |
| by Moscicki, Jakub T |
| Using Solid State Disk Array as a Cache for LHC ATLAS Data Analysis (p. 42035) |
| by Yang, W |
| ECFS: A decentralized, distributed and fault-tolerant FUSE filesystem for the LHCb online farm (p. 42038) |
| by Rybczynski, Tomasz |
| ARIADNE: a Tracking System for Relationships in LHCb Metadata (p. 42039) |
| by Shapoval, I |
| A Tool for Conditions Tag Management in ATLAS (p. 42040) |
| by Sharmazanashvili, A |
| DPHEP: From Study Group to Collaboration (p. 42041) |
| by Shiers, Jamie |
| Analysis and improvement of data-set level file distribution in Disk Pool Manager (p. 42042) |
| by Skipsey, Samuel Cadellin |
| CORAL and COOL during the LHC long shutdown. (p. 42045) |
| by Valassi, Andrea |
| Toward a petabyte-scale AFS service at CERN (p. 42046) |
| by Ster, Daniel van der |
| Building an organic block storage service at CERN with Ceph (p. 42047) |
| by Ster, Daniel van der |
| DDM Workload Emulation (p. 42048) |
| by Vigne, R |
| Data Federation Strategies for ATLAS using XRootD (p. 42049) |
| by Gardner, R |
| The CMS Data Management System (p. 42052) |
| by Giffels, M. |
| A GPU offloading mechanism for LHCb (p. 52004) |
| by Badalov, Alexey |
| ROOT I/O in JavaScript (p. 52005) |
| by Bellenot, Bertrand |
| The path toward HEP High Performance Computing (p. 52006) |
| by Apostolakis, John |
| A New Nightly Build System for LHCb (p. 52007) |
| by Clemencic, Marco |
| Explorations of the Viability of ARM and Xeon Phi for Physics Processing (p. 52008) |
| by Abdurachmanov, David |
| Parallel track reconstruction in CMS using the cellular automaton approach (p. 52010) |
| by Funke, Daniel |
| Self-service for software development projects and HPC activities (p. 52012) |
| by Husejko, Michal |
| High energy electromagnetic particle transportation on the GPU (p. 52013) |
| by Canal, P |
| Measurements of the LHCb software stack on the ARM architecture (p. 52014) |
| by Kartik, S Vijay |
| Compute farm software for ATLAS IBL calibration (p. 52016) |
| by Bindi, M |
| The ATLAS Data Management Software Engineering Process (p. 52017) |
| by Lassnig, M |
| Experience with Intel's Many Integrated Core Architecture in ATLAS Software (p. 52018) |
| by Fleischmann, S |
| ATLAS Experience with HEP Software at the Argonne Leadership Computing Facility (p. 52019) |
| by LeCompte, T |
| Systematic profiling to monitor and specify the software refactoring process of the LHCb experiment (p. 52020) |
| by Couturier, Ben |
| ATLAS Offline Software Performance Monitoring and Optimization (p. 52022) |
| by Chauhan, N |
| C++ evolves! (p. 52023) |
| by Naumann, Axel |
| Does the Intel Xeon Phi processor fit HEP workloads? (p. 52024) |
| by Nowak, Andrzej |
| Parallelization of particle transport using Intel\textregistered TBB (p. 52025) |
| by Apostolakis, J |
| Speeding up HEP experiment software with a library of fast and auto-vectorisable mathematical functions (p. 52027) |
| by Piparo, Danilo |
| Preparing HEP software for concurrency (p. 52028) |
| by Clemencic, Marco |
| Preparing the Gaudi framework and the DIRAC WMS for multicore job submission (p. 52029) |
| by Rauschmayr, N |
| ATLAS software configuration and build tool optimisation (p. 52031) |
| by Rybkin, G |
| The end of HEP-specific computing as we know it? (p. 52033) |
| by Smirnova, Oxana |
| ATLAS Nightly Build System Upgrade (p. 52034) |
| by Dimitrov, G |
| Next-Generation Navigational Infrastructure and the ATLAS Event Store (p. 52036) |
| by van Gemmeren, P |
| Vectorising the detector geometry to optimize particle transport (p. 52038) |
| by Apostolakis, John |
| Agile Infrastructure Monitoring (p. 62001) |
| by Andrade, P |
| The keys to CERN conference rooms - Managing local collaboration facilities in large organisations (p. 62002) |
| by Baron, T |
| Experience with procuring, deploying and maintaining hardware at remote co-location centre (p. 62003) |
| by Bärring, O |
| Continue Service Improvement at CERN Computing Centre (p. 62004) |
| by Lopez, M Barroso |
| Optimization of Italian CMS Computing Centers via MIUR funded Research Projects (p. 62006) |
| by Boccali, Tommaso |
| Deployment of a WLCG network monitoring infrastructure based on the perfSONAR-PS technology (p. 62008) |
| by Campana, S |
| Time Structure Analysis of the LHCb DAQ Network (p. 62009) |
| by Antichi, Gianni |
| Tile-in-ONE\nAn integrated framework for the data quality assessment and database management for the ATLAS Tile Calorimeter (p. 62011) |
| by Cunha, R |
| Experience from the 1st Year running a Massive High Quality Videoconferencing Service for the LHC (p. 62014) |
| by Fernandes, Joao |
| Hangout with CERN: Reaching the Public with the Collaborative Tools of Social Media (p. 62019) |
| by Goldfarb, S |
| Indico 1.0 (p. 62020) |
| by Lopez, J B Gonzalez |
| Phronesis, a diagnosis and recovery tool for system administrators (p. 62021) |
| by Haen, C |
| Common accounting system for monitoring the ATLAS Distributed Computing resources (p. 62024) |
| by Karavakis, E |
| WLCG and IPv6 - the HEPiX IPv6 working group (p. 62026) |
| by Campana, S |
| Opportunistic Resource Usage in CMS (p. 62028) |
| by Kreuzer, Peter |
| CMS Data Analysis School Model (p. 62029) |
| by Malik, Sudhir |
| Testing as a Service with HammerCloud (p. 62031) |
| by Medrano Llamas, Ramón |
| Migration of the CERN IT Data Centre Support System to ServiceNow (p. 62032) |
| by Alonso, R Alvarez |
| Beyond core count: a look at new mainstream computing platforms for HEP workloads (p. 62036) |
| by Szostek, Pawel |
| ATLAS Cloud R&D (p. 62037) |
| by Panitkin, S |
| The GridKa Tier-1 Computing Center within the ALICE Grid Framework (p. 62038) |
| by Park, WooJin J |
| Scholarly literature and the press: scientific impact and social perception of physics computing (p. 62039) |
| by Pia, Maria Grazia |
| Distributed cluster testing using new virtualized framework for XRootD (p. 62042) |
| by Salmon, Justin L |
| Performance evaluation and capacity planning for a scalable and highly available virtualisation infrastructure for the LHCb experiment (p. 62043) |
| by Bonaccorsi, Enrico |
| Operating the Worldwide LHC Computing Grid: current and future challenges (p. 62044) |
| by Molina, J Flix |
| System performance monitoring of the ALICE Data Acquisition System with Zabbix (p. 62046) |
| by Telesca, Adriana |
| A scalable infrastructure for CMS data analysis based on OpenStack Cloud and Gluster file system (p. 62047) |
| by Toor, Salman |
| Challenging data and workload management in CMS Computing with network-aware systems (p. 62050) |
| by Wildish, Anthony |
| Integration and validation testing for PhEDEx, DBS and DAS with the PhEDEx LifeCycle agent (p. 62051) |
| by Boeser, C |
| ATLAS High-Level Trigger Performance for Calorimeter-Based Algorithms in LHC Run-I |
| by Mann, A |
| A new Scheme for ATLAS Trigger Simulation using Legacy Code |
| by Galster, G |
| Stitched Together Transitioning CMS to a Hierarchical Threaded Framework |
| by Jones, Christopher Duncan |
| ATLAS DQ2 to Rucio renaming infrastructure |
| by Serfon, C |
| Upgrades for Offline Data Quality Monitoring at ATLAS |
| by Joergensen, M D |
| The Fast Simulation of the CMS Experiment |
| by Giammanco, Andrea |
| Task Management in the New ATLAS Production System |
| by De, K |
| Automating usability of ATLAS Distributed Computing resources |
| by "Tupputi, S A |
| PROOF-based analysis on the ATLAS Grid facilities: first experience with the PoD/PanDa plugin |
| by Vilucchi, E |
| ATLAS Offline Software Performance Monitoring and Optimization |
| by Chauhan, N |
| Keyword Search over Data Service Integration for Accurate Results |
| by Zemleris, Vidmantas |
| Evolution of the ATLAS PanDA Workload Management System for Exascale Computational Science |
| by Maeno, T |
| Performance and development plans for the Inner Detector trigger algorithms at ATLAS |
| by Martin-Haugh, S |
| The ATLAS EventIndex: an event catalogue for experiments collecting large amounts of data |
| by Barberis, D |
| Evolution of the ATLAS Distributed Computing during the LHC long shutdown |
| by Campana, S |
| Next-Generation Navigational Infrastructure and the ATLAS Event Store |
| by van Gemmeren, P |
| The upgrade and re-validation of the Compact Muon Solenoid Electromagnetic Calorimeter Control System |
| by Holme, Oliver |
| The core trigger software framework of the ATLAS experiment |
| by Bold, T |
| Data Federation Strategies for ATLAS using XRootD |
| by Gardner, R |
| Real-time b jet identification in ATLAS |
| by Buzatu, A |
| Tile-in-ONE |
| by Cunha, R |
| The Design and Performance of the ATLAS Jet Trigger |
| by Shimizu, S |
| ATLAS Cloud Computing R&D project |
| by Panitkin, S |
| Derived Physics Data Production in ATLAS: Experience with Run 1 and Looking Ahead (slides) |
| by Laycock, P |
| The LHCb Higher Level Trigger and its performance in 2012 |
| by Albrecht, J |
| Re-designing the PhEDEx security model |
| by Wildish, Anthony |
| The future of event-level information repositories, indexing, and selection in ATLAS |
| by Barberis, D |
| Preparing the Track Reconstruction in ATLAS for a high multiplicity future |
| by Langenberg, R |
| The ATLAS Distributed Analysis System |
| by Legger, F |
| Integration and validation testing for PhEDEx, DBS and DAS with the PhEDEx LifeCycle agent |
| by Wildish, Anthony |
| CORAL and COOL during the LHC long shutdown |
| by Valassi, A |
| ATLAS Muon Trigger |
| by Woudstra, MJ |
| Computing challenges in the certification of ATLAS Tile Calorimeter front-end electronics during maintenance periods |
| by Solans, C |
| CMS Space Monitoring |
| by Wildish, Anthony |
| Towards a centralized Grid Speedometer |
| by Gutsche, Oliver |
| Implementing long-term data preservation and open access in CMS |
| by Lassila-Perini, Katri |
| Reliability Engineering Analysis of ATLAS Data Reprocessing Campaigns |
| by Vaniachine, A |
| Utility of collecting metadata to manage a large scale conditions database in ATLAS |
| by Gallas, EJ |
| Helix Nebula and CERN: A Symbiotic approach to exploiting commercial clouds |
| by Barreiro Megino, Fernando Harald |
| ATLAS Replica Management in Rucio: Replication Rules and Subscriptions |
| by Barisits, M |
| Using ssh as portal - The CMS CRAB over glideinWMS experience |
| by Belforte, Stefano |
| The ATLAS Hadronic Tau Trigger |
| by Mahlstedt, J |
| CMS experience of running glideinWMS in High Availability mode |
| by Sfiligoi, Igor |
| ATLAS Distributed Computing Monitoring tools during the LHC Run I |
| by Schovancova, J |
| The CMS Data Quality Monitoring software experience and future improvements |
| by De Guio, Federico |
| The Common Analysis Framework Project |
| by Mascheroni, Marco |
| Handling Worldwide LHC Computing Grid Critical Service Incidents : The infrastructure and experience behind nearly 5 years of GGUS ALARMs |
| by Dimou, M |
| Concepts for fast large scale Monte Carlo production for the ATLAS experiment |
| by Debenedetti, C |
| Simulation of Pile-up in the ATLAS Experiment |
| by Marshall, Z |
| ATLAS software configuration and build tool optimisation |
| by Rybkin, G |
| A J2EE based server for Muon Spectrometer Alignment monitoring in the ATLAS detector |
| by Formica, A |
| ATLAS Nightly Build System Upgrade |
| by Dimitrov, G |
| Optimizing High-Latency I/O in CMSSW |
| by Bockelman, Brian Paul |
| CMS geometry through 2020 |
| by Osborne, Ianna |
| The DMLite Rucio Plugin: ATLAS data in a filesystem |
| by Lassnig, M |
| The ATLAS Data Management Software Engineering Process |
| by Lassnig, M |
| Next Generation PanDA Pilot for ATLAS and Other Experiments |
| by Nilsson, P |
| Distributing CMS Data between the Florida T2 and T3 Centers using Lustre and Xrootd-fs |
| by Rodriguez, Jorge Luis |
| ATLAS Distributed Computing Operation Shift Teams experience during the discovery year and beginning of the Long Shutdown 1 |
| by Sedov, A |
| Estimating job runtime for CMS analysis jobs |
| by Sfiligoi, Igor |
| Popularity Prediction Tool for ATLAS Distributed Data Management |
| by Beermann, T |
| Dashboard Task Monitor for managing ATLAS user analysis on the Grid |
| by Sargsyan, L |
| Evolution of the pilot infrastructure of CMS towards a single glideinWMS pool |
| by Gutsche, Oliver |
| CMS Computing Operations During Run1 |
| by Gutsche, Oliver |
| AGIS: The ATLAS Grid Information System |
| by Anisenkov, A |
| Grid Site Testing for ATLAS with HammerCloud |
| by Elmsheuser, J |
| Common accounting system for monitoring the ATLAS Distributed Computing resources |
| by Karavakis, E |
| Track reconstruction at the ILC: the ILD tracking software |
| by Gaede, F |
| Systematic profiling to monitor and specify the software refactoring process of the LHCb experiment |
| by Lohn, S |
| Recent and planned changes to the LHCb computing model |
| by Cattaneo, M |
| Challenges of the ATLAS Monte Carlo production during run 1 and beyond |
| by Chapman, J |
| Lessons learned from the ATLAS performance studies of the Iberian Cloud for the first LHC running period. |
| by Sánchez-Martínez, V |
| Upgrading HFGFlash for Faster Simulation at Super LHC |
| by Rahmat, Rahmat |
| Measurements of the LHCb software stack on the ARM architecture |
| by Neufeld, N |
| Deferred High Level Trigger in LHCb: A Boost to CPU Resource Utilization |
| by Frank, M |
| ARIADNE: a Tracking System for Relationships in LHCb Metadata |
| by Shapoval, I |
| A PCIe GEn3 based readout for the LHCb upgrade |
| by Marconi, U |
| Integration of Cloud resources in the LHCb Distributed Computing |
| by Ubeda Garcia, M |
| ECFS: A decentralized, distributed and fault-tolerant FUSE filesystem for the LHCb online farm |
| by Rybczynski, T |
| Event processing time prediction at the CMS Experiment of the Large Hadron Collider |
| by Cury Siqueira, Samir |
| The LHCb Data Acquisition during LHC Run 1 |
| by Alessio, F |
| Challenges in the ATLAS Monte Carlo Production during run 1 and beyond |
| by Ehrenfeld, W |
| XRootd, disk-based, caching-proxy for optimization of data-access, data-placement and data-replication |
| by Tadel, Matevz |
| Lessons learned from the ATLAS performance studies of the Iberian Cloud for the first LHC running period. |
| by Sánchez-Martínez, V |
| DDM Workload Emulation |
| by Vigne, R |