Thomas Kress
RWTH Aachen University
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Publication
Featured researches published by Thomas Kress.
European Physical Journal C | 2008
M. Raidal; A. van der Schaaf; Ikaros I.Y. Bigi; M. Mangano; Y. Semertzidis; S. Abel; S. Albino; S. Antusch; E. Arganda; B. Bajc; Subhas Banerjee; Carla Biggio; M. Blanke; W. Bonivento; G.C. Branco; D. Bryman; Andrzej J. Buras; L. Calibbi; A. Ceccucci; Piotr H. Chankowski; Sacha Davidson; Aldo Deandrea; David DeMille; F. Deppisch; M. A. Diaz; B. Duling; Marta Felcini; W. Fetscher; F. Forti; D. K. Ghosh
This chapter of the report of the “Flavor in the era of the LHC” Workshop discusses the theoretical, phenomenological and experimental issues related to flavor phenomena in the charged lepton sector and in flavor conserving CP-violating processes. We review the current experimental limits and the main theoretical models for the flavor structure of fundamental particles. We analyze the phenomenological consequences of the available data, setting constraints on explicit models beyond the standard model, presenting benchmarks for the discovery potential of forthcoming measurements both at the LHC and at low energy, and exploring options for possible future experiments.
Journal of Grid Computing | 2010
A. Fanfani; Anzar Afaq; Jose Afonso Sanches; Julia Andreeva; Giusepppe Bagliesi; L. A. T. Bauerdick; Stefano Belforte; Patricia Bittencourt Sampaio; K. Bloom; Barry Blumenfeld; D. Bonacorsi; C. Brew; Marco Calloni; Daniele Cesini; Mattia Cinquilli; G. Codispoti; Jorgen D’Hondt; Liang Dong; Danilo N. Dongiovanni; Giacinto Donvito; David Dykstra; Erik Edelmann; R. Egeland; P. Elmer; Giulio Eulisse; D Evans; Federica Fanzago; F. M. Farina; Derek Feichtinger; I. Fisk
The CMS experiment expects to manage several Pbytes of data each year during the LHC programme, distributing them over many computing sites around the world and enabling data access at those centers for analysis. CMS has identified the distributed sites as the primary location for physics analysis to support a wide community with thousands potential users. This represents an unprecedented experimental challenge in terms of the scale of distributed computing resources and number of user. An overview of the computing architecture, the software tools and the distributed infrastructure is reported. Summaries of the experience in establishing efficient and scalable operations to get prepared for CMS distributed analysis are presented, followed by the user experience in their current analysis activities.
Journal of Physics: Conference Series | 2014
J Adelman; S. Alderweireldt; J Artieda; G. Bagliesi; D Ballesteros; S. Bansal; L. A. T. Bauerdick; W Behrenhof; S. Belforte; K. Bloom; B. Blumenfeld; S. Blyweert; D. Bonacorsi; C. Brew; L Contreras; A Cristofori; S Cury; D da Silva Gomes; M Dolores Saiz Santos; J Dost; David Dykstra; E Fajardo Hernandez; F Fanzango; I. Fisk; J Flix; A Georges; M. Giffels; G. Gomez-Ceballos; S. J. Gowdy; Oliver Gutsche
During the first run, CMS collected and processed more than 10B data events and simulated more than 15B events. Up to 100k processor cores were used simultaneously and 100PB of storage was managed. Each month petabytes of data were moved and hundreds of users accessed data samples. In this document we discuss the operational experience from this first run. We present the workflows and data flows that were executed, and we discuss the tools and services developed, and the operations and shift models used to sustain the system. Many techniques were followed from the original computing planning, but some were reactions to difficulties and opportunities. We also address the lessons learned from an operational perspective, and how this is shaping our thoughts for 2015.
Physical Review C | 2005
B. Hong; Young-Jin Kim; N. Herrmann; M. R. Stockmeier; A. Andronic; V. Barret; Z. Basrak; N. Bastid; M. L. Benabderrahmane; R. Caplar; P. Crochet; P. Dupieux; Mile Dzelalija; Z. Fodor; A. Gobbi; Y. Grishkin; O. N. Hartmann; K. D. Hildenbrand; J. Kecskemeti; M. Kirejczyk; P. Koczon; M. Korolija; R. Kotte; Thomas Kress; Andrey N. Lebedev; Y. Leifels; X. Lopez; A. Mangiarotti; M. Merschmeyer; W. Neubert
We present transverse momentum and rapidity spectra of charged pions in central Ru + Ru collisions at 400
Physical Review C | 2005
B. Hong; Young-Jin Kim; N. Herrmann; M. R. Stockmeier; A. Andronic; V. Barret; Z. Basrak; N. Bastid; M. L. Benabderrahmane; R. Caplar; P. Crochet; P. Dupieux; M. Dželalija; Z. Fodor; A. Gobbi; Y. Grishkin; O. N. Hartmann; K. D. Hildenbrand; J. Kecskemeti; M. Kirejczyk; P. Koczon; M. Korolija; R. Kotte; Thomas Kress; Andrey N. Lebedev; Y. Leifels; X. Lopez; A. Mangiarotti; M. Merschmeyer; W. Neubert
A
Physical Review C | 2005
B. Hong; Yong Kim; N. Herrmann; M. R. Stockmeier; A. Andronic; V. Barret; Z. Basrak; Nicole Bastid; M. L. Benabderrahmane; R. Caplar; Philippe Crochet; Pascal Dupieux; Mile Dzelalija; Z. Fodor; A. Gobbi; Y. Grishkin; O. N. Hartmann; K. D. Hildenbrand; J. Kecskemeti; M. Kirejczyk; P. Koczon; M. Korolija; R. Kotte; Thomas Kress; Andrey N. Lebedev; Y. Leifels; X. Lopez; A. Mangiarotti; M. Merschmeyer; W. Neubert
and 1528
Physical Review C | 2005
B. Hong; Young-Jin Kim; N. Herrmann; M. R. Stockmeier; A. Andronic; V. Barret; Z. Basrak; Nicole Bastid; M. L. Benabderrahmane; R. Caplar; Philippe Crochet; Pascal Dupieux; Mile Dzelalija; Z. Fodor; A. Gobbi; Y. Grishkin; O. N. Hartmann; K. D. Hildenbrand; J. Kecskemeti; M. Kirejczyk; P. Koczon; M. Korolija; R. Kotte; Thomas Kress; Andrey N. Lebedev; Y. Leifels; X. Lopez; A. Mangiarotti; M. Merschmeyer; W. Neubert
A
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