M
M. Joos
Researcher at CERN
Publications - 8
Citations - 103
M. Joos is an academic researcher from CERN. The author has contributed to research in topics: Gigabit Ethernet & Software deployment. The author has an hindex of 6, co-authored 8 publications receiving 102 citations.
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Journal ArticleDOI
Integration of the Trigger and Data Acquisition systems in ATLAS
Imma Riu,M. Abolins,P. Adragna,Giuseppe Avolio,S. Backlund,E. Badescu,John Baines,S. Batreanu,Andreas Battaglia,Hans Peter Beck,Christopher Bee,P. J. Bell,R.R. Blair,A. Bogaerts,Tomasz Bold,Martine Bosman,James Boyd,D. Burckhart-Chromek,Mihai Caprini,D. Cimino,M.D. Ciobotaru,M.D. Ciobotaru,Alina Corso-Radu,M. J. Costa,Rodrigo Coura Torres,R. Cranfield,G. Crone,J. W. Dawson,J. De Almeida Simoes,M. DellaPietra,Sarah Demers,A. Di Mattia,Marc Dobson,A. Dos Anjos,A. Dotti,Gary Drake,Nicolas Ellis,Dmitry Emeliyanov,Y. Ermoline,I. Eschrich,J. Ferland,Roberto Ferrari,M.L. Ferrer,David Francis,Szymon Gadomski,S. Gameiro,H. Garitaonandia,G. Gaudio,Benedetto Gorini,S. Gowdy,B.J. Green,W. Haberichter,Haleh Khani Hadavand,C. Haeberli,M. Hauschild,Reiner Hauser,Stephen Hillier,C. Hinkelbein,R. E. Hughes-Jones,J. Idarraga,M. Joos,Andrei Kazarov,Robert Kehoe,G. Kieft,Julie Kirk,S. Kolos,Kostantinos Kordas,Krzysztof Korcyl,Andreas Kugel,L. Leahu,M. Leahu,Giovanna Lehmann Miotto,Daniel Lellouch,Livio Mapelli,B. Martin,Jiri Masik,Robert McPherson,C. Meessen,Catalin Meirosu,Mikhail Mineev,A. Misiejuk,Giuseppe Mornacchi,M. Mueller,R.M. Garcia,Yasushi Nagasaka,Andrea Negri,C. Padilla,F. Parodi,Enrico Pasqualucci,Thilo Pauly,J. Petersen,B. G. Pope,P. Renkel,Chiara Roda,Daniela Salvatore,D. A. Scannicchio,Carlo Schiavi,J. Schlereth,Ingo Scholtes,Serguei Sivoklokov,J. Sloper,Igor Soloviev,R. Spiwoks,S. Stancu,S. Stancu,J. Stelzer,J. A. Strong,S. Sushkov,L. Tremblet,Gokhan Unel,Gokhan Unel,Wainer Vandelli,Jos Vermeulen,J. Von Der Schmitt,Per Werner,S. J. Wheeler-Ellis,Fred Wickens,Werner Wiedenmann,Henric George Wilkens,Frank Winklmeier,Xin Wu,Yoshiji Yasu,F. Zema,Jie Zhang,H. Zobernig +124 more
TL;DR: In this article, the authors describe the integration and commissioning of trigger and data acquisition (TDAQ) equipment in the ATLAS experimental area, which includes the readout buffers containing the events, event building, second level and third level trigger processors.
Journal ArticleDOI
The base-line DataFlow system of the ATLAS trigger and DAQ
Hans Peter Beck,M. Abolins,A. Dos Anjos,M. Barisonzi,Matteo Beretta,Robert Blair,J. A. Bogaerts,H. Boterenbrood,D. R. Botterill,M.D. Ciobotaru,E.P. Cortezon,R. Cranfield,G. Crone,J. W. Dawson,B. Di Girolamo,R.W. Dobinson,Y. Ermoline,M.L. Ferrer,David Francis,Szymon Gadomski,S. Gameiro,P. Golonka,Benedetto Gorini,B. Green,M. Gruwe,S. Haas,C. Haeberli,Yoji Hasegawa,Reiner Hauser,C. Hinkelbein,Richard Hughes-Jones,E. Knezo,P. Jansweijer,M. Joos,Anna Kaczmarska,G. Kieft,Krzysztof Korcyl,Andreas Kugel,Andrew Lankford,G. Lehmann,M.J. LeVine,Weiyue Liu,Tadashi Maeno,M.L. Maia,Livio Mapelli,B. Martin,R. A. McLaren,Catalin Meirosu,A. Misiejuk,R. Mommsen,Giuseppe Mornacchi,M. Muller,Yasushi Nagasaka,K. Nakayoshi,Ioannis Papadopoulos,J. Petersen,Pd.M.L. Pinto,D. Prigent,V.P. Reale,J. Schlereth,M. Shimojima,R. Spiwoks,S. Stancu,J. Strong,L. Tremblet,Jos Vermeulen,Per Werner,Fred Wickens,Yoshiji Yasu,M. Yu,H. Zobernig,M. Zurek +71 more
TL;DR: The base-line design and implementation of the ATLAS DAQ DataFlow system is described, the main components of the Data Flow system, their interactions, bandwidths, and rates are discussed, and performance measurements on a 10% scale prototype are presented.
Proceedings ArticleDOI
ATLAS DataFlow: the read-out subsystem, results from trigger and data-acquisition system testbed studies and from modeling
Jos Vermeulen,M. Abolins,I. Alexandrav,António Amorim,A. Dos Anjos,E. Badescu,N. Barros,Hans Peter Beck,R. E. Blair,D. Burckhart-Chromek,M. Caprini,M.D. Ciobotaru,A. Corso-Radu,R. Cranfield,G. Crone,J. W. Dawson,R.W. Dobinson,Marc Dobson,Gary Drake,Y. Ermoline,Roberto Ferrari,M.L. Ferrer,David Francis,Szymon Gadomski,S. Gameiro,Benedetto Gorini,B.J. Green,M. Gruwé,S. Haas,W. Haberichter,C. Haeberli,Yoji Hasegawa,Reiner Hauser,C. Hinkelbein,Richard Hughes-Jones,M. Joos,Andrei Kazarov,G. Kieft,D. Klose,S. Kolos,Krzysztof Korcyl,Kostantinos Kordas,V. M. Kotov,Andreas Kugel,Andrew Lankford,G. Lehmann,M.J. LeVine,Livio Mapelli,B. Martin,R. A. McLaren,Catalin Meirosu,Mikhail Mineev,A. Misiejuk,Giuseppe Mornacchi,M. Muller,R. Murillo,Yasushi Nagasaka,J. Petersen,B. G. Pope,D. Prigent,Y. F. Ryabov,J. Schlereth,J. Sloper,Igor Soloviev,R. Spiwoks,S. Stancu,J. A. Strong,L. Trembler,Gokhan Unel,W. Vandelli,Per Werner,Fred Wickens,M. Wiesmann,M. Wu,Yoshiji Yasu +74 more
TL;DR: A discussion of the functionality and real-time properties of the ROS is combined with a presentation of measurement and modeling results for a testbed with a size of about 20% of the final DAQ system, together with extrapolations to the full system.
Journal ArticleDOI
Performance of the Final Event Builder for the ATLAS Experiment
H. P. Beck,M. Abolins,A. Battaglia,Robert Blair,A. Bogaerts,M. Bosman,M. Ciobotaru,R. Cranfield,G. Crone,J. W. Dawson,R. Dobinson,Marc Dobson,A. Dos Anjos,Gary Drake,Y. Ermoline,R. Ferrari,M.L. Ferrer,D. Francis,Szymon Gadomski,S. Gameiro,B. Gorini,B.J. Green,W. Haberichter,C. Haberli,R. Hauser,C. Hinkelbein,Richard Hughes-Jones,M. Joos,G. Kieft,S. Klous,K. Korcyl,Kostantinos Kordas,Andreas Kugel,L. Leahu,G. Lehmann,Brian Thomas Martin,L. Mapelli,C. Meessen,Catalin Meirosu,A. Misiejuk,G. Mornacchi,M. Muller,Y. Nagasaka,Andrea Negri,E. Pasqualucci,T. Pauly,J. Petersen,B. G. Pope,J. L. Schlereth,R. Spiwoks,S. Stancu,J. A. Strong,S. Sushkov,T. Szymocha,L. Tremblet,Gokhan Unel,W. Vandelli,Jos Vermeulen,Per Werner,S. J. Wheeler-Ellis,F. J. Wickens,W. Wiedenmann,M. Yu,Y. Yasu,Jinlong Zhang,H. Zobernig +65 more
TL;DR: Performance measurements have been exercised on this initial system, which show promising results that the required final data rates and bandwidth for the ATLAS event builder are in reach.
Journal ArticleDOI
ATLAS DataFlow: the read-out subsystem, results from trigger and data-acquisition system testbed studies and from modeling
Jos Vermeulen,M. Abolins,I. Alexandrov,António Amorim,A. Dos Anjos,E. Badescu,N. Barros,Hans Peter Beck,R. E. Blair,D. Burckhart-Chromek,M. Caprini,M.D. Ciobotaru,A. Corso-Radu,R. Cranfield,G. Crone,J. W. Dawson,R.W. Dobinson,Marc Dobson,Gary Drake,Y. Ermoline,Roberto Ferrari,M.L. Ferrer,David Francis,Szymon Gadomski,S. Gameiro,Benedetto Gorini,B.J. Green,M. Gruwé,S. Haas,W. Haberichter,C. Haeberli,Yoji Hasegawa,Reiner Hauser,C. Hinkelbein,Richard Hughes-Jones,M. Joos,Andrei Kazarov,G. Kieft,D. Klose,S. Kolos,K. Korcyl,Kostantinos Kordas,V. M. Kotov,Andreas Kugel,Andrew Lankford,Giovanna Lehmann Miotto,M.J. LeVine,Livio Mapelli,B. Martin,R. A. McLaren,Catalin Meirosu,Mikhail Mineev,A. Misiejuk,Giuseppe Mornacchi,M. Muller,R. Murillo,Yasushi Nagasaka,J. Petersen,B. G. Pope,D. Prigent,Y. F. Ryabov,J. Schlereth,J. Sloper,I. Soloviev,R. Spiwoks,S. Stancu,J. A. Strong,L. Tremblet,Gokhan Unel,W. Vandelli,Per Werner,Fred Wickens,M. Wiesmann,M. Wu,Yoshiji Yasu +74 more
TL;DR: A discussion of the functionality and real-time properties of the ROS is combined with a presentation of measurement and modelling results for a testbed with a size of about 20% of the final DAQ system, together with extrapolations to the full system.