ICALEPCS2015 - List of Authors (Varela, F.)

Paper	Title	Page
MOPGF020	Detector and Run Control Systems for the NA62 Fixed-Target Experiment at CERN	125
	P. Golonka, R. Fantechi, M. Gonzalez-Berges, F. Varela CERN, Geneva, Switzerland V. Falaleev JINR, Dubna, Moscow Region, Russia N. Lurkin Birmingham University, Birmingham, United Kingdom R.F. Page University of Bristol, Bristol, United Kingdom
	The Detector and Run Control systems for the NA62 experiment, which started physics data-taking in Autumn of 2014, were designed, developed and deployed in collaboration between the Physics and Engineering Departments at CERN. Based on the commonly used control frameworks, UNICOS and JCOP, they were developed with scarce manpower while meeting the challenge of extreme agility, evolving requirements, as well as integration of new types of hardware. This paper presents, for the first time, the architecture of these systems and discusses the challenges and experience in developing and maintaining them during the first months of operation.
	Poster MOPGF020 [4.624 MB]
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MOPGF039	TIP: An Umbrella Application for all SCADA-Based Applications for the CERN Technical Infrastructure	184
	F. Varela, Ph. Gayet, P. Golonka, M. Gonzalez-Berges, J. Pache, P. Sollander CERN, Geneva, Switzerland L. Goralczyk AGH University of Science and Technology, Kraków, Poland
	The WinCC Open Architecture (OA) SCADA package and the controls frameworks (UNICOS, JCOP) developed at CERN were successfully used to implement many critical control systems at CERN. In the recent years, the supervision and the controls of many technical infrastructure systems (electrical distribution, cooling and ventilation, etc.) were rewritten to use this standard environment. Operators at the Technical Infrastructure desk, who monitor these systems, are forced to continuously switch between the applications that allow them to monitor these infrastructure systems. The Technical Infrastructure Portal (TIP) was designed and is being developed to provide centralized access to all technical infrastructure systems and extend their functionality by linking to a powerful localization system based on GIS. Furthermore, it provides an environment for operators to develop views that aggregate data from different sources, like cooling and electricity.
	Poster MOPGF039 [1.396 MB]
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Paper

Title

Page

Detector and Run Control Systems for the NA62 Fixed-Target Experiment at CERN

125

P. Golonka, R. Fantechi, M. Gonzalez-Berges, F. Varela
CERN, Geneva, Switzerland
V. Falaleev
JINR, Dubna, Moscow Region, Russia
N. Lurkin
Birmingham University, Birmingham, United Kingdom
R.F. Page
University of Bristol, Bristol, United Kingdom

The Detector and Run Control systems for the NA62 experiment, which started physics data-taking in Autumn of 2014, were designed, developed and deployed in collaboration between the Physics and Engineering Departments at CERN. Based on the commonly used control frameworks, UNICOS and JCOP, they were developed with scarce manpower while meeting the challenge of extreme agility, evolving requirements, as well as integration of new types of hardware. This paper presents, for the first time, the architecture of these systems and discusses the challenges and experience in developing and maintaining them during the first months of operation.

Poster MOPGF020 [4.624 MB]

Export •

reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)

MOPGF039

TIP: An Umbrella Application for all SCADA-Based Applications for the CERN Technical Infrastructure

184

F. Varela, Ph. Gayet, P. Golonka, M. Gonzalez-Berges, J. Pache, P. Sollander
CERN, Geneva, Switzerland
L. Goralczyk
AGH University of Science and Technology, Kraków, Poland

The WinCC Open Architecture (OA) SCADA package and the controls frameworks (UNICOS, JCOP) developed at CERN were successfully used to implement many critical control systems at CERN. In the recent years, the supervision and the controls of many technical infrastructure systems (electrical distribution, cooling and ventilation, etc.) were rewritten to use this standard environment. Operators at the Technical Infrastructure desk, who monitor these systems, are forced to continuously switch between the applications that allow them to monitor these infrastructure systems. The Technical Infrastructure Portal (TIP) was designed and is being developed to provide centralized access to all technical infrastructure systems and extend their functionality by linking to a powerful localization system based on GIS. Furthermore, it provides an environment for operators to develop views that aggregate data from different sources, like cooling and electricity.

Poster MOPGF039 [1.396 MB]

Export •

reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)