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Validation of the Data Consolidation in Layout Database for the LHC Tunnel Cryogenics Controls Upgrade
/ Tovar-Gonzalez, A (CERN) ; Balle, C (CERN) ; Blanco, E (CERN) ; Fortescue-Beck, E (CERN) ; Fluder, C (CERN) ; Inglese, V (CERN) ; Pezzetti, M (CERN) ; Gomes, P (CERN) ; Wolak, T (CERN) ; Dudek, M (CERN) et al.
The control system of the Large Hadron Collider cryogenics manages over 34’000 instrumentation and actuator channels. The complete information on their characteristics and parameters can be extracted from a set of views on the Layout database, to generate the specifications of the control system; from these, the code to populate PLCs (Programmable Logic Controller) and SCADA (Supervisory Control & Data Acquisition) is automatically produced, within the UNICOS framework (Unified Industrial Control System). [...]
CERN-ACC-2014-0348.-
Geneva : CERN, 2014 - 5 p.
Fulltext: PDF; External link: Published version from JACoW
In : 14th International Conference on Accelerator & Large Experimental Physics Control Systems, San Francisco, CA, USA, 6 - 11 Oct 2013, pp.thppc057
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2.
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Validation of the Data Consolidation in Layout Database for the LHC Tunnel Cryogenics Controls Package
/ Tovar, A (CERN) ; Balle, C (CERN) ; Blanco Vinuela, E B (CERN) ; Fluder, C (CERN) ; Fortescue-Beck, E (CERN) ; Gomes, P (CERN) ; Inglese, V (CERN) ; Pezzetti, M (CERN)
The control system of the Large Hadron Collider cryogenics manages over 34’000 instrumentation and actuator channels..
2014
External link: Published version from JaCoW
In : 14th International Conference on Accelerator & Large Experimental Physics Control Systems, San Francisco, CA, USA, 6 - 11 Oct 2013, pp.thppc057
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3.
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Improved Software Production for the LHC Tunnel Cryogenics Control System
/ Fluder, C (CERN) ; Wolak, T (AGH-UST, Cracow) ; Drozd, A (AGH-UST, Cracow) ; Dudek, M (CERN) ; Frassinelli, F (Milan Polytechnic) ; Pezzetti, M (CERN) ; Tovar-Gonzalez, A (CERN) ; Zapolski, M (AGH-UST, Cracow)
The software development for the control system of the cryogenics in the LHC is partially automatized. However, every single modification requires a sequence of consecutive and interdependent tasks to be executed manually by software developers. [...]
2015 - 7 p.
- Published in : Phys. Procedia 67 (2015) 1134-1140
Elsevier Open Access article: PDF;
In : 25th International Cryogenic Conference & International Cryogenic Materials Conference 2014, Twente U., Enschede, The Netherlands, 07 - 11 Jul 2014, pp.1134-1140
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4.
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Unified Software Production Process for CERN Cryogenic Control Applications
/ Pezzetti, Marco (CERN) ; Barbe, Thomas (CERN) ; Fluder, Czeslaw (CERN) ; Kubla, Tomas (CERN) ; Rog, Sebastian (AGH-UST, Cracow) ; Tovar-Gonzalez, Antonio (CERN)
The software engineering of process control system for CERN cryogenic installations is based on an automatic code production methodology and continuous integration practice. This solution was initially developed for the LHC Accelerator applications, then adapted to LHC Detectors, test facilities and non-LHC cryogenic facilities. [...]
2023 - 5 p.
- Published in : JACoW ICALEPCS 2023 (2023) THPDP065
Fulltext: PDF;
In : 19th International Conference on Accelerator and Large Experimental Physics Control Systems (ICALEPCS 2023), Cape Town, South Africa, 7 - 13 Oct 2023, pp.THPDP065
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5.
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The Integration Of The LHC Cryogenics Control System Data Into The CERN Layout Database
/ Fortescue-Beck, E (CERN) ; Billen, R (CERN) ; Gomes, P (CERN)
The Large Hadron Collider’s Cryogenic Control System makes extensive use of several databases to manage data appertaining to over 34,000 cryogenic instrumentation channels. This data is essential for populating the software of the PLCs which are responsible for maintaining the LHC at the appropriate temperature. [...]
CERN-ATS-2011-212.-
Geneva : CERN, 2011 - 4 p.
- Published in : Conf. Proc.: C111010 (2011) , pp. MOPKN024
Fulltext: PDF; External link: Published version from JaCoW
In : 13th International Conference on Accelerator and Large Experimental Physics Control Systems, Grenoble, France, 10 - 14 Oct 2011, pp.147-150
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7.
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Main Consolidations and Improvements of the Control System and Instrumentation for the LHC Cryogenics
/ Fluder, C (CERN) ; Blanco, E (CERN) ; Bremer, J (CERN) ; Bremer, K (CERN) ; Ivens, B (CERN) ; Casas-Cubillos, J (CERN) ; Claudet, S (CERN) ; Gomes, P (CERN) ; Ivens, B (CERN) ; Perin, A (CERN) et al.
Operation of the LHC during 2010 and 2011 with 3.5 TeV beam energy and luminosity up to 3.65x1033 cm-2 s-1, led to radiation-induced failures of micro-electronic devices used in the cryogenic control system. [...]
CERN-ATS-2013-005.
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2013. - 5 p.
Full text
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An innovative approach for the design of cryogenic electrical and process control systems at CERN: the cryogenic Continuous Integration project
/ Barbe, T ; Pezzetti, M ; Martin, S ; Tovar-Gonzalez, A ; Fluder, C
Designing, building, commissioning, operating and maintaining multiple complex cryogenics process control systems involves many challenges. For several years, CERN has developed various solutions to help with the whole lifecycle of a cryogenic process control system. [...]
2022 - 7 p.
- Published in : IOP Conf. Ser. Mater. Sci. Eng.: 1240 (2022) , no. 1, pp. 012042
Fulltext: PDF;
In : Cryogenic Engineering Conference and International Cryogenic Materials Conference, Online, 19 - 23 Jul 2021, pp.012042
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9.
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The Control System for the Cryogenics in the LHC Tunnel [First Experience and Improvements]
/ Gomes, P (CERN) ; Blanco, E (CERN) ; Casas, J (CERN) ; Fluder, C (CERN) ; Fortescue, E (CERN) ; Le Roux, P (CERN) ; Penacoba, G (CERN) ; Pezzetti, M (CERN) ; Soubiran, M (CERN) ; Tovar, A (CERN) et al.
The Large Hadron Collider (LHC) was commissioned at CERN and started operation with beams in 2008. [...]
CERN-ATS-2010-012.
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2010. - 4 p.
Full text
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10.
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First Experience with the LHC Cryogenic Instrumentation
/ Vauthier, N ; Avramidou, R ; Balle, Ch ; Casas-Cubillos, J ; Ciechanowski, M ; Fernandez-Penacoba, G ; Fortescue-Beck, E ; Gomes, P ; Jeanmonod, N ; Lopez-Lorente, A et al.
The LHC under commissioning at CERN will be the world's largest superconducting accelerator and therefore makes extensive use of cryogenic instruments. These instruments are installed in the tunnel and therefore have to withstand the LHC environment that imposes radiation-tolerant design and construction. [...]
LHC-PROJECT-Report-1078; CERN-LHC-PROJECT-Report-1078.-
2008 - 9 p.
- Published in : AIP Conf. Proc. 985 (2008) 957-964
Access to fulltext document: PDF;
In : Conference on Cryogenic Engineering and Cryogenic Materials, Chattanooga, TN, USA, 16 - 20 Jul 2007
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