Progress in control and data acquisition for the ITER neutral beam test facility

► An ion source experiment, referred to as SPIDER, is under construction in the ITER neutral beam test facility. ► The progress in designing and testing the SPIDER control and data acquisition system is reported. ► An original approach is proposed in using ITER CODAC and non-ITER CODAC technology. S...

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Bibliographic Details
Published in:Fusion engineering and design 2013-10, Vol.88 (6-8), p.492-496
Main Authors: Luchetta, Adriano, Manduchi, Gabriele, Taliercio, Cesare, Soppelsa, Anton, Paolucci, Francesco, Sartori, Filippo, Barbato, Paolo, Capobianco, Roberto, Breda, Mauro, Molon, Federico, Moressa, Modesto, Polato, Sandro, Simionato, Paola, Zampiva, Enrico
Format: Article
Language:English
Subjects:
Architecture (computers)
Archives
Computer programs
Control
Data acquisition
Design engineering
Negative ion source
Neutral beam injector
Neutral beams
Software
Spiders
Test facilities
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Summary:► An ion source experiment, referred to as SPIDER, is under construction in the ITER neutral beam test facility. ► The progress in designing and testing the SPIDER control and data acquisition system is reported. ► An original approach is proposed in using ITER CODAC and non-ITER CODAC technology. SPIDER, the ion source test bed in the ITER neutral beam test facility, is under construction and its operation is expected to start in 2014. Control and data acquisition for SPIDER are undergoing final design. SPIDER CODAS, as the control and data acquisition system is referred to, is requested to manage 25 plant units, to acquire 1000 analogue signals with sampling rates ranging from a few S/s to 10MS/s, to acquire images with up to 100 frames per second, to operate with long pulses lasting up to 1h, and to sustain 200MB/s data throughput into the data archive with an annual data storage amount of up to 50TB. SPIDER CODAS software architecture integrates three open-source software frameworks each addressing specific system requirements. Slow control exploits the synergy among EPICS and Siemens S7 programmable controllers. Data handling is by MDSplus a data-centric framework that is geared towards the collection and organization of scientific data. Diagnostics based on imaging drive the design of data throughput and archive size. Fast control is implemented by using MARTe, a data-driven, object-oriented, real-time environment. The paper will describe in detail the progress of the system hardware and software architecture and will show how the software frameworks interact to provide the functions requested by SPIDER CODAS. The paper will focus on how the performance requirements can be met with the described SPIDER CODAS architecture, describing the progress achieved by carrying out prototyping activities.
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2013.01.082