ICALEPCS2013 - List of Authors (Lussignol, Y.)

Paper

Title

Page

The Spiral2 Control System Progress Towards the Commission Phase

8

E. Lécorché, P. Gillette, C.H. Haquin, E. Lemaître, G. Normand, C.H. Patard, L. Philippe, D.T. Touchard
GANIL, Caen, France
J.F. Denis, F. Gougnaud, J.-F. Gournay, Y. Lussignol
CEA/DSM/IRFU, France
P.G. Graehling, J.H. Hosselet, C. Maazouzi
IPHC, Strasbourg Cedex 2, France

The commissioning of the Spiral2 Radioactive Ion Beams facility at Ganil will soon start, so requiring the control system components to be delivered in time. Yet, parts of the system were validated during preliminary tests performed with ions and deuterons beams at low energy. The control system development results from the collaboration between Ganil, CEA/IRFU, CNRS/IPHC laboratories, using appropriate tools and approach. Based on Epics, the control system follows a classical architecture. At the lowest level, Modbus/TCP protocol is considered as a field bus. Then, equipment are handled by IOCs (soft or VME/VxWorks) with a software standardized interface between IOCs and clients applications on top. This last upper layer consists of Epics standard tools, CSS/BOY user interfaces within the so-called CSSop Spiral2 context suited for operation and, for machine tunings, high level applications implemented by Java programs developed within a Spiral2 framework derived from the open-Xal one. Databases are used for equipment data and alarms archiving, to configure equipment and to manage the machine lattice and beam settings. A global overview of the system is therefore here proposed.

Slides MOCOAAB03 [3.205 MB]

TUCOBAB01

A Small but Efficient Collaboration for the Spiral2 Control System Development

498

E. Lécorché, C. Berthe, F. Bucaille, P. Gillette, C.H. Haquin, E. Lemaître, J.M. Loyant, G. Normand, C.H. Patard, L. Philippe, R.J.F. Roze, D.T. Touchard, A.H. Trudel
GANIL, Caen, France
J.F. Denis, F. Gougnaud, J.-F. Gournay, Y. Lussignol, A. Roger, R. Touzery
CEA/DSM/IRFU, France
P.G. Graehling, J.H. Hosselet, C. Maazouzi
IPHC, Strasbourg Cedex 2, France

The Spiral2 radioactive ion beam facility to be commissioned in 2014 at Ganil (Caen) is built within international collaborations. This also concerns the control system development shared by three laboratories: Ganil has to coordinate the control and automated systems work packages, CEA/IRFU is in charge of the “injector” (sources and low energy beam lines) and the LLRF, CNRS/IPHC provides the emittancemeters and a beam diagnostics platform. Besides the technology Epics based, this collaboration, although being handled with a few people, nevertheless requires an appropriate and tight organization to reach the objectives given by the project. This contribution describes how, started in 2006, the collaboration for controls has been managed both from the technological point of view and the organizational one, taking into account not only the previous experience, technical background or skill of each partner, but also their existing working practices and “cultural” approaches. A first feedback comes from successful beam tests carried out at Saclay and Grenoble; a next challenge is the migration to operation, Ganil having to run Spiral2 as the other members are moving to new projects

Slides TUCOBAB01 [2.747 MB]

THPPC026

Diagnostic Controls of IFMIF-EVEDA Prototype Accelerator

1144

J.F. Denis, D. Bogard, J.-F. Gournay, Y. Lussignol, P. Mattei
CEA/DSM/IRFU, France

The Linear IFMIF prototype accelerator (LIPac) will accelerate a 9 MeV, 125 mA, CW deuteron beam in order to validate the technology that will be used for the future IFMIF accelerator (International Fusion Materials Irradiation Facility). This facility will be installed in Rokkasho (Japan) and Irfu-Saclay has developed the control system for several work packages like the injector and a set of the diagnostic subsystem. At Irfu-Saclay, beam tests were carried out on the injector with its diagnostics. Diagnostic devices have been developed to characterize the high beam power (more than 1MW) along the accelerator: an Emittance Meter Unit (EMU), Ionization Profile Monitors (IPM), Secondary Electron Emission Grids (SEM-grids), Beam Loss Monitors (BLoM and μLoss), and Current Transformers (CT). This control system relies on COTS and an EPICS software platform. A specific isolated fast acquisition subsystem running at high sampling rate (about 1 MS/s), triggered by the Machine Protection System (MPS), is dedicated to the analysis of post-mortem data produced by the BLoMs and current transformer signals.

Poster THPPC026 [0.581 MB]

Paper	Title	Page
MOCOAAB03	The Spiral2 Control System Progress Towards the Commission Phase	8
	E. Lécorché, P. Gillette, C.H. Haquin, E. Lemaître, G. Normand, C.H. Patard, L. Philippe, D.T. Touchard GANIL, Caen, France J.F. Denis, F. Gougnaud, J.-F. Gournay, Y. Lussignol CEA/DSM/IRFU, France P.G. Graehling, J.H. Hosselet, C. Maazouzi IPHC, Strasbourg Cedex 2, France
	The commissioning of the Spiral2 Radioactive Ion Beams facility at Ganil will soon start, so requiring the control system components to be delivered in time. Yet, parts of the system were validated during preliminary tests performed with ions and deuterons beams at low energy. The control system development results from the collaboration between Ganil, CEA/IRFU, CNRS/IPHC laboratories, using appropriate tools and approach. Based on Epics, the control system follows a classical architecture. At the lowest level, Modbus/TCP protocol is considered as a field bus. Then, equipment are handled by IOCs (soft or VME/VxWorks) with a software standardized interface between IOCs and clients applications on top. This last upper layer consists of Epics standard tools, CSS/BOY user interfaces within the so-called CSSop Spiral2 context suited for operation and, for machine tunings, high level applications implemented by Java programs developed within a Spiral2 framework derived from the open-Xal one. Databases are used for equipment data and alarms archiving, to configure equipment and to manage the machine lattice and beam settings. A global overview of the system is therefore here proposed.
	Slides MOCOAAB03 [3.205 MB]

TUCOBAB01	A Small but Efficient Collaboration for the Spiral2 Control System Development	498
	E. Lécorché, C. Berthe, F. Bucaille, P. Gillette, C.H. Haquin, E. Lemaître, J.M. Loyant, G. Normand, C.H. Patard, L. Philippe, R.J.F. Roze, D.T. Touchard, A.H. Trudel GANIL, Caen, France J.F. Denis, F. Gougnaud, J.-F. Gournay, Y. Lussignol, A. Roger, R. Touzery CEA/DSM/IRFU, France P.G. Graehling, J.H. Hosselet, C. Maazouzi IPHC, Strasbourg Cedex 2, France
	The Spiral2 radioactive ion beam facility to be commissioned in 2014 at Ganil (Caen) is built within international collaborations. This also concerns the control system development shared by three laboratories: Ganil has to coordinate the control and automated systems work packages, CEA/IRFU is in charge of the “injector” (sources and low energy beam lines) and the LLRF, CNRS/IPHC provides the emittancemeters and a beam diagnostics platform. Besides the technology Epics based, this collaboration, although being handled with a few people, nevertheless requires an appropriate and tight organization to reach the objectives given by the project. This contribution describes how, started in 2006, the collaboration for controls has been managed both from the technological point of view and the organizational one, taking into account not only the previous experience, technical background or skill of each partner, but also their existing working practices and “cultural” approaches. A first feedback comes from successful beam tests carried out at Saclay and Grenoble; a next challenge is the migration to operation, Ganil having to run Spiral2 as the other members are moving to new projects
	Slides TUCOBAB01 [2.747 MB]

THPPC026	Diagnostic Controls of IFMIF-EVEDA Prototype Accelerator	1144
	J.F. Denis, D. Bogard, J.-F. Gournay, Y. Lussignol, P. Mattei CEA/DSM/IRFU, France
	The Linear IFMIF prototype accelerator (LIPac) will accelerate a 9 MeV, 125 mA, CW deuteron beam in order to validate the technology that will be used for the future IFMIF accelerator (International Fusion Materials Irradiation Facility). This facility will be installed in Rokkasho (Japan) and Irfu-Saclay has developed the control system for several work packages like the injector and a set of the diagnostic subsystem. At Irfu-Saclay, beam tests were carried out on the injector with its diagnostics. Diagnostic devices have been developed to characterize the high beam power (more than 1MW) along the accelerator: an Emittance Meter Unit (EMU), Ionization Profile Monitors (IPM), Secondary Electron Emission Grids (SEM-grids), Beam Loss Monitors (BLoM and μLoss), and Current Transformers (CT). This control system relies on COTS and an EPICS software platform. A specific isolated fast acquisition subsystem running at high sampling rate (about 1 MS/s), triggered by the Machine Protection System (MPS), is dedicated to the analysis of post-mortem data produced by the BLoMs and current transformer signals.
	Poster THPPC026 [0.581 MB]