Laser Megajoule Facility (L.M.J.) Control system status report J. Nicoloso, J.-J. Dupas, CEA, DAM, DIF, F-91297 Arpajon, France J.-C. Picon, F. Signol, CEA, DAM, CESTA, F-33114 Le Barp, France Presented by Jean-Jacques Dupas, CEA, DAM, DIF, F-91297 Arpajon, France 1
Presentation overview Laser Megajoule (L.M.J.) facility Laser Integration Line (L.I.L.) prototype Control system architecture and industrial policy Common components software framework High level supervisory software Control system road map 2
LMJ facility overview LMJ is designed to deliver about 2 MJ of energy on tiny targets for high density plasma physics and fusion experiments Amplification Synchronization Alignment X ~200 1 nj Focalization 10 mm Frequency Conversion 7kJ 50 µm 15 ps 3
LMJ facility overview Up to 30 bundles of 8 beams located in 4 bays = 240 beams More than 1 MJ of 350 nm UV light on a target 4
LMJ building Mai 2003: beginning End 2006: target chamber put in place End 2008: building completed 5
First laser bay, 5 bundles completed Bundle Bundle Bundle Bundle Bundle 6
Second laser bay, assembly of bundles is ongoing 7
Third laser bay 8
Target bay 9
LIL facility = LMJ prototype LIL was commissioned in March 2002 Didier Fosse / G2i Vertigo 10
LMJ Control system functionalities Shot Director Maintenance System a function = a subsystem Power Conditioning Control Laser Parameters Settings Laser Diagnostics Acquisition Laser Alignment Vacuum Control Target Alignment Target Diagnostics Acquisition Personnel Safety CAPACITOR BANK PULSE GENERATION AMPLIFIER EXPERIMENT LMJ BUILDING Access Control Building monitoring TIMING Shot Data Processing 11
LMJ control system architecture Control Points 500 000 N3 Facility planning and operations Laser Config. Maintenance Network Administration Shot data Archiving and analysis Shot Data Alarms 100 000 N2 Supervisory control system Shot Director Processors 500 Shot data ~1 GB / shot 2 years on line N1 control N0 Equipment control supervisory Equipment control CC Equipement supervisory Equipment control CC Equipement Laser or Target Equipment Equipement Equipement Laser or Target Equipment 12
LMJ industrial policy N3 Facility planning and operations N2 Supervisory control system N1 control N0 CC Equipment Equipment High level Supervisory Power Cond. Maintenance Laser High Vac. PAM Timing Align. PEPC Laser Diag. Adapt. Optics Amplifiers Freq. conv. Laser low Vac. Shot data archiving and analysis Supervisory control system Target Chamb. Equip. Target Diag. Network Administration Bldg Util. Pers. Safety Control Room 13
General framework During the N2-N3 conception phase we have identified common functional components with N1 level GENERIC Common framework N2 Supervisory Control System N1 Control Shot director Central Supervisory Controls operator supervisory controls User interface Sequence Reservation management Operational modes management User interface Sequence Reservation management Operational modes management Process specific Event logging facility configuration management Maintenance management Shot data management Event logging facility configuration management SPECIFIC N0 Equipment Control CCN0 Equipement Equipments Equipement contractor 14
General framework data model Resources Resource Name Attributes Reservation state Methods Execute() Reserve() Release() Functions Methods Reserve() Release() Name Attributes Reservation sate Control Points 14 C 10 kv Name Attributes Value Methods Read() Subscribe() Stopped Standby Running Operational Modes State machine Alarms Nom Attributes On/Off Methods Subscribe() 15
General framework data model Functional trees Supervisory Control System Ch[i] Chain[i] System Resources Upper Quadruplet Lower Quadruplet Injection Amplifiers Transport Focalization Public Resources PAM1 PAM2 Amplifiers Transport Focalization Resources Resource System view Master oscillator view Alignment view Utilisation relationship Master Oscillator Source Master Oscillator CCE Beam 1 Sensors Capteurs Beam 2 Beam 3 Motors Moteurs Beam 4 Alignment CCE Alignment Private Resources 16
General framework common components Supervisory Control Contractors Developments Maintenance Facility Configuration Shot director PANORAMA Application Séquences Resources Shot database Event Logging Fully Standardized External Interface Protocol (PIE) Configuration PANORAMA Application Operator Resources Event Logging Process Specific Séquences Contractor Developments CCNO CCNO N0: CCNO Equipment Controls Equipments 17
General framework common components Supervisory Control Contractors Developments Maintenance Facility Configuration Shot director PANORAMA Application Séquences Resources Shot database Event Logging Fully Standardized External Interface Protocol (PIE) Configuration PANORAMA Application Operator Resources Event Logging Process specific Séquences Contractor Developments CCNO CCNO N0: CCNO Equipment Controls Equipments 18
Supervisory software technical choices SCADA: Panorama E 2 from CODRA Specific developments:.net Database: Oracle 10g, N-Hybernate Shot data storage: XML and HDF5 CMMS: D7i product from Datastream 19
Supervisory software status Today October 2007 Contracts Signature Summer 2008 Requirement Reviews Summer 2009 Design Reviews Supervisory Software Common Components Requirement Stage Design Stage Realization Stage 20
LMJ control system road map N3: facility management N2 supervisory Today Network administration Common components N2-N3 supervisory (end of 2011) PFI Step 3: Functional integration on LMJ: 1 st bundle, 2 nd bundle Laser shots Step 2: software integration on PFI Target shots Laser bay Control systems Target Bay Control systems control system control system control system control system control system 21
Any questions? 22