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Computer Science and Instrumentation Research Opportunities at CLS

Computer Science and Instrumentation Research Opportunities at CLS. Johannes M. Vogt Canadian Light Source University of Saskatchewan 2001-10-20. CLS Control System. More than 100 computers Mix of technologies (including industrial control hardware and scientific data acquisition hardware)

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Computer Science and Instrumentation Research Opportunities at CLS

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  1. Computer Science and Instrumentation Research Opportunities at CLS Johannes M. Vogt Canadian Light Source University of Saskatchewan 2001-10-20

  2. CLS Control System • More than 100 computers • Mix of technologies (including industrial control hardware and scientific data acquisition hardware) • Software based on a system called EPICS that was originally developed for Star Wars. Today EPICS is used to control accelerator facilities and radio telescopes.

  3. CLS Control System (cont.) • The computer hardware is interconnected over a mix of Ethernet and Profibus. • The control system measures and controls several thousand signals, e.g., • Position of the beam in the storage ring to within 1 m • Magnet set points and feedback values • Temperature sensors, valves, flow switches ... • All of this data is acquired and logged in real-time. Grad student opportunities exist in data networking, data-base system design, data acquisition software, software for data analysis and display.

  4. Transition Radiation Monitors • Non-destructive method of obtaining beam profile information • A thin aluminized Mylar foil is moved into the beam • Transition radiation is produced as the beam passes through the foil • We are working on capturing a video image of the beam, determining the position and shape of the beam and then readjusting steering elements in the accelerator. Grad student opportunities exist in image processing, feedback algorithms, statistical analysis of video images and pattern recognition.

  5. Transition Radiation Monitors (cont.)

  6. Transition Radiation Monitors (cont.)

  7. Orbit Correction System • The beam orbit in the storage ring must be maintained within 1m and the orbit corrected at approx. 100 Hz. • The position of the beam is monitored to within 1m at 56 monitor stations within the storage ring. • Orbit corrector magnets are used to correct the beam position. Grad student research opportunities exist in control theory and implementation of the control algorithm.

  8. Vibration Monitor Position of the experiment stable to 1m? • Internal Vibration Sources • Pumps, compressors, fans ... • Ramping of the booster • Crane, forklift, people walking ... • External Vibration Sources • Trucks, trains, planes • Wind on building walls • Ocean surf ? Separate concrete slabs for building, booster, storage ring/ beamlines. How well do the isolation joints in the floor isolate the slabs?

  9. Vibration Monitor (cont.) • A portable vibration monitoring system was developed to measure building vibration and displacement. • Custom software to acquire the data and analyse the data is under development. • Building vibration studies were done in collaboration with the College of Engineering. Grad student opportunities exist in building vibration research.

  10. Vibration Monitor (cont.) PXI-6052E SCXI-1531 PXI-1010 Mainframe Computer SCXI-1349 Accelerometer PXI-PCI 8335 MXI-3 with fiber cable, up to 200 m long PXI-6052E SCXI-1531 PXI-1010 Mainframe SCXI-1349 Accelerometer

  11. Vibration Monitor (cont.) 2 2 Acceleration [μm/s ] Acceleration Spectrum [μm/s ] 8 10 0 -8 0 0 0 2 4 6 Time [s] 100 200 300 Displacement [μm] Frequency [Hz] 2 0 -2 0 2 4 6 Time [s]

  12. Electronics Policy: • Buy if possible, develop only specialized circuits that are not available off-the-shelf • Design, develop, prototype, build small quantities, then contract out or transfer technology CLS has developed: • High speed digital electronics (500 MHz, ECL) • A fibre-optic system for the distribution of trigger pulses (3-jitter less than 50 ps) • A high voltage circuit that switches 1.8 kV in about 250 ps, triggered by a fibre-optic signal

  13. Electronics (cont.) Need a fast Beam Position Monitor for turn-by-turn readout. Two systems are available commercially: • One of them does not work (for us) • One of them may satisfy requirements, but is prohibitively expensive Grad student R&D opportunity exists for the development of fast Beam Position Monitor electronics.

  14. Summary Possible Research Areas: • Control System– Control theory, implementation of control/ feedback algorithms • Data Processing– Data networking, data-base system design, data acquisition software, software for data analysis and display, image processing, pattern recognition. • Building Vibration Studies– Measure, analyze • Electronics– Fast Beam Position Monitor for turn-by-turn readout

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