1 / 24

Rapid Application Development Environment based on LabVIEW

Learn about the Rapid Application Development Environment (RADE) based on LabVIEW, its characteristics, and its application in control systems, test facilities, and expert diagnostics. Discover the benefits of using LabVIEW, such as fast programming, drag and drop GUI development, wide range of analysis libraries, and integration with control infrastructure.

ffranz
Download Presentation

Rapid Application Development Environment based on LabVIEW

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Rapid Application Development Environmentbased on LabVIEW Adriaan Rijllart CERN EN-ICE CS Workshop, GSI, February 26-27, 2009

  2. Why? Adriaan Rijllart CERN EN-ICE

  3. Identified controls applications domains • Beam Control JAVA • SCADA PVSS • Test & Development LabVIEW, MatLab, scripts, etc. Rapid Application Development Environment (RADE) Adriaan Rijllart CERN EN-ICE

  4. Test & Development applications characteristics • Short development time applications (i.e. specific analysis) • Rapidly evolving applications (i.e. machine development) • Punctually used applications (i.e. expert diagnostics) • Stand-alone systems (i.e. test facilities) Adriaan Rijllart CERN EN-ICE

  5. LabVIEW programming language our contribution Requirements • Fast programming • Drag and drop GUI development • Rapid learning curve • Wide range of analysis libraries • Light/independent environment • Integration with the control infrastructure Adriaan Rijllart CERN EN-ICE

  6. Other reasons for choosing LabVIEW • We have a deep experience (more then 10 years) • CERN site license since many years • Commonly used in accelerators control in other labs: • LabVIEW is the second most used programming language used for accelerator control, as shown in ICALEPCS2007 presentations • A world wide LabVIEW Accelerator User Group has been set up by ORNL during ICALEPCS2007 • EPICS and Tango have made a LabVIEW interface to their environments, mainly for the same reasons (rapid application development) Adriaan Rijllart CERN EN-ICE

  7. …and for the accelerators at CERN? LabVIEW is widely used (with custom libraries made by equipment groups) Some examples … Adriaan Rijllart CERN EN-ICE

  8. Java GUI LV app Server app JAPC FESA 3rd party driver Equip. driver LabVIEW as equipment test tool Integration after test Equipment Adriaan Rijllart CERN EN-ICE

  9. Example in AB: Optical Interface Board Tester (CO) Adriaan Rijllart CERN EN-ICE

  10. LV app CMW CMW wrapper LabVIEW as specialist tool Java GUI Server app JAPC FESA Equip. driver Equipment Adriaan Rijllart CERN EN-ICE

  11. Example in AB: SPS Power Converter View (PO) Adriaan Rijllart CERN EN-ICE

  12. LV GUI LV2JAPC LabVIEW as GUI Java GUI Server app JAPC FESA Equip. driver Equipment Adriaan Rijllart CERN EN-ICE

  13. Example in AB: Bunch Shape Measurement (OP) Adriaan Rijllart CERN EN-ICE

  14. LV app SDDSlib LabVIEW as independent application Java GUI Server app JAPC SDDS FESA Equip. driver Equipment Adriaan Rijllart CERN EN-ICE

  15. Example in AB: Post Mortem Analysis (CO) Adriaan Rijllart CERN EN-ICE

  16. Proposed framework Adriaan Rijllart CERN EN-ICE

  17. Covered domains Test facilities Expert tools Machine development Adriaan Rijllart CERN EN-ICE

  18. Building blocks 2. Control Integration • Maintained interface libraries • CMW • RBAC • SDDS • DB • JAPC 1. Installation • Clear LabVIEW version policy • NFS installation for Linux • Windows TS installation 4. Development help • Defined GUI • Application templates • Configuration files • Training • Documentation 3. Support • Information Webpage • Mailing list • JIRA for issue tracking • User support Adriaan Rijllart CERN EN-ICE

  19. Building blocks 2. Control Integration • Maintained interface libraries • CMW • RBAC • SDDS • DB • JAPC 1. Installation • Clear LabVIEW version policy • NFS installation for Linux • Windows TS installation 4. Development help • Defined GUI • Application templates • Configuration files • Training • Documentation 3. Support • Information Webpage • Mailing list • JIRA for issue tracking • User support Adriaan Rijllart CERN EN-ICE

  20. The RADE framework Defined GUI Configuration files Application templates Documentation Training LabVIEW libs JAPC SDDS Support Data Bases Adriaan Rijllart CERN EN-ICE

  21. RADE internal architecture Adriaan Rijllart CERN EN-ICE

  22. RADE implementation example 1 C/C++ shared library Adriaan Rijllart CERN EN-ICE

  23. RADE implementation example 2 Java interface Adriaan Rijllart CERN EN-ICE

  24. ADE Questions? Adriaan Rijllart CERN EN-ICE

More Related