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REDNET Overview

the best people make cosylab. REDNET Overview. Rok Stefanic ( rok.stefanic@cosylab.com ). Outline. What does REDNET provide to the users How it looks like How it works (MTG & MTR) Responses - controlling the devices What we have done in CWO2 Refine the requirements

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REDNET Overview

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  1. the best people make cosylab REDNET Overview Rok Stefanic (rok.stefanic@cosylab.com)

  2. Outline • What does REDNET provide to the users • How it looks like • How it works (MTG & MTR) • Responses - controlling the devices • What we have done in CWO2 • Refine the requirements • Architecture and design • Mock-up demo of the system • What follows in future CWOs • Detailed FPGA and LV architecture • Implementation of the system Cosylab 2010

  3. What does REDNET provide to the usersHow it looks like • prepare data • process data in hard real-time • make sure everybody gets it @ the same time (200m = ~1ms) • decode events and poke equipment SCS MTG Transport receivers w. equipment Cosylab 2010

  4. What does REDNET provide to the usersHow it works VAA Activates a Run (+ run file) MTG Generates timing events from the requested cycle MTG redistributes the Run file with a list of cycles VAA requests the generation of a cycle from the run list Receiver components generate responses (digital signals, irq, triggers…) Cosylab 2010

  5. What does REDNET provide to the usersMTG • PXI crate • Controller • LV RT • MRF EVG Cosylab 2010 5 Execution slot tables (priorities) 1ms granularity of event emission Emission of asynchronous timing events 10 Hz heartbeat timing event (time grid) GPS time and clock distribution

  6. What does REDNET provide to the usersMTR – controlling the devices • PXI crate • Controller • LV RT • MRF EVR • Other PXI modules 6 Cosylab 2010 Digital/optical signals on the MRF EVR outputs Re-distribution of timing events to PXI cards Trigger neighbor PXI cards LabView application notification Cosylab 2010

  7. What does REDNET provide to the usersMTR - controlling the devices 7 Cosylab 2010 No configuration files are needed. Device specific application requests the MTR which responses it needs (+ parameters such as timing event, pulse delay, width…) Multiple interfaces can be used concurrently Global propagation delay compensation parameter (<10ns steps) Cosylab 2010

  8. What does REDNET provide to the usersResponses – Auxiliary interface outputs 8 Cosylab 2010 Pulses or output toggle Configurable pulse delay and width (< 10 ns steps) Each digital/optic output can have different configuration (ES, event, delay, width, type) Cosylab 2010

  9. What does REDNET provide to the usersResponses – Redistribution of events to PXI cards 9 Cosylab 2010 Each received timing event can be distributed to other PXI modules EVR distributes timing event value and execution slot to which the event belongs Cosylab 2010

  10. What does REDNET provide to the usersResponses – Triggering PXI cards 10 Cosylab 2010 Trigger pulses generated on PXI star trigger lines Useful for simple devices (ADC cards etc.) which only need trigger signals Cosylab 2010

  11. What does REDNET provide to the usersResponses - LabView application notification 11 Cosylab 2010 EVR issues an IRQ when a specific timing event is received MTR distributes the received event to all subscribed device specific applications as a FECOS event Cosylab 2010

  12. What we have done in CWO2 • Documentation • Refined the requirements in detail • Finished top level architecture and design • All documents are ported to Enterprise Architect models • All requirements covered by the top-level architecture • Traceability • Fully mastered the MRF EVG and EVR cards • FPGA + 2.5 Gbps • LabView support for MRF • Made mock-up demo of the system • Emission of timing events, commands, asyn. events, acknowledgments, uses FECOS… • Defined tasks for future CWOs Cosylab 2010

  13. What have we done in CWO2REDNET Mock-up demo Cosylab 2010

  14. What have we done in CWO2REDNET Mock-up demo • Listing of available sequence files on HDD • Sequence file editing • Emission and reception: • Timing events • Commands • Asynchronous timing events • (Emitted at any time) • Acknowledgments • Each MTR sends ACK • MTG lists all received ACKs Cosylab 2010

  15. What have we done in CWO2REDNET Mock-up demo contd. • Response generation: • I/O signals on MRF EVR • Distribution of received events over PXI RT trigger bus (to PCC) • SW notifications • User can configure which responses are generated for received events Cosylab 2010

  16. What follows in future CWOs • Internal architecture design for the MTG and MTR: • LabView application • FPGA (MRF EVG & EVR) • Implementation of the system • Full size accelerator cycles • Execution slot support • Full auxiliary interface outputs support • Synchronization with GPS • Heartbeat event generation • MTR & MTG configuration (xml files) • … Cosylab 2010

  17. Thank you for your attention Questions? Cosylab 2010

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