The Future of Big Data Transport - ADVA Optical Networking, Juniper Networks & University of Michigan SC13 Demo

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Check out these slides on our OpenFlow demonstration at SC13 with Juniper Networks and University of Michigan, which clearly defines the future of big data transport. the demo reveals how research and education organizations can efficiently scale their networks to effectively transport multiple petabytes of data - something that is critical to collaborative scientific research.

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The Future of Big Data Transport - ADVA Optical Networking, Juniper Networks & University of Michigan SC13 Demo

  1. 1. The Future of Big Data Transport – ADVA Optical Networking, Juniper Networks & University of Michigan SC13 Demo November 2013
  2. 2. Application-Aware OpenFlow Testbed 2 © 2013 ADVA Optical Networking. All rights reserved. Confidential.
  3. 3. Local Network Diagram 3 © 2013 ADVA Optical Networking. All rights reserved. Confidential.
  4. 4. Optical Connectivity Options • Vendor A 4 Packet-Optical deployment… “Alien wave” DWDM interface integrated in router Mixed ended system • Router with coherent optics at one end • Router DWDM interface in transponder • Router • Router Grey interface in router • T X P • • Router T X P Traditional deployment Router with noncoherent optics at the other Router T X P Router Vendor B or noncoherent © 2013 ADVA Optical Networking. All rights reserved. Confidential.
  5. 5. Optical Connectivity Deployed • Router T X P T X P • Grey interface in router • Router Traditional deployment DWDM interface in transponder • • Router Packet-Optical deployment… “Alien wave” DWDM interface integrated in router Router • Vendor A 5 T X P Router Vendor B or noncoherent © 2013 ADVA Optical Networking. All rights reserved. Confidential. • Router with coherent optics at one end • Router Mixed ended system Router with noncoherent optics at the other
  6. 6. Traditional Network Management • Vendor A Router Vendor B or noncoherent • Router with coherent optics at one end • T X P Router Mixed ended system Router with noncoherent optics at the other “Alien Wave” demarcation • Transport Network Manager manages optical transmission gear Layer 1 NM • Router DWDM optics treated as an “alien wave” with little or no visibility of performance parameters, alarms, current state etc. 6 © 2013 ADVA Optical Networking. All rights reserved. Confidential.
  7. 7. Packet-Optical Network Management • Vendor A • Transport NM able to manage Router DWDM optics • No longer an “alien wave”, becomes “virtual transponder” • Full visibility of layer 1 performance parameters, alarms, current state etc. • Vendor B or noncoherent Able to set optical transmission parameters such as wavelength, power etc. Router with coherent optics at one end Router with noncoherent optics at the other Transport Network Manager manages optical transmission gear • Router • • T X P Router Mixed ended system 7 Layer 1 NM © 2013 ADVA Optical Networking. All rights reserved. Confidential.
  8. 8. Thank You info@advaoptical.com

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