1 / 24

UAS Regional Optical Network

UAS Regional Optical Network. June 15, 2006. ESNet Backbone. Large-scale Computing Systems. 10’s of teraflops of computing 10’s of terabytes of memory 100’s of petabytes of storage 1,000’s of ft 2 of floor space Megawatts of power. Opportunities for Collaboration.

varick
Download Presentation

UAS Regional Optical Network

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. UAS Regional Optical Network June 15, 2006

  2. ESNet Backbone Large-scale Computing Systems • 10’s of teraflops of computing • 10’s of terabytes of memory • 100’s of petabytes of storage • 1,000’s of ft2 of floor space • Megawatts of power Opportunities for Collaboration Ultrahigh-speed Networks • 100’s Gigabytes/second • End-to-end performance guarantees • Quality-of-service • Advanced network monitoring and reporting

  3. Internet Member Universities September 1997

  4. Why RON When We Have I2? • Greater bandwidth • Dedicated bandwidth • Collaboration & competitive edge • Freedom from acceptable use policies • Catalyst for economic development • Need both a production & experimental network • Achieve Cost Savings with multiple networks using same infrastructure

  5. National LambdaRail Infrastructure

  6. National LambdaRail (NLR) • Consortium of research universities and leading edge technology companies • Deploying national infrastructure for • advanced network research • next-generation, computationally intensive network-based applications • Supporting multiple, independent high speed links to research universities and centers

  7. NLR Members • CENIC: Stanford, UC, CSU, CIT, USC • PNWGP: Pacific Rim, Alaska, Idaho, Montana, Oregon, Washington, British Columbia • Duke University & NC universities • MATP: Virginia Tech, UVA, Old Dominion, VCU, George Mason, William & Mary • Cornell University

  8. NLR Members • FLR: Florida Atlantic, Florida International, Florida Institute Technology, FSU, University of Florida, University of Miami, etc. • Georgia Tech & SLR: GT, GSU, UGA, & Medical College of Georgia • Louisiana Board of Regents • Oklahoma State Board of Regents

  9. NLR Members • Lonestar Education and Research Network – UT system, Texas A&M system, Texas Tech system, Baylor • University of New Mexico • UCAR – Colorado, Wyoming, & Utah • Oak Ridge National Laboratory

  10. NLR/RON Network Model • Supports multiple, distinct experimental and production networks • Supports Point-to-point switched Ethernet as well as routed IP networks • We purchase long term leases of dark fiber • We light the dark fiber • We own and manage the infrastructure • RONs connect to NLR backbone • RONs connect to Internet - commodity & I2

  11. NLR and the RONs

  12. UAS Motivation • Attract and retain the best and brightest • Leverage our individual strengths to reach out to collaborate • Provide infrastructure to widen research opportunities • Control our wide area networking destiny • Take advantage of current market opportunities • Solve real world problems

  13. Progress to Date • Feb 2005 – campus Presidents approve pursuing dark fiber acquisitions • Mar 2005 – IT committee briefed • Summer 2005 – bids for dark fiber routes • Awarded Nashville to Atlanta (Level3) & Tuscaloosa to Birmingham (Deltacom) • Negotiate with NASA/NLR/SLR to connect MSFC in Huntsville

  14. SLR Agreement • SLR uses UAS fiber in exchange for optronics to light the fiber to connect MSFC to NLR • UAS campuses would only have to pay incremental costs to connect each campus

  15. Next Steps • Establish local fiber loops in Huntsville & Birmingham • Finalize SLR agreement • Purchase optronics • Negotiate partnerships with AREN and Tennessee for additional services

  16. Estimated Costs for UAS RON

  17. Costs & Funding by University

  18. UA Timeline

  19. UAB Timeline

  20. UAH Timeline

  21. Collaboration Success Story • 2004 – Estimated cost was $ 15M • 2006 – Estimated cost is $ 1.5M

  22. Questions?

  23. Request Approval • Resolution approving establishment of a Regional Optical Network for the Three Campuses of The University of Alabama System found on page 2 in your committee packet.

More Related