NSF-SCI: IRNC Translight/PacificWave

1. NSF-SCI: IRNCTranslight/PacificWave John Silvester Vice-Provost, University of Southern California Chair, CENIC NSF-IRNC-KICKOFF-TLPW, 2005.03.11

2. IRNC Translight/PacificWave (TL/PW) • Cooperative Agreement under NSF IRNC Program • PI John Silvester (USC) • Co-PI Ron Johnson (UW) • Other Key Partners • CENIC, Jim Dolgonas • PNWG, Jacqueline Brown • University of Hawaii, David Lassner • AARnet, George McLaughlin • Approx $1M per year for 5 years • Awarded March 1, 2005 • Primary Objectives • Facilitate international R&E connections on US Pacific Coast • Build out PacificWave exchange capabilities to provide Engineering, Technical, and Operational support for International R&E networks participating in Pacific Wave Exchange • Assist in the termination of AARnet SXTransport links to SEA and LAX • Assist in buildout of Hawaii connectivity to Telescopes • Assist in operation of IEEAF link Tokyo-Seattle • Assist in operation and support of other International R&E networks participating in PW • Develop and operate advanced capabilities to support optical interconnect and exchange needs of R&E network NSF-IRNC-KICKOFF-TLPW, 2005.03.11

3. What is Pacific Wave? Pacific Wave is a state-of-the-art international peering and lambda integrated facility designed to serve advanced research, education, development, and high-tech networks throughout the Pacific Rim and the world. Goal: enhance networking capabilities by increasing network efficiency, reducing latency, increasing throughput, reducing costs and provision point-to-point lambda services to meet the short and long-term needs associated with advanced application and network development and implementation. NSF-IRNC-KICKOFF-TLPW, 2005.03.11

4. Who Operates Pacific Wave? A joint project of CENIC and Pacific Northwest Gigapop In collaboration with University of Southern California and University of Washington NSF-IRNC-KICKOFF-TLPW, 2005.03.11

5. Pacific Wave • Extensible peering exchange and lambda integrated facility • Nodes (currently) in Seattle and Los Angeles Seattle, connected by a 10GbE wave provisioned over National LambdaRail (2,241 kilometers) • AUP free • Supports IPv4 and IPv6; multicast enabled • Based on Layer 2, Ethernet connections (for layer 3 peering) • Provides 24x7 NOC support. • Priced consistently from node to node • Allows participants to self-select their peering • Allows participants to connect to one-location and access participants at all Pacific Wave nodes • Supports advance applications • Welcomes any research or development network that can meet the minimum network configuration requirements (connect with a router; support BGP; support jumbo-frames) • Support GLIF connectivity as participant in Global International Optical Exchange development NSF-IRNC-KICKOFF-TLPW, 2005.03.11

6. PacificWave Global R&E Network Pathways DISCLAIMER - This network map was a best estimate of expected connectivity for 2005, several changes in connectivity and planned connectivity have happened since it was created NSF-IRNC-KICKOFF-TLPW, 2005.03.11

7. Pacific Wave International Partners: January 2005 NSF-IRNC-KICKOFF-TLPW, 2005.03.11

8. CA*Net4 POP PW-Seattle TλEX Tokyo PW-LA Oahu IEEAF Link CLARA, CUDI POPs (Tijuana) Hawaii AARnet-SX Transport AARnet POP Sydney IRNC TL/PW 2005 Pacific Connections NSF-IRNC-KICKOFF-TLPW, 2005.03.11

9. TL-PW – West Coast Detail NLR link PW-Seattle SEA Hillsboro(OR) Portland (OR) (NLR) AARNet-SX(N) To Kahe Point (HI) Pacific Wave N-S link SNV (CalREN-XD) Los Osos (CA) SLO (CA) AARNet-SX(S) To Spencer Beach (HI) Santa Barbara (CA) Optics to carry new lambda over CalREN-XD from SLO to LA LAX PW-Los Angeles NSF-IRNC-KICKOFF-TLPW, 2005.03.11

10. TL/PW – Hawaii Detail SCCN OC-192 Kahe Point (Oahu) AARNet-SX(N) To Portland Hawaii Gigapop (Oahu) AARNet-SX(S) To Sydney Spencer Beach (Big Island) AARNet-SX(S) To Los Osos SCCN OC-192 AARNet-SX(S) To Sydney Waimea Hilo Mauna Kea MKOCN (Summit) NSF-IRNC-KICKOFF-TLPW, 2005.03.11

11. JCMT UKIRT IRTF CFHT Keck VLBA CSO Gemini UH-2.2 UH-0.6 SMA Subaru 56kb Verizon Summit UH-Managed Shared Network for All Observatories Hilo Base Facilities VLBA JAC Waimea Base Facilities DS3 Keck Verizon Humuula CSO Verizon Hilo CFHT Verizon Waimea Gemini UH Hilo Campus Leased Private Links SMA Carrier Infrastructurefor leased shared & private links UH IfA Hilo Leased DS3 (shared) UH managed fiber links Subaru Proposed New GbE Mauna Kea Observatories Communication Network NSF-IRNC-KICKOFF-TLPW, 2005.03.11

12. PacificWave Seattle planned planned 1 Gigabit 10 Gigabit 10GE NLR Lambda to STARLIGHT AARNet Abilene ATTBI/Comcast TANET2/TWAREN CA*NET4 SingAREN DREN PNWGP Seattle Westin Foundry BigIron ESnet Microsoft GEMnet KREONet2 IEEAF (to TLEX) 10GE NLR Lambda to LAX (via Sunnyvale) NSF-IRNC-KICKOFF-TLPW, 2005.03.11

13. planned planned 1 Gigabit 10 Gigabit Pacific Wave - Los Angeles 10 GE NLR Lambda To Seattle PWave (via Sunnyvale) 10GE Qatar Foundation Abilene 10GE 10GE 600 W 7th 6509 1 Wilshire 6509 818 W 7th 6509 Los Nettos TWAREN (3) NII/SINET AARNet CENIC (HPR) TRANSPAC NSF-IRNC-KICKOFF-TLPW, 2005.03.11

14. Detailed Plan for Year 1 • Develop detailed subcontract statements of work with CENIC and PNWG for engineering and technical support for the project. • Develop a memorandum of understanding with AARnet for use, support and operation of the links. • Develop agreement with the University of Hawaii for acquisition, location and use of the equipment to be located in Hawaii. • Procure and put into service equipment to enable the Australia-Hawaii-Seattle link. Estimated operation within 3 months of award. • Procure and put into service equipment to enable the Australia-Hawaii-Los Osos (California) link. Estimated operation within 3 months of award. • Procure and put into service equipment and waves from Los Osos to the PacificWave exchange point in Los Angeles. Estimated operation within 3 months of award. • Work with AARnet and University of Hawaii to enable desired peerings in Seattle including peering with Abilene. • Work with AARnet and the University of Hawaii to enable desired peerings in Los Angeles, including peering with Abilene. Reengineer these peerings as needed. • Provide NOC service and interaction with other NOC entities (including AARnet NOC and Abilene NOC). • Pursue cooperation with TRANSPAC for LA PacificWave PoP • Explore collaboration with Gloriad and work to help them secure appropriate links and Pacific Wave landing and interconnection. • Both AARnet and PacificWave have extensive measurement capabilities in place. We will work with the NSF-designated measurement project to provide these measurement as part of the overall TOPS measurement effort. • Attend and contribute to TOPS meetings; attend Internet2 and APAN meetings (international). NSF-IRNC-KICKOFF-TLPW, 2005.03.11

15. Near term Schedule and Challenges • Los Osos landing • Challenges in getting space to implement Los Osos – SLO link • Testing to see if SX-Transport can go direct to SLO • Investigating alternate strategies • Equipping and configuring Northern Link (migration from Procket to Juniper requires extensive engineering and design). Juniper routers leverage form other activities not funded from grant. • Technical and Engineering Design for Southern Link – in a dynamic technical requirements environment. Meeting with AARnet to develop objective for Southern Link scheduled for 2005.03.20 • Local connectivity in Hawaii. Need to get better definition of strategy, depends on availability of funds. Very limited resources available from this grant. • Leveraging limited funds to acquire needed equipment and technical (engineering) support NSF-IRNC-KICKOFF-TLPW, 2005.03.11