Shoichiro Asano Professor, National Institute of Informatics, Tokyo Mallik Tatipamula

1. Deployment of 10Gb/s IP/Optical backbone in SuperSINET for Research, Education and Next Generation GRID Applications Shoichiro Asano Professor, National Institute of Informatics, Tokyo Mallik Tatipamula Routing Technologies Group, Cisco Systems, San Jose NORDUnet Networking Conference

2. SuperSINET Promotion of Science and Technology Give Priority to Basic Research and Information Technology e-Japan Priority Program NORDUnet Networking Conference

3. SINET and SuperSINET • SINET: National Backbone for universities and research institutes • SuperSINET: for Research Project on advanced science and technologies • SuperSINET • 10Gbps Backbone • GbE Bridges for peer-connection • Operation of Photonic Cross Connect (PXC) for fiber / wavelength switching • 6,000+km dark fiber, 100+ e-e lambda and 300+Gb/s e-e bandwidth • Operational from January, 2002 until end of March, 2005 NORDUnet Networking Conference

4. SuperSINET Applications OC-48+ transmission for Radio Telescope DataGRID for High-energy Science Hokkaido U. Nano-Technology For GRID Application Tohoku U. Bio-Informatics NIFS Waseda U. Kyoto U. NAO KEK Osaka U. Tsukuba U. Operation (NII) Middleware for Computational GRID Doshidha U. U. of Tokyo Tokyo Institute of Tech. Nagoya U. Okazaki Research Institutes NII R&D ISAS Kyushu U. NIG NORDUnet Networking Conference

5. SuperSINET Physical Topology WDM WDM WDM WDM WDM WDM OsakaPXC TokyoPXC WDM WDM WDM WDM WDM WDM WDM WDM WDM WDM WDM WDM WDM WDM NagoyaPXC WDM WDM WDM WDM PXC: Photonicl Cross-connect WDM WDM WDM WDM NORDUnet Networking Conference

6. P P P P PE PE PE PE PE PE PE PE PE PE PE PE PE PE PE PE PE PE PE PE PE PE SuperSINET Backbone Logical Topology Cisco12400 Customer Router Hokkaido Univ. Tohoku Univ. KEK Kyushu Univ. Osaka Univ. Tsukuba Univ. Kyoto Univ. (Uji) Institute of Material Reserch (Tokyo Univ.) Osaka Exchange Kyoto Univ. (Yoshida) Tokyo Exchange Waseda Univ. Doshisha Univ. Nagoya Exchange Tokyo Institute of Technology NIFS NII Chiba Nagoya Univ. Okazaki National Research Institutes NII Hitotsubashi Backbone OC192 Institute of Medical Science (Tokyo Univ.) NIG Tokyo Univ. ISAS NAO Customer Access OC48,GbE

7. SINET and SuperSINET Okinawa Niigata Sapporo Kitami Kagoshima Tottori Kanazawa Nagano Sendai Hirosaki Kumamoto Matsuyama Kyoto Tsukuba NII Chiba Chiba SuperSINET NII Hitotsubashi Kitakyushu Koganei Yamaguchi Chofu Meguro Fukuoka Hiroshima Kobe Osaka Nagoya Tokyo Yokohama ISAS Maebashi Okayama Tokushima Okazaki Nagasaki Yamanashi Saitama N.B. All of the SINET and Super SINET nodes are not shown here.

8. Key Aspects in SuperSINET • Economical Solution for High-performance Dark Fiber (6,000Km+) with 300G+ bandwidth including Transport Equipments (DWDM, CWDM, 3R Repeaters, Amps) and PXCs for 3 years contract will realize 90% cost reduction compared to equal bandwidth of SDHs • Flexibility for bandwidth provisioning on mixed use of OC-192 backbone operation, GbE / 10GbE / OC-48 peer-peerconnection and GbE based local accsess • Network management based on GMPLS will be enhanced solution for L3 integrated management • MPLS VPNs • IPv6 services offering • More benefit could be obtained by large scale operation NORDUnet Networking Conference

9. MP-iBGP sessions v6 v6 v4 v6 v6 v4 v4 IPv6 over MPLS Backbone network 2001:0420:: 2001:0620:: OXC OXC Router Router 145.95.0.0 2001:0421:: P P 6PE 6PE Dual Stack IPv4-IPv6 routers Dual Stack IPv4-IPv6 routers OXC OXC 2001:0621:: CE 6PE 6PE IPv4 MPLS 192.76.10.0 192.254.10.0 CE CE NORDUnet Networking Conference

10. Network Evolution towards Multi-service Backbone Cable, FTTH Cable, FTTH IP / (G)MPLS Multi-service Backbone FR, ATM Frame Relay, ATM Internet 3G Wireless Local access, xDSL Multi-service Packet Backbone network with a Integrated Control Plane based on (G)MPLS

11. Evolution towards Intelligent Multi-service Backbone IP/MPLS Network IP/MPLS Network GMPLS Backbone - Optical Core Optical Core Management PXC/ DWDM Signaling Traffic Router GMPLS control plane

12. Integrated Control Plane Isolate from Transport Function to maintain security Integrated Control Plane （GMPLS for Singaling） User User Service Layer IP-VPN, MPLS, Multicast-VPN, Differentiation Lambda Path, Lambda L2-Bridge, Lambda Switching LSP Layer Label Switch Router Photonic Cross Connect (PXC) Label Switch Router PXC PXC SONET/SDH、WDM、PXC WDM WDM Dynamically Reconfigured Transport Integrated Transport Layer

13. Example of GMPLS Control applied to GRID on SuperSINET • On-demand lambda control • Quality and Policy Control upon demand IP Backbone (Quality Control, Policy Control) International Tokyo PXC Osaka PXC Nagoya PXC High-performance Computer Lambda Path for Data Transport Super Computers Users Network Storage

14. Example of GMPLS Control applied to DataGRID on SuperSINET • Realization of DataGRID • Data Sharing with low Latency IP Backbone (Quality Control, Policy Control) Users Tokyo PXC Osaka PXC Nagoya PXC Equipments on Liner Accelerator Telescope for VLBI Super Computers Fusion Research Equipment Network Storage

15. Interoperability Test for GMPLS Control Plane Cisco, Calient, NEC, Mitsubishi, OKI, Agilent Japan Telecom, NII PXC PXC WDM WDM WDM WDM WDM WDM PXC • Performance Evaluation of Component Element • Performance Evaluation of New Elements • Functional Test of Control Plane NORDUnet Networking Conference

16. Towards Post-SuperSINET • Efficient Use of lambda • Dynamic lambda control • Multi-Layer control • International operation • Promote GRID/DataGRID (including NAREGI at NII) • LHC, radio telescope, environment, gene-finding, material and device, ….., International cooperation of e-Science • Secure operation • … • From 2006 NORDUnet Networking Conference