Transcript APAN-22nd
The Development and Application of Lambda Networking in CSTNet Peter, Yan Zhao [email protected] CSTNet, CNIC Jul. 20, 2006 Contents • Lambda Network Development of CSTNet – CSTNet Domestic Lambda Network – GLORIAD & HK-IOEP – CSTNet CNGI • Lambda Network Application of CSTNet – – – – YBJ-ARSO GRIDS Panda CAM Remote Sensing & Avian Flu Contents • Lambda Network Development of CSTNet – CSTNet Domestic Lambda Network – GLORIAD & HK-IOEP – CSTNet CNGI • Lambda Network Application of CSTNet – – – – YBJ-ARSO GRIDS Panda CAM Remote Sensing & Avian Flu Core Infrastructure CSTNet SDH Topology HONG KONG CSTNet MSPP Network Schema Dual-Home Interconnect Chang Chun Shen Yang CAS HQ ARP Xi’An Nan Jing Xing Jiang BJ HQ He Fei Shang Hai Lan Zhou Cheng Du Kun Ming MSPP Cisco ONS15454 MSPP=Multiple Services Provisioning Platform Wu Han Guang Zhou CSTNet MSPP Network Schema (cont.) ARP ARP Center IP Data Service C3550 CAS HQ 1G Digital IP Congregation Bei Jing ONS 15454 ONS 15365 1G/622/155M 1G Video Conf. VC/PBX 100M PBX VOIP Interface N*E1 Shang Hai ONS 15454 VC Congregation ARP ARP Interface 100M 2.5G 100M FE / E1 CSTNet HQ 1G E1 100M For Institutes abundant of dark fibers 1G/155M C3550 IP Data Service GSR ONS 15305 ONS 15305 100M ARP 100M Interface Video Conf. VC/PBX ARP PBX VOIP Interface For Institutes lack of dark fibers IP Data Service 1G/100M VC/PBX VOIP Contents • Lambda Network Development of CSTNet – CSTNet Domestic Lambda Network – GLORIAD & HK-IOEP – CSTNet CNGI • Lambda Network Application of CSTNet – – – – YBJ-ARSO GRIDS Panda CAM Remote Sensing & Avian Flu At Present: HKLight Hybrid Network GLORIAD US KISTI KR ASNET TW APAN JP HARNET CUHK OC48/2.5G HK-Light/HK-IOEP CSTNET HQ BJ 1000M HEP CAS 1000M Astronomy CAS 1000M Meteology CAS Upgrade 1: HKLight Hybrid Network KISTI KR ASNET TW APAN JP HARNET CUHK HK-Light/HK-IOEP OC48/2.5G GLORIAD US CSTNET HQ BJ 1000M HEP CAS 1000M Astronomy CAS 1000M Meteology CAS Upgrade 2: HKLight Hybrid Network GE Lightpath clients or perhaps OC48 OC48 OC48 GE Lightpath clients or OC48 OC192s OME 6500 ONS15454 Several GEs – or a 10GE GSR 12410 “a L2 switch like Force10” GE clients in Vlans for L2 traffic exchange for S&T purposes OME and ONS for lighpath connectivity -More capacity inside the HKOEP -Other GOLEs connecting at 10G -Local lightpaths terminating here Maintain L2 flexibility - Directing clients to router or lightpath - Provide VLANs for specific projects L3 connectivity - Router as a client of lightpaths Upgrade 3: HKLight Hybrid Network ONS15454 router . OME 6500 . . . . HDXc . . . router . . . HDXc for large bandwidth connectivity - Up to 64 10G - More capacity inside the HKOEP ONS and OME for termination - lightpaths terminating here - flexible slot filling “a L2 switch” Maintain L2 flexibility - Directing clients to router or lightpath - Provide VLANs for specific projects L3 connectivity - Routers as clients of lightpaths HKOEP to STARLight 2.5G upgrading status HKLight vs. StarLight North Amercia Asia CA*net 4 JGN Ⅱ SURFnet 3*10G KREON 2 HKLight Europe 2.5G (GLORIAD) CERN StarLight 5G ASNET GEANT 2 UKLight HARNET NORDUnet Abilene ESNET MREN NREN GLORIAD & HK-IOEP (HKLight) HKLight Kit • At present… 1 Port ES Packet Over SONET OC-192c/STM-64 1 Port Packet Over SONET OC-48c/STM-16 4 Port ISE Packet Over SONET OC-3c/STM-1 5-port Gigabit Ethernet Ethernet ×2 4 Port ISE Gigabit Ethernet Cisco GSR 12410 1 Port OC-192c/STM-64×2 4 Port Gigabit Ethernet ×2 1 Port OC-48c/STM-16×2 Cisco ONS 15454 HKLight Cross-Connections • At Present… – – – – OC-48c/STM-16 To CSTNET HQ, BJ OC-48c/STM-16 To GLORIAD, Chicago USA OC-192/STM-48 To: KISTI, Daejeon KR Gigabit Ethernet (directly) • To ASNET Taiwan, China • To NICT JP • To HARNET • To CUHK 10G Connectivity for CN-KR CSTNet – Hong Kong KREONet2 – Busan & Daejeon GLORIAD-Seattle OC48 N*OC192 OC192 MSPP OC192 ONS15454 OC192 OME6500 or HDXc OC192 ONS15600 10G POS (OC192) GSR12410 HKLight (HK) OC192 10G POS(HK) OC192 2*GE 10p 10GE LAN PHY/ Multiple GEs To PacificWave 10GE LAN GSR12406 2.5G to Beijing (CSTNET) HKLight Force10 L2 GE 10p 10GE LAN PHY/MultipleGEs To KREONET KREONet2 PW-Seattle Chicago (StarLight) CN-KR Links for Northeast Asia North America 10G Korea KREONET2 2 x 1G (APII) 10G(s) 10G China Japan CSTNET (Beijing) JGN2, SINET, WIDE 1G 2.5G 2.5G China HKLight (Hong Kong) Contents • Lambda Network Development of CSTNet – CSTNet Domestic Lambda Network – GLORIAD & HK-IOEP – CSTNet CNGI • Lambda Network Application of CSTNet – – – – YBJ-ARSO GRIDS Panda CAM Remote Sensing & Avian Flu CSTNET & CNGI • CNGI – native IPv6 – 2.5G/10G • CSTNET – Together with China Netcom – establishes 7 GigaPoPs. Contents • Lambda Network Development of CSTNet – CSTNet Domestic Lambda Network – GLORIAD & HK-IOEP – CSTNet CNGI • Lambda Network Application of CSTNet – – – – YBJ-ARSO GRIDS Panda CAM Remote Sensing Collaboration and Cooperation of High Speed Network YBJ-ARGO/AS • The ARGO -YBJ Project is a Sino-Italian Cooperation started its detector installation in 2000. It aims at the research of the origin of high energy cosmic rays. It explores the approximately 100 GeV uncultivated land and measuring the antiproton/proton ratio by cosmic ray moon shadow. YBJ-ARGO • The YBJ-ARGO project will be full operational in 2007 and will generate more than 200TB of raw data each year. The raw data will be transferred from Tibet to Beijing Institute of High Energy Physics and processed in to reconstructed data. The physicists will work on the reconstructed data for physics researches.. Moon position north -3.5δ sourth west east Moon position -3.0δ Contents • Lambda Network Development of CSTNet – CSTNet Domestic Lambda Network – GLORIAD & HK-IOEP – CSTNet CNGI • Lambda Network Application of CSTNet – – – – YBJ-ARSO GRIDS Panda CAM Remote Sensing & Avian Flu Grids • MES Grid (Meteorological and Environment Science Grid) • STGrid (Seismic Tomography Grid) • CCGrid (Computational Chemistry Grid) • ………… China VO Based on layered GRID infrastructure, China mainly addresses following three tasks: – Astronomical Data Interoperation – Spectrum Auto-process – VO-enabled LAMOST VO=World Wide Telescope Chandr Whipple -raya Oak Ridge 1.2m C O MMT SIRTF Hubble VLA Smm array Antartica submm Magellan 6.5m Contents • Lambda Network Development of CSTNet – CSTNet Domestic Lambda Network – GLORIAD & HK-IOEP – CSTNet CNGI • Lambda Network Application of CSTNet – – – – YBJ-ARSO GRIDS Panda CAM Remote Sensing & Avian Flu Panda Cam Panda Cam Panda Museum – Remote observation Contents • Lambda Network Development of CSTNet – CSTNet Domestic Lambda Network – GLORIAD & HK-IOEP – CSTNet CNGI • Lambda Network Application of CSTNet – – – – YBJ-ARSO GRIDS Panda CAM Remote Sensing & Avian Flu Remote Sensing to Analyze the State of Underlay Along the Pass of Sand Storm Weather Early-warning and Predicting System for Avian flu • Four Institutes(Institute of Microbiology, Institiute of Wuhang virus, Institute of Zoo,and CNIC) collaborate to build this project. • E-Science pilot application Summary • CSTNET will continue to provide good environment highly efficient to S&T activities joint with other partners and users throughout the world. – Dedicate to GLORIAD-China tasks – Address to global demands of e-Science applications – Grow up to GLIF optical exchange point in China • CSTNet looks forward to initializing more collaborations with other international counterparts for the purpose of S&T development. Q&A