Post on 15-Jan-2016
The Development and Application ofThe Development and Application of
Peter, Yan ZhaoPeter, Yan Zhaozhaoyan@cstnet.cn
CSTNet, CNICCSTNet, CNICJul. 20, 2006Jul. 20, 2006
Lambda Networking in CSTNetLambda Networking in CSTNet
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 KONGHONG KONG
BJ HQ
Lan Zhou
Xing Jiang
Xi’An
Shen YangChang Chun
Cheng Du
Kun Ming
Wu Han
Guang Zhou
Shang Hai
He Fei
Nan Jing
CSTNet MSPP Network SchemaDual-Home Interconnect
CAS HQ ARP
MSPP Cisco ONS15454
MSPP=Multiple Services Provisioning Platform
Shang Hai
CSTNet MSPP Network Schema (cont.)
Digital IP Congregation
ONS 15454
C3550IP Data Service
VC/PBXVideo Conf.PBX VOIP Interface
ARP InterfaceARP
VC Congregation
FE / E1
C3550
IP Data Service
VC/PBXVideo Conf.PBX VOIP Interface
ARP Interface
ARP
ONS 15305
ONS 15305
GSR
IP Data Service
VC/PBXVOIP
ARP CenterARP
ONS 15365
2.5G
1G
100M
100M
1G/100M100M
100M
1G/155M
1G/622/155M
N*E1Bei JingONS 15454
For Institutes abundant of dark fibers
For Instituteslack of dark fibers
CSTNet HQ
CAS HQ
100M
1G
E1
1G
100M
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
HEP CAS Astronomy CAS Meteology CAS
1000M 1000M 1000M
HK-Light/HK-IOEP
GLORIAD US KISTI KROC192/10GOC48/2.5G
CSTNET HQ BJO
C4
8/2
.5G
ASNET TW APAN JP1000M 1000M
HARNET1000M CUHK1000M
At Present: HKLight Hybrid Network
HEP CAS Astronomy CAS Meteology CAS
1000M 1000M 1000M
HK-Light/HK-IOEP
OC192/10GOC48/2.5G
CSTNET HQ BJO
C4
8/2
.5G
ASNET TW APAN JP1000M 1000M
HARNET1000M CUHK1000M
KISTI KRGLORIAD US
Upgrade 1: HKLight Hybrid Network
OME 6500OC192s
OC48
“a L2 switch like Force10”
GSR 12410
Several GEs – or a 10GE
ONS15454
GE Lightpath clients or OC48GE Lightpath clients or perhaps OC48
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
OC48
GE clients in Vlans for L2 traffic exchange for S&T purposes
Upgrade 2: HKLight Hybrid Network
OME 6500
“a L2 switch”
routerONS15454
HDXc
.
.
.
.
.
.
.
.
.
.
.
HDXc for large bandwidth connectivity- Up to 64 10G - More capacity inside the HKOEPONS and OME for termination- lightpaths terminating here- flexible slot filling
Maintain L2 flexibility- Directing clients to router or lightpath- Provide VLANs for specific projects
L3 connectivity- Routers as clients of lightpaths
router
Upgrade 3: HKLight Hybrid Network
HKOEP to STARLight 2.5G upgrading status
HKLight vs. StarLight
Asia North Amercia Europe
StarLight
JGN ⅡCA*net 4
CERN
NORDUnet
SURFnet
Abilene ESNET MREN NREN
10G
1G
2.5G
1G1G
1G
1G
10G3*10G
HKLight
KREON 2
ASNET
2.5G (GLORIAD)
2.5G1G
10G
1G
UKLight
HARNET
1G1G
2.5G
GEANT 25G
10G
GLORIAD & HK-IOEP (HKLight)
HKLight Kit• At present…
1 Port Packet Over SONET OC-48c/STM-16
4 Port ISE Gigabit Ethernet
1 Port ES Packet Over SONET OC-192c/STM-64
5-port Gigabit Ethernet Ethernet ×2
Cisco ONS 15454
Cisco GSR 12410
1 Port OC-192c/STM-64×2
4 Port ISE Packet Over SONET OC-3c/STM-1
4 Port Gigabit Ethernet ×2
1 Port OC-48c/STM-16×2
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
KREONet2 – Busan & Daejeon
GLORIAD-Seattle
ONS15454
OC192
OC192
10GPOS(HK)
OC192
OC192
OC192
Force10L2
GSR12406
ONS15600
10GE LAN
2*GE 10p
GE 10p
10GE LAN PHY/MultipleGEsTo KREONET
HKLight(HK)
GSR12410
2.5G to Beijing(CSTNET)
CSTNet – Hong Kong
10G POS (OC192)
PW-Seattle
N*OC192
OME6500or HDXc
OC192 Chicago(StarLight)
HKLight
OC48
MSPP
10GE LAN PHY/Multiple GEs
To PacificWave
KREONet2
2 x 1G (APII)
ChinaCSTNET(Beijing)
JapanJGN2, SINET, WIDE
2.5G 1G
10G
North America10G
2.5G
ChinaHKLight
(Hong Kong)
10G(s)
Korea KREONET2
CN-KR Links for Northeast Asia
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..
nort
hsourth
west east
-3.5δ
-3.0δMoon position Moon position
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
• MES Grid (Meteorological and Environment Science Grid)
• STGrid (Seismic Tomography Grid)
• CCGrid (Computational Chemistry Grid)
• …………
Grids
China VO
Based on layered GRID infrastructure,
China mainly addresses following three tasks:– Astronomical Data Interoperation – Spectrum Auto-process – VO-enabled LAMOST
Chandra
Hubble
MMT
Smm array
VLA
Antartica submm Magellan 6.5m
Whipple -ray
SIRTF
Oak Ridge
1.2m CO
VO = World Wide Telescope
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 ef
ficient 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