development of taiwan academic broadband network dr. simon c. lin computing centre academia sinica...
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Development ofTaiwan Academic Broadband
NetworkDr. Simon C. Lin
Computing CentreAcademia SinicaTaipei, Taiwan24 Jan., 2002
Simon C. Lin [email protected] 2
Content
• Taiwan Academic Network Introduction
• Future Internet Development
• Taipei GigaPoP Deployment
• Taiwan Academic Network 2002
• APAN Taiwan
• Future Plan
• Conclusion
Simon C. Lin [email protected] 3
Taiwan Academic Network Introduction
• Taiwan Academic Network, the infrastructure of research and educational service network in Taiwan
• Initiated on July, 1990• An IP based T1 backbone
Simon C. Lin [email protected] 4
Taiwan Academic Network Backbone
Simon C. Lin [email protected] 5
Milestones• 1990-07 initiated • 1991-12 64Kbps IPLC connect
ed to JvNCnet, US • 1992-11 US link upgraded to 2
56Kbps• 1993-05 First international res
earch network: 128Kbps IPLC by Academia Sinica
• 1994-10 US link upgraded to 512Kbps
• 1995-10 US link upgraded to T1
• 1995-1996 ASCC proposed to upgrade US link to T3
• 1996-05 US link upgraded to T1 x 2, and move to California, US.
• 1997-1998 US link upgraded to T3 – Based on Academia Sinica proposal
• 1998-11 National Backbone upgraded to T3
• 1998 TANet 2 initiated • 1998 STAR TAP connected • 1998 512Kbps IPLC connecte
d to HARNet, Hong Kong • 1998 256Kbps IPLC connecte
d to KEK-JP, Japan • 1999 Japan link upgraded to T
1
Simon C. Lin [email protected] 6
Taiwan Academic Network Structure - 1998
DS-3
TaiTong_POP
HwaLian_POP
USA
155Mbps
45Mbps
310Mbps
Simon C. Lin [email protected] 7
Content
• Taiwan Academic Network IntroductionTaiwan Academic Network Introduction
• Future Internet Development
• Taipei GigaPoP DeploymentTaipei GigaPoP Deployment
• Taiwan Academic Network 2002Taiwan Academic Network 2002
• APAN TaiwanAPAN Taiwan
• Future Plan Future Plan
• ConclusionConclusion
Simon C. Lin [email protected] 8
Future Internet Development
• Bandwidth Glut based on a single Internet Protocol (IP) which will allow existing voice, data and video services running as applications on IP.
• Internet will be everywhere like air, always-on as water and electricity.
• Connectionism, Scalability and Criticality are three major characteristics.
• Internet is a paradigm shift and survival issue, which will provide advanced platform for new service models.
Simon C. Lin [email protected] 9
IP over Dark Fibre
• Low cost, Effective Infinite bandwidth • High Performance Router acts as the main switching
routing device instead of SONET/SDH switched. • LAN invades the WAN - no complex SONET or ATM
required in network • A network with multiple paths, full DNS and http caching
can be more reliable than the SONET/SDH network • Enables new applications and services not possible with
traditional telecom service providers • It will fundamentally change the traditional carrier-
customer relationship • Extending the Internet model of autonomous peering
networks to the telecom world
Simon C. Lin [email protected] 10
Next Generation Internet (NGI) Applications
• Broadband • Always-on • Everywhere • Intelligent, Natural, Easy, Trusted • Internet will provide a powerful and versatile
environment for business, education, culture, and entertainment, etc.
• Where are the Content? How do we create, store, manage, retrieve, and deliver these content? Scalability is the keyword!
Simon C. Lin [email protected] 11
Internet Revolution is not Overbut Prolonged
• Poor business models and bad policies can hamper Internet usefulness
• the governmental regulation body could not realize the tremendous power of this paradigm shift
• Therefore, the point-to-point Internet bandwidth is still not sufficient to afford the NGI Applications
• the public has been led into misconception of the development of telecommunication business model
• Internet is under prolonged revolution for the moment due to the over-expectation of advanced applications where the global infrastructure is not available yet
Simon C. Lin [email protected] 12
Drives for Direct Internet Connection
• Increasing needs for Grid architecture • Distributed Computing • Collaborative Video communication, HDTV, Larg
e-scale Video conferencing, Music Delivery • Remote Instrumentation, Medical Imaging • Digital Libraries/Museum • ENUM VoIP Service Infrastructure, Wide area p
ure IP telephony
Simon C. Lin [email protected] 13
Content
• Taiwan Academic Network IntroductionTaiwan Academic Network Introduction
• Future Internet DevelopmentFuture Internet Development
• Taipei GigaPoP Deployment
• Taiwan Academic Network 2002Taiwan Academic Network 2002
• APAN TaiwanAPAN Taiwan
• Future Plan Future Plan
• ConclusionConclusion
Simon C. Lin [email protected] 14
Taipei GigaPoP Deployment
• As a national leader of research and higher education, Academia Sinica initiated Taipei GigaPoP project on 1997
• Goal– Resolution to current metropolitan network problems – Platform for adventurous service models deployment– Pushing IP over dark fiber Model instead of SONet/S
DH infrastructure
• ROW: took 2 years• Fibre Deployment: 1999-2000
Simon C. Lin [email protected] 15
Taipei GigaPoP’s Role
• Point of Aggregation • Provides traffic exchange • Variety of speed • Point of policy implementation • telecommunication regulation • AUPs Portal • Point of backbone uplink • Buying power and shared use between collabora
ting partners
Simon C. Lin [email protected] 16
Taipei GigaPoP Service
• IPv4 • Content co-location • Cache Service • High capacity & reliability • Best effort QoS vs. Bandwidth • Multicast • one sources to many receivers (lectures) • few sources to few receivers (meeting)
Simon C. Lin [email protected] 17
Taipei GigaPoP InfrastructureMay, 2000
DPT OC48
DPT OC192
GE
OC12 ATM
NTU
IAMS, IIAS of AS
MOE
City Hall
AS
Simon C. Lin [email protected] 18
Leading Technology
• User owned metropolitan network infrastructure
• First G655 fibre deployment on Taiwan• First IP over dark fibre service network on
Taiwan– OC192– OC48 dual ring: Cisco DPT technology– Gigabit Ethernet– OC12 ATM
Simon C. Lin [email protected] 19
Content
• Taiwan Academic Network IntroductionTaiwan Academic Network Introduction
• Future Internet DevelopmentFuture Internet Development
• Taipei GigaPoP DeploymentTaipei GigaPoP Deployment
• Taiwan Academic Network 2002
• APAN TaiwanAPAN Taiwan
• Future Plan Future Plan
• ConclusionConclusion
Simon C. Lin [email protected] 20
Movement ofInfrastructure and Service Model
• Network infrastructure and service model has been changed significantly after Taipei GigaPoP.
• Bringing in Ethernet service
• Bringing in dark fibre service
• Bringing in IRU service model of international link to end user.
Simon C. Lin [email protected] 21
Target ofTaiwan Academic Network
• Fast Ethernet to every school and Gigabit Ethernet to major education/research institutions – 2002
• Gigabit Ethernet to every school and 10Gbp to major education/research institutions by 2005
Simon C. Lin [email protected] 22
International InfrastructureJan., 2002
Simon C. Lin [email protected] 23
Gigabit backboneMarch, 2002
Simon C. Lin [email protected] 24
Taiwan Biomedical Research Network
Simon C. Lin [email protected] 25
Infrastructure Movement ofTaiwan Academic Network
• The Gigabit Ethernet backbone will be the educational service network.
• The Biomedical Research Network may become part of the Taiwan Research Network.
• Partnership of paublic and private sectors to provide Dark Fibre and Lambda Internet.
• DWDM testbed is undergoing now.
Simon C. Lin [email protected] 26
Content
• Taiwan Academic Network IntroductionTaiwan Academic Network Introduction
• Future Internet DevelopmentFuture Internet Development
• Taipei GigaPoP DeploymentTaipei GigaPoP Deployment
• Taiwan Academic Network 2002Taiwan Academic Network 2002
• APAN Taiwan
• Future Plan Future Plan
• ConclusionConclusion
Simon C. Lin [email protected] 27
APAN-TW
• An international co-operation research service network
• Initiated on 1998– 256Kbps to KEK, Japan– 512Kbps to HARNet, Hong Kong
• APAN Primary Member: Nov. 2001• Infrastructure Upgrade
– STM-1 to Japan: FEx2 to APAN at Tokyo IX– STM-1 to Hong Kong: HARNet and Others
Simon C. Lin [email protected] 28
STM-1STM-1
STM-1
STAR TAP
APAN-TW
Latin America
JapanKorea
Philippines
Indonesia
Singapore
Malaysia
Thailand
Hong Kong
CSTNet
Europe
Exchange Center
Access Node
Circuit
Asia Trans Connection
U.S. Trans Connection
Australia
•CERN
•IUCC
•NORDnet
•RENATER2
•SURFnet
•CERN
•IUCC
•NORDnet
•RENATER2
•SURFnet
Asia
•APAN
•SingAREN
•AJNL
•APII
•IMNet
•MAFFIN
•SINET
•WIDE
•KEK-JP
Vietnam
Europe
HARNet
North America
•Abilene
•ESnet
•NISN
•NAPNET
•6TAP-IPv6
•vBNS
•NREN
•CA*net
•NORDUnet
•TransPAC
US
CERNet
Stm-1
Stm-1
Stm-1*2
APAN-TW Network Service
Simon C. Lin [email protected] 29
APAN-TW Consortium
• Chair: Dr. Jer-Nan Juang, National Center for High-Performance Computing
• Secretariat: Dr. Simon C. Lin, Academia Sinica• NOC Director: Wen Shui Chen, Academia Sinic
a• Technology Chair: Jan Ming Ho Academia Sinic
a• User Community Chair: Dr. Fay Sheu, National
Center for High-Performance Computing• Natural Resources Area: Dr. Kwang-Tsao Shao,
Academia Sinica
Simon C. Lin [email protected] 30
Content
• Taiwan Academic Network IntroductionTaiwan Academic Network Introduction
• Future Internet DevelopmentFuture Internet Development
• Taipei GigaPoP DeploymentTaipei GigaPoP Deployment
• Taiwan Academic Network 2002Taiwan Academic Network 2002
• APAN TaiwanAPAN Taiwan
• Future Plan
• ConclusionConclusion
Simon C. Lin [email protected] 31
International Infrastructure
• US Gigabit connection: 2002
• Europe STM-1 Link: planning (?)
• Other links to AP countries (?)
• Application-specific AP regional infrastructure
Simon C. Lin [email protected] 32
National Optical Network
Simon C. Lin [email protected] 33
Agenda
• Taiwan Academic Network IntroductionTaiwan Academic Network Introduction
• Future Internet DevelopmentFuture Internet Development
• Taipei GigaPoP DeploymentTaipei GigaPoP Deployment
• Taiwan Academic Network 2002Taiwan Academic Network 2002
• Future Plan Future Plan
• Conclusion
Simon C. Lin [email protected] 34
Conclusion
• Taiwan has recognized the importance of access to low cost dark fiber as fundamental economic enabler
• Taiwan must take advantage of Internet network principles and abandon the old Telecom's way of thinking
• Directions: Direct Link, Pure IP-based, Route/Path redundancy, Peering & Transit, etc.
• Scientific Collaboration, Digital Library/Archive for the Next Generation Internet Applications will become mature in the 21st century
• Resource sharing infrastructure may be the next big thing after WWW