Download Development of IPv6 Testbed

Development of IPv6 Testbed
Shin-ichi Nakagawa, A. Machizawa,
T. Sakurada, Y. Kitaguchi,
M. Katsumoto and K. Sugiura
E-mail: [email protected]
Estimated Backbone Traffic (bit/s)
Access line bandwidth and Backbone traffic
for the 20million terminals
1015
3-5 year
1014
5-7 year
current
1013
1012
53K
64K
128K
1.5M
6.0M
135M
The Japan Gigabit Network
and CRL network for the
Domestic Network Configuration
Japan Gigabit Network
Backbone, TAO, MPT
Draft Configuration of
Japan Gigabit Network
at Nov, 1998
Sapporo
Concept
Provided by MPT, TAO.
Nagano
Backbone Network OC12
Sendai
Kanazawa
Tsukuba
Kitakyushu
No. of Peripheral Connecting Point = 32
points
Makuhari
Keihanna
Takamatsu
Initially it will be provided as the native
ATM network and IP over ATM.
Research oriented operation.
The Gigabit Network Map
AppendixHokkaido
University
600M
NS8000（ATM Switch/ Connecting
Sapporo
Gigabit-Class Link
Node）
GX550 （ATM Switch）
150M
Hokkaido Telecom
Center
NS8000（ATM Relay Switch）
ASX1000（ATM Connecting Node ）
CISCO7513
ATOMIS7（ATM Connecting Node ）
CISCO7507
Niigata
University
Note: This map is subject to change.
Kitakyusyu Support
Center of Communication
Research and Development
Teleport Okayama
Building
Hiroshima
University
Shimane
Prefecture
Toyama Total
Information
Center
150M
150M
150M
150M
5
Nagano City
FULNET
CENTER
Ishikawa HighTech
Conference
Center
50M
150M
University of
Iwate
150M
Matsumoto
Software
Development
Center
600M
Sendai
150M
150M
150M
150M
Aizu University
50M
50M
Sendai City Information
and Industry Plaza Ne!t
U
Nagano
Kanazawa
Tenjin
Tohoku
University
150M
Okinawa Support
Center of Communication
Research and
Development
150M
Tenjin
150M
Okayama
Tokyo
University
50M
600M
NetCom Saga
Steering Council
600M
Kyusyu
University
NOC
Keihanna Support
Center of Communication
Research and Development
Nagoya
Takamatsu
Yamanashi Open
Research
Development Center
Awaji
50M
50M
600M
150M
Nara Institute of
Science and
Technology
Osaka
University
Yokosuka TeleCom
Research Park
Tsukuba Support
Center of Communication
Research and Development
600M
Awaji
150M
Next
Kagawa
150M
150M
150M
Tokushima
University
Otemachi
150M
Waseda
University
150M
Kyoto
University
150M
600M
150M
Nagoya
University
150M
Otemachi
50M
50M
University of
Shizuoka
Mie Prefectural
College
of
Nursing
150M
Softpia
Japan Center
The University of
ElectroCommunications
National Center for Science
Information Systems
Logical Structure of Japan Next Generation Internet
Test-beds
JGN
JGN-POP
JGN-POP
JGN-POP
IMnet
Ｓｉｔｅ Ａ
Ｓｉｔｅ Ｂ
Ｓｉｔｅ Ｃ
APII testbed
AI3
Singapore
CRL Experimental
Network Exchange
APAN
TRANSPAK
GENESIS
Korea
JEG
HongKong
Indonesia
WIDE
STARTAP
Leuk Switzerland
Thailand
CERN
IGR
Europe
CRL and JGN
• Cooperatively promoting the Next Generation
Internet Researching Activities with sharing the
resources.
– Backbone network from JGN, Access line for some
peripheral user sites by CRL as based on cooperating
research project of CRL.
• CRL is now establishing the JP-TAP for
connecting APII testbed, GENESIS, and AIII.
• CRL committed the establishment of JGN
community based on the results of AUP survey.
CRL’s Activities in Global Collaborations
(International Joint Research)
- Network Research/Potential
-Multimedia Comm. Tech. Research
International Collaborations

G7/GIBN Project

APII/APAN Project

MVL Project
G7/GIBN Project
Global Interoperability for Broadband Networks
Objective: To improve interconnectivity among
ATM networks and international applications
: To demonstrate potential of Information Society
CANADA
Satellite Networks
ATM
Networks
Background:
G7 Ministers
Agreement
(Feb. 1995)
JAPAN
ATM
Networks
Optical Networks
ATM
Networks
U.S.
ATM
Networks
EUROPE
Japan-Canada Experiment (Oct.97- )
(HDTV applications experiments)
Remote Workshop on Cardiac Surgery (Feb. 98)
INTELSAT
Tokai Univ. Hospital
CRL(Tokyo)
STM-1
NTT
ATM network
Tokyo KDD
(Ibaraki)
DS-3
Ottawa Univ.
Heart Institute
CRC(Ottawa)
CANARIE
networks
Teleglobe
(Lake Cowichan)
OC-3
Ottawa
The 1st Videoconference Trial (CRL-Rennes, 24-26 Mar 98)
CRL site:
Mr Galligan(ESA),
Mr Thomas(FranceTelecom),
Mr Allovon(CNET),
Dr Iida(CRL) etc.
Rennes site
Ｍｒ Herve,
Maire de Rennes
G360 Network in IST’98 (30 Nov-2 Dec 98)
0
Intelsat 16 E
Main Site (providing programme input and questioning)
Interactive Site (questioning enabled)
Significant interconnection point
Watchpoint Site
2M
Eutelsat IIF3
Eutelsat
2M, TDMA
CEC,
Brussels,
via
MBONE
Aveiro
CET
Amsterdam
TEN34
Madrid
UPM
Barcelona
UPC
Public
MBONE
Other
Spanish
sites G360
Control
Centre &
Studio
GSL
Basel
ASP
CERN
2M
Uni Lausanne
LAU
All links at 4Mbits/sec unless
marked otherwise
Tokyo
CRL
2M, SMS
Yaroslavl Moscow
IOC
YAR
MBONE
European
Russia
Aflenz
Linz
JKU
Novosibirsk
NOV
2M
Teleconferen
ce Room
TEL
Digital
Theatre
Plenary DTV
Hall
Vienna Conference
Centre
Athens
DEM
2M
Kiev
KSN
Budapest
Ljubljana BUD
IJS
Berlin
DTB
Sion
Minsk
ACC
Mbone
Siberian
Russia
ISDN
Poznan
POZ
Frankfurt
Leuk
Berkeley
UCB
Ottawa
CRC
Reykjavik
ITR
Uni Brno
BRN
Prague
CES
APEC TELMIN3 Demonstration
Japan (CRL & NCC)-Singapore, June 4, 1998
3rd APEC Ministerial Meeting on the Telecommunications and Information Industry
Dr. H. Jiang (CRL) and Dr. H. Oyama (NCC) at CRL site
APII Technology Center
(in CRL Kansai Advanced Res. Center)
• International Joint Experiments by CRL
– Network interconnection
– Next-stage internet tech.
• Mbone, RSVP, IPv6
– Video conference
• Technological training
Asian Area Internet configuration plan 199945Mbps from 1998
by STA
More than 30Mbps from, 1999 by MPT
Japan
Europe
Korea
 USA


Around the Earth 360
Backbone Network

China
Hong Kong
Thailand 
Malaysia 

Vietnam
 Philippines

Singapore

Indonesia
AIII (satellite link): 2Mbps
APII(ATM): 2Mbps
AIII (satellite: phase II)
 Australia
How to Use it?
Several trials for Next Generation
Media transport.
Compression methods and
bandwidth requirement.
Ultra-HD
Quality
HDTV
class
D1
MPEG2
H.262
Videophony
class
MPEG1
H.261
100k
DV
Std-TV
class
1M 10M 100M 1G
Transport rate (bit/sec)
Current JP-CA network configuration of Layer 0-3,
1999, Sep
CAnetII, III
Japan Gigabit Network
CRL-Kashima
CRL-Otemachi
APII/APAN-JP
CRC
TransPAC
STARTAP
APII-testbed
CRL-Kansai
AIII(Ku+C Band)
CRL-Koganei
Korea
CRL-Okinawa
Hotel Okura
Singapore
HongKong
Malaysia
Thailand
Vietnam
Indonesia
Philippine
China
Digital Video
Experiment of Digital Video transport between
Okinawa and Tokyo.
Experimental Network
Okinawa-Tokyo
Meeting room-1
Meeting room-2
Meeting room-3
Meeting room-4
Temporary Cluster
(CRL, KDD, OTNet)
KDD-Okinawa
OTNet-Naha
JGN-Naha
135Mbps
CRL-Koganei
Meeting room-5
ＪＧＮ
６００Ｍｂｐｓ
NTT-Otemachi
Tokyo(CRL)
CRL-bridge
Science Musium
2Mbps
KDD-Otemachi
Tokyo(CRL)
１００Ｍｂｐｓ
Internet
DV Land demonstration at INET’2000
Ｓａｐｐｏｒｏ
Ｏｋｉｎａｗａ（Ｎａｈａ）
DVTS
ＣＥＲＮ（Europe)
Yokohama(Inet’2000)
Ｋｙｕｓｈｕ（Ｋｏｋｕｒａ）
IDC'99 Demonstration
Koganei
Osaka
Kanazawa
IDC'99
Digital Video
Japan Gigabit Network
2Mbps
Real-time Synthesis
Tele-education Experiment (ＣＲＬ->ＪＡＩＳＴ)
ＪＡＩＳＴ(ＪＡＩＳＴ->ＣＲＬ)
ＪＡＩＳＴ students(ＪＡＩＳＴ->ＣＲＬ)
Tele-education experiment (ＣＲＬ->ＪＡＩＳＴ)
Layer2 JGN Delay Map
JGN network
Delay Mapping
Geographical Japan
D1 over IP experiment
＜実験システム構成図＞
ＣＲＬKoganei
D1(Non-comp.) : >200Mbps
DV>35Mbps
ATM Switch
ATM Switch
ATM Switch
D1(NC,
DV
D1 server
D1 Client
D1 &DV Client
OC-3(155Mbps)
Fibre Channel
OC-12(622Mbps)
ATM Qos
For the next step
How to establish the Mind to Mind
networking?
Ancient Multi-layer Structure.
How to use it???
Education
Economics,.
User Applications:
Video Conference
Highspeed dist. DB.
Applications:
Original Software
Original Software
Transport Layer:
Policy Routing:
No inter operability middleware was exist.
Protocol Layer:
Switching Layer:
X.25, X.400, ATM , CDMA, … Ethernet, …
Physical Layer:
HSD, ISDN, ADSL, WLL… Optical fiber.
Internet Multi-layer Structure
at the beginning.
How to use it???
Education, Economics, Music, Medicine...
User Applications:
Video Conference, simple text, Hyper text...
Applications:
WWW, wb, vic, vat, isabel, ….
Transport Layer:
TCP, UDP, IGMP,
Policy Routing:
Protocol Layer:
Telephony, Internet...
Switching Layer:
Physical Layer:
HSD, ISDN, Optical fiber.
Novel Layer Structure for Next Generation
Application Area
Education, Economics, Music, Medicine...
User Application:
Video Conference, simple text, Hyper text...
Application Basics: Html/http, SMIL, wb, vic, vat, isabel, ….
Transport Layer:
TCP, UDP, IGMP,
Policy Controls:
QoS, AUP, Reservation...
Protocol Layer:
Internet Protocol
Switching Layer:
IEEE1394, ATM , CDMA, Giga Ethernet,
Physical Layer:
HSD, ISDN, ADSL, Satellite, Optical fiber.
Novel Layer Model for NGI
Conventional Model
NGI-Model
Actual World
Actual World
Internet Literacy
Internet User Community
Application Area
-
Education, Economics, Music, Medicine...
User Applications: Video Conference, simple text, Hyper text...
Extra-Internet User
Community
Education, Economics, Music, Medicine...
Video Conference, simple text, Hyper text...
Applications:
WWW, wb, vic, vat, isabel, ….
WWW, wb, vic, vat, isabel, ….
Transport Layer:
TCP, UDP, IGMP,
TCP, UDP, IGMP,
Policy
Policy Routing:
Protocol Layer:
Telephony, Internet...
Switching Layer:
Physical Layer:
HSD, ISDN, Optical fiber.
Layer2
Topology
AUP, Interconnectivity, Gateway...
Telephony, Internet...
X.25, X.400, ATM , CDMA, … Ethernet, …
HSD, ISDN, ADSL, Satellite… Optical fiber.
What is Next Generation Internet?
• IP Technology Progression is still active.
– We are making the Next Generation
– IETF model: propose, implementation, harmonization,
standardization
• IP V6?
– Remove address space limit of IP-V4
– Enable the more objective and flat architecture
• Ultra High Speed Network?
– Multi Gigabit?
• With IP/WDM, IP/Photonic?
– Limit of switching technology
• Back-plane switching: 2-10Gigabit class at current.
– Requirement?
TAO of GIBN :






Sweat : Actual operation
Blood : Budget
Foot : Actual physical link
Brain: Essential suggestions
Life: Academic activity, Demonstrations
Voice:
Policy making at the external world
and coordination for general users
 Or Coordination for weak users and
researchers.