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Development of IPv6 Testbed. Shin-ichi Nakagawa, A. Machizawa, T. Sakurada, Y. Kitaguchi, M. Katsumoto and K. Sugiura E-mail: [email protected] Access line bandwidth and Backbone traffic for the 20million terminals. 3-5 year. 5-7 year. current.

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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]


Access line bandwidth and backbone traffic for the 20million terminals

Access line bandwidth and Backbone trafficfor the 20million terminals

3-5 year

5-7 year

current


The japan gigabit network and crl network for the domestic network configuration

The Japan Gigabit Network and CRL network for the Domestic Network Configuration


Development of ipv6 testbed

Draft Configuration of

Japan Gigabit Network

at Nov, 1998

Concept

Provided by MPT, TAO.

Backbone Network OC12

No. of Peripheral Connecting Point = 32 points

Research oriented operation.

Initially it will be provided as the native ATM network and IP over ATM.


Development of ipv6 testbed

The Gigabit Network Map

Appendix-5

Hokkaido University

600M

Sapporo

NS8000(ATM Switch/ Connecting Node)

Gigabit-Class Link

GX550 (ATM Switch)

150M

Hokkaido Telecom Center

NS8000(ATM Relay Switch)

CISCO7513

ASX1000(ATM Connecting Node )

CISCO7507

ATOMIS7(ATM Connecting Node )

University of Iwate

Niigata University

Nagano City FULNET CENTER

150M

Matsumoto Software Development Center

Note: This map is subject to change.

600M

Ishikawa High-Tech Conference Center

Tohoku University

Toyama Total Information Center

Sendai

Teleport Okayama Building

50M

150M

150M

Kitakyusyu Support

Center of Communication

Research and Development

Shimane Prefecture

Hiroshima University

Aizu University

150M

150M

150M

150M

50M

150M

150M

150M

50M

Sendai City Information and Industry Plaza Ne!t U

Kanazawa

Nagano

Tenjin

150M

Okinawa Support

Center of Communication

Research and Development

Okayama

150M

Tenjin

150M

Tokyo University

50M

600M

NetCom Saga

Steering Council

600M

NOC

Otemachi

150M

Yamanashi Open

Research Development Center

Keihanna Support

Center of Communication

Research and Development

150M

Awaji

Kyusyu University

Nagoya

50M

Yokosuka TeleCom Research Park

Tsukuba Support

Center of Communication

Research and Development

150M

150M

Tokushima University

50M

Takamatsu

600M

Awaji

150M

Waseda University

600M

150M

Kyoto University

150M

150M

150M

NextKagawa

Osaka University

150M

Otemachi

600M

50M

150M

The University of Electro-Communications

50M

Nara Institute of Science and Technology

Softpia

Japan Center

Nagoya University

University of Shizuoka

Mie Prefectural College of Nursing

National Center for Science Information Systems


Development of ipv6 testbed

JGN

JGN-POP

JGN-POP

JGN-POP

IMnet

CRL Experimental

Network Exchange

Site A

Site B

Site C

WIDE

APAN

TRANSPAK

APII testbed

Singapore

AI3

GENESIS

Korea

JEG

STARTAP

HongKong

Indonesia

Leuk Switzerland

Europe

Thailand

CERN

IGR

Logical Structure of Japan Next Generation Internet

Test-beds


Crl and jgn

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.


Development of ipv6 testbed

CRL’s Activities in Global Collaborations

(International Joint Research)

- Network Research/Potential

-Multimedia Comm. Tech. Research

  • G7/GIBN Project

  • APII/APAN Project

  • MVL Project

International Collaborations


Development of ipv6 testbed

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

ATM

Networks

ATM

Networks

Optical Networks

U.S.

EUROPE


Japan canada experiment oct 97 hdtv applications experiments

Japan-Canada Experiment (Oct.97- )(HDTV applications experiments)

Remote Workshop on Cardiac Surgery (Feb. 98)

INTELSAT

Ottawa Univ.

Heart Institute

Tokai Univ. Hospital

CRL(Tokyo)

DS-3

CRC(Ottawa)

STM-1

OC-3

NTT

CANARIE

ATM network

networks

Ottawa

Tokyo

KDD

Teleglobe

(Ibaraki)

(Lake Cowichan)


Development of ipv6 testbed

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


Development of ipv6 testbed

G360 Network in IST’98 (30 Nov-2 Dec 98)

Intelsat 160E

Main Site (providing programme input and questioning)

Interactive Site (questioning enabled)

2M

Eutelsat IIF3

Significant interconnection point

Watchpoint Site

Eutelsat

2M, TDMA

CEC, Brussels,

via MBONE

Tokyo

CRL

Barcelona

UPC

Aveiro

CET

2M, SMS

Moscow

IOC

Yaroslavl

YAR

Public

MBONE

MBONE European Russia

Other Spanish sites

Amsterdam

Aflenz

G360 Control Centre & Studio

GSL

Madrid

UPM

TEN-34

Athens

DEM

Linz

JKU

2M

Novosibirsk

NOV

2M

Kiev

KSN

Tele-conference Room

TEL

Budapest

BUD

Basel

ASP

Digital Theatre

DTV

Mbone

Siberian Russia

Ljubljana

IJS

Minsk

ACC

Plenary

Hall

CERN

Berlin

DTB

2M

Vienna Conference

Centre

ISDN

Poznan

POZ

Uni Lausanne

LAU

Sion

Frankfurt

Leuk

Ottawa

CRC

Uni Brno

BRN

Reykjavik

ITR

Berkeley

UCB

All links at 4Mbits/sec unless marked otherwise

Prague

CES


Development of ipv6 testbed

APEC TELMIN3 DemonstrationJapan (CRL & NCC)-Singapore, June 4, 19983rd 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

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


Development of ipv6 testbed

Asian Area Internet configuration plan 1999-

45Mbps from 1998

by STA

More than 30Mbps from, 1999 by MPT

Japan

Europe

  • USA

Korea

Around the Earth 360 Backbone Network

China

Hong Kong

  • Philippines

Thailand

Vietnam

Malaysia

Singapore

Indonesia

AIII (satellite link): 2Mbps

APII(ATM): 2Mbps

AIII (satellite: phase II)

  • Australia


How to use it

How to Use it?

Several trials for Next Generation Media transport.


Compression methods and bandwidth requirement

Compression methods and bandwidth requirement.

Ultra-HD

HDTV

class

D1

DV

Quality

MPEG2

H.262

Videophony

class

MPEG1

Std-TV

class

H.261

100k

100M

10M

1M

1G

Transport rate (bit/sec)


Development of ipv6 testbed

Current JP-CA network configuration of Layer 0-3,

1999, Sep

TransPAC

APII-testbed

AIII(Ku+C Band)

Korea

HongKong

Malaysia

Singapore

Thailand

Vietnam

Indonesia

Philippine

China

Digital Video


Development of ipv6 testbed

Experiment of Digital Video transport between Okinawa and Tokyo.

Experimental Network

Okinawa-Tokyo


Development of ipv6 testbed

DV Land demonstration at INET’2000

Okinawa(Naha)

Sapporo

DVTS

CERN(Europe)

Yokohama(Inet’2000)

Kyushu(Kokura)


Development of ipv6 testbed

IDC'99 Demonstration

Koganei

Osaka

Kanazawa

IDC'99

Digital Video

Japan Gigabit Network

Japan-European Gamma

2Mbps

Real-time Synthesis


Development of ipv6 testbed

Tele-education Experiment (CRL->JAIST)

JAIST(JAIST->CRL)

JAIST students(JAIST->CRL)


Development of ipv6 testbed

Tele-education experiment (CRL->JAIST)


Layer2 jgn delay map

Layer2 JGN Delay Map

JGN network

Delay Mapping

Geographical Japan


D1 over ip experiment

D1 over IP experiment

<実験システム構成図>

CRLKoganei

D1(Non-comp.) : >200MbpsDV>35Mbps

ATM Switch

ATM Switch

ATM Switch

D1(NC,DV

D1 &DV Client

D1 server

D1 Client

Fibre Channel

OC-3(155Mbps)

ATM Qos

OC-12(622Mbps)


For the next step

For the next step

How to establish the Mind to Mind networking?


Ancient multi layer structure

Ancient Multi-layer Structure.

How to use it???

Education

Economics,.

User Applications:

Video Conference

Highspeed dist. DB.

Original Software

Original Software

Applications:

Transport Layer:

No inter operability middleware was exist.

Policy Routing:

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

Internet Multi-layer Structureat 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

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:

InternetProtocol

Switching Layer:

IEEE1394, ATM , CDMA, Giga Ethernet,

Physical Layer:

HSD, ISDN, ADSL, Satellite, Optical fiber.


Novel layer model for ngi

Novel Layer Model for NGI

Application Area

Application Area

Education, Economics, Music, Medicine...

Education, Economics, Music, Medicine...

Education, Economics, Music, Medicine...

Education, Economics, Music, Medicine...

User Applications:

User Applications:

Video Conference, simple text, Hyper text...

Video Conference, simple text, Hyper text...

Video Conference, simple text, Hyper text...

Video Conference, simple text, Hyper text...

Applications:

Applications:

WWW,

WWW,

wb

wb

,

,

vic

vic

, vat,

, vat,

isabel

isabel

,

,

.

.

WWW,

WWW,

wb

wb

,

,

vic

vic

, vat,

, vat,

isabel

isabel

,

,

.

.

Transport Layer:

Transport Layer:

TCP, UDP, IGMP,

TCP, UDP, IGMP,

TCP, UDP, IGMP,

TCP, UDP, IGMP,

Policy Routing:

Policy Routing:

AUP, Interconnectivity, Gateway...

AUP, Interconnectivity, Gateway...

Protocol Layer:

Protocol Layer:

Telephony, Internet...

Telephony, Internet...

Telephony, Internet...

Telephony, Internet...

Switching Layer:

Switching Layer:

X.25, X.400, ATM , CDMA,

X.25, X.400, ATM , CDMA,

Ethernet,

Ethernet,

Physical Layer:

Physical Layer:

HSD, ISDN, Optical fiber.

HSD, ISDN, Optical fiber.

HSD, ISDN, ADSL, Satellite

HSD, ISDN, ADSL, Satellite

Optical fiber.

Optical fiber.

-

Conventional Model

NGI-Model

Actual World

Actual World

Internet Literacy

Extra-Internet User

Community

Internet User Community

Policy

Layer2

Topology


What is next generation internet

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

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.


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