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___________________________________________________________________________
2013/TEL47/DSG/010 Agenda Item: 3.4
Progress Report: APII R&D Testbed Network Project
Purpose: Information Submitted by: Japan
ICT Development Steering Group MeetingBali, Indonesia
26 April 2013
2013/5/29
1
APII R&D Testbed Network ProjectProgress Report ‐ August 2012 to March 2013
April, 2013Shuji Yamaguchi
National Institute of Information and Communications Technology, Japan
Updates for August 2012 to March 2013
• Introduction and Overview of JGN‐X Project– JGN‐X Project for Future Internet– JGN‐X updates on Network Environment
• Recent and Upcoming Events related to APII Testbed– APII Workshop 2012(Oct. 2012)– Demonstration on Supercomputing Conference (Nov. 2012)– APAN35 Future Internet Testbed(FIT) WG Workshop(Jan. 2013)– Snow Festival Experiment 2013(Feb 2013)– SDN Experiment in Tohoku Area(disaster‐stricken area)– Joint SDN Research with NECTEC/Uninet– Upcoming Events
1
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Future Internet/New Generation Network
• Realization of “Future Internet technologies (i.e. the New Generation Network (NWGN))” is required, which will provide fundamental solutions to various network problems, such as network security and energy consumption.
• NICT has conducted R&D activities, and operates large‐scale testbed networks to establish NWGN technology through proof and evaluation.
• The testbed networks are widely opened to industry, academia and government as a technology assessment environment (testbed), and promote the timely development of new applications and strategic international joint research and cooperation through connections with research institutions in the U.S., Europe, Asia, etc.
Outline
Establishment of New Generation Network TechnologyProblem: Security,
Energy consumption
It will solve present network problems fundamentally
2010 (Present) 2015 2020
Testbed for New generation communication network(JGN‐X) Industry‐academia‐government
cooperation promotes research and development, performance assessment
and verification
Establishment of New Generation Network is necessary
2000
Gbps Network A large scale multicast Advanced,optical testbed
Mass image Transmissiontechnology
IPv6,Multicasttechnology
Opticalnetwork
Increasing speed andperformance
Present Network
Related IP Network Technology Related New Generation Network Technology ※
Performance assessment, Verification
Putting it to practical use
JGN JGN2 JGN2plus
New architecture, elemental technology
Operation of New Generation Network (NWGN)
2
JGN-X Network including APII Network (as of Apr. 2013)Realizing multiple New Generation Network Planes on a virtual JGN-X network. Also made it available to interconnect with other Testbeds.
FukuokaHiroshima
Okayama
Sendai
NICT Koganei
SouthKoreaUSA
Thailand Singapore HongKong
Bandwidth International
Wireless Testbed
Kanazawa
Kagawa
Okinawa
Nagoya
Kochi
DCNDCN
DCNDCN plane
OFOF
OFOF
OFOpenFlow plane
VN
VN
Virtual Node planeVN
VN
Optical TestbedWireless Testbed
VLAN-based testbed network
Osaka
Iwate
Tokyo
Sapporo
40G10G
DF
VN Virtual Node
OF Openflow
DCN DCNEx
1GVirtual Storage
StarBED
Japan- USA: 10GJapan - Korea: 10GJapan – Hong Kong: 10GHong Kong - Singapore 2.4GSingapore - Thailand: 622Mbps
Optical Testbed
Koganei- OtemachiOtemachi~Otemachi
Change the circuit of Fukuoka‐Pusan to Tokyo‐Seoul
APII Network
DCNVN
OF
VN OF
DCNVN
OF
VN
OF
OF OF OF
VN
OF
OF
VN
OF
DCNVN
OF
OF 3
2013/5/29
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Juniper MX240
Juniper MX80
Juniper MX80
Juniper MX80
Juniper EX4500TEIN3‐SG
TEIN3‐HK
SINET4TEIN3‐JP
Singapore(Global Switch)
HongKong(Mega i‐Advantage)
Tokyo(KDDI Otemachi)
Tokyo(NTT Otemachi)
APAN‐JP
Asian Links including APII Network
10Gbps10Gbps
10Gbps
10Gbps10Gbps
10Gbps
10Gbps
2.4Gbps
2.4Gbps
10Gbps
10Gbps
1Gbps
1Gbps
622Mbps
10Gbps
Bangkok(Bangkok Thai Tower)
CUHK(HKIX)CUHK(HKIX)
CERNET CSTNET
SingAREN
Back up L2 by VPLS
10Gbps 10Gbps 1Gbps
Juniper MX80
JuniperMX80
Uninet1Gbps
1GbpsFor ThaiREN
Back up L2 by VPLS
JGN‐X(AS17943) are making own bgp peers to NRENs
10Gbps
ThaiREN
APII NetworkAPII Network
4
Juniper MX80
KOREN
Juniper MX80
JGN‐X
10Gbps
Seoul(KIDC)
Back up L2 by VPLS
10GbpsBy KOREN
NEW!
– APII Workshop 2012(Oct. 2012)
– Demonstration on Supercomputing Conference (Nov. 2012)
– APAN35 Future Internet Testbed(FIT) WG Workshop(Jan. 2013)
– Snow Festival Experiment 2013(Feb. 2013)
– SDN Experiment in Tohoku Area(disaster‐stricken area)
– Joint SDN Research with NECTEC/Uninet
5
Recent and Upcoming Events related to APII Testbed
2013/5/29
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APII Workshop 2012(29th of Oct. 2012)No Presentation (draft) By
1 APII Update ‐ JGN‐X Eiji Kawai(NICT)
2 APII Update ‐ KOREN Sanggyun Kim(NIA)
3SDN
RISE ‐ SDN testbed on JGN‐X Shuji Ishii(NICT)
4 SDN‐enabled OF@TEIN Testbed JongWon KIM(GIST)
5 Life‐cycle management
Autonomous Fast Rerouting for Software Defined Network Shohei Kamamura(NTT)
6 Medical Telemedichine Activities Junghun LEE(SNUBH)
7CPS
Human Centric Cyber Physical System Based Sensing Teruo Higashino(Osaka Univ.)
8 IoT‐Silo: An Agent‐Based Service Platform for IoT Dr. IlKwon CHO(NIA)Dr. EuiHyun Jung
9Wireless
Virtualization Control Architecture for Mobile Networks wireless virtual
Prof. ChoongHoCHO(Korea Univ.)
10 NerveNet: A Self‐distributed Wireless Mesh Access Network Platform with In‐network Contents Caching, Processing and Forwarding
Yasunori Owada(NICT)
11ISP‐CDN
Overlay Contents Routing Test CCN YeongIl SEO(KT)
12 Service‐Oriented Open Routers Michihiro Koibuchi(NII)
Presentation materials are available at JGN‐X Web site: http://www.jgn.nict.go.jp/english/reports/presentation/APII_ws‐2012.html 6
Demonstration in SC12 with global relationship
Global scaled
Federation
Global-scaled Network
Federation
Integrating
area SDN
Integrating HPC & Wide-
area SDN
SDN use case: Route control by TDW application
Cloud IMS over SDN network RISE Evaluating NICT Science Cloud in Global Scale
Multi‐domain network with NSI/OpenFlow
Applying SDN
services
Applying SDN to carrier services
Wide area
coputing
Wide-area distributed coputing
7
Osaka Tokyo Salt Lake City (venue)
Science cloud cluster in Japan
SDN network on JGN-X
SDN network on JGN-X Environment in the venueEnvironment in the venue
SC boothSC boothOsakaOsaka
Pull out the cable
Performed several demonstrations with collaborating global R&E networks
2013/5/29
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Demonstration of Cloud IMS with SDN/OpenFlow Testbed over JGN-X(RISE)※IMS : IP Multimedia Subsystem
Osaka Tokyo Salt Lake City (the venue)
‐Performed proving test of load‐balancing IP phone process under disaster situation, utilizing wide‐area SDN/OpenFlow testbed network‐ KDDI Laboratory successfully demonstrated the system, collaborating with RISE over US‐JP network in SC12(Super Computing Conference, Nov 2012)
8
APAN35 FIT WG(Jan. 14th/15th, 2013)
No Title of the presentation By
1 Session 1 in 14th Chair: James Williams
International SDN at Indiana University John Hicks (Indiana University)
Update on OF@TEIN SDN‐enabled Testbed Jong Won Kim (GIST)Software defined networking (SDN) research in Tsinghua University Jun Bi (Tsinghua University)
Current Status of JP OF testbed RISE Shuji Ishii(NICT)
2 Session 2 in 15th Chair: Shinji Shimojo
SDN Researches over TWAREN Te Lung (NCHC)
DYPOP: Datacenter besides your POP Katsushi Kobayashi (RIKEN)
Integration NSI and SDN Jin Tanaka (KDDI/NICT)A Challenge on Collaborative Testbed Federation between Heterogeneous Testbeds ‐ a case study on StarBED and Deterlab
Masatoshi Enomoto (NAIST)
9
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JGN‐X Experiment in Snow Festival 2013
(※)NICT Press Release is available at: http://www.nict.go.jp/en/press/2013/03/18-1.html 10
• Selection and changing over 10 kinds of SDN developed in parallel by user• Change network necessary technology on‐demand by using our GUI• Change occurs only inside network without modification needed in user side• Commercial TV Broadcasting quality transmission• In parallel with TV broadcasting, experiment of LIME and Wi‐Fi streaming are performed
Headed by Title of Experiment(Tentative)
Description in brief
NTT NS Lab
/Cisco
/Osaka U/ECU
Bandwidth Auto‐Scale: SDTN
Adjust assigned bandwidth instantly with changes in amount of user traffic
Bandwidth Auto‐Scale: (Cisco)
Implement above by using Cisco OnePK
Technology of Controlled Self‐Organizing Network
Virtualized Network control technology inspired by biologicalfluctuation (partially using outcomes from MIC’s SCOPE commissioned research)
NICT/NEC RISEman Experiment with latest controller of JGN‐X’s SDN Testbed“RISE”
MPLS‐TP+OpenFlow Experiment with Special MPLS‐TP extension in specification of OpenFlow
Cisco Cisco OnePK Validation on easier routing control by SDN/Cisco OnePK
Juniper Juniper SDN OpenFlow SW control and MPLS Path control by SDN on multiple plain assuming NVO use
NICT/UT/KeioU GINEW Implementation of dynamic and simplified path control under multi‐vender network environment
University of Tokyo
FLARE Achieves Deeply Programmable Network (DPN) which evolved SDN
NICT/UT/NTT Virtualized Node Experiment of Resource Isolation by the latest Virtualized Node system
10 SDN Experiments JGN‐X Experiment in Snow Festival 2013
11
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SDN Experiment in Tohoku Area (disaster‐stricken area)
Perform the demonstration of “Robust Network in Emergency Situation” adapted the SDN/OpenFlow technology with following features– Multiplex circuit utilizing multiple access network integrated wire and wireless – Rapid and flexible network construction with remote control using SDN/Openflow controller– Priority control of transmission contents using SDN/Openflow Controller
Shopping Mall
City Hall
Welfare Center
Prevention Center
IntegratedAdministration
Upper network X)Upper network(incluiding JGN‐X)
Virtual Network2Virtual Network2Virtual Network1
CATVPHS3G WiFi ADSLOpt. FiberOpt. Fiber
Remote control Server(SDN/OpenFlow Controler)
Virtual Network for service in emergencyVirtual Network for service in emergency
(1) Providing a virtual network with integrating heterogeneous network
(2)Re‐constructiongnetwork with resources survived from the disaster
Normal serviceEmergency Service
(3)Priority control of data transmission per apps
District center
OpenFlowSwitched bySDN/OpenFlow
TV station
12
SDN Experiment in Tohoku Area (Logical Topology of the Network System)
Disaster Prevention Center
Internet JGN‐X
Server
PHS 3G
Other point
To establish the Robust Network in Emergency Situation, we set 14 access points which are citizen’s refuge from disaster as emergency sites to communicate, and build multiplex circuit such as optical fiber, mobile network and wireless LAN bridge for interconnection of each AP etc..
ShoppingMall
City Hall Welfare Center
In-City Network(Optical Fiber)
WiFi APWiFi AP WiFi AP TV Station
Branch
WiFi AP
Interconnection
District Center
13
Wireless LANbridge
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Regional Information Service Web site in Emergency(under construction)
Emergency In normal/restored situation
Expression of local priority news searched by those keywords related to emergency, e.g. Earthquake / Tsunami / Evacuation / Electoric / Gas / Water
Information and content referred to the web page of local government etc.
Links to the web page of local government and central Government etc.
Emergency Information for Citizen Information for Citizen
14
OpenFlow/RISE Training
15
• During Jan‐Mar 2013, NICT invited 2 trainees from NECTEC/Uninet (Thailand) for OpenFlow Training.
• They successfully finished the training course, and developed a few OpenFlow applications for better understandings.
• NICT will continue the training to its partners.
Snapshots OpenFlow application: Flow control OpenFlow application: Cross-multi-VLANs15
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Upcoming Events
June 12th ‐14th 2013Interop Tokyo 2012 in Chiba / Japan
Aug. 19th – 23th (one day for Workshop)2013 FIT WG Workshop in APAN 36 Daejeon, Korea
Aug. 2013(Planned)APII Workshop in Korea (near day of APAN 36)
16
Thank you for your attention!Network Testbed Research and Development Promotion Center
National Institute of Information and Communications Technology / Japan
Please contact us at: +81‐3‐3272‐3060 jgncenter@jgn‐x.jp