http://www.ist-mupbed.org/
Multi-Partner European Test Beds for Research Networking
Research Network InfrastructureProject “MUPBED”: Update andRecent Results
Mauro Campanella
With support from MUPBED partners
20th TF-NGN MeetingJanuary 13th, Cambridge
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AgendaResearch Network Infrastructure Project MUPBED
IST project MUPBED: overview Current Architecture MUPBED recent results Summary
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MUPBED Goals and Objectives
integrate and validate “telecommunication operator’s concepts” withinresearch networking infrastructure
on-demand circuit switching techniques in particular ASON/GMPLS control plane technologies
consider a multi-domain, multi-layer “real world” environment identify service/network requirements of high-end applications for
European research environments and develop appropriate solutions create a European scale experimental environment to assess and
prove the developed solutions develop guidelines for the introduction of ASON/GMPLS technologies
and ultra-broadband services in future European networks (includingresearch networks)
(note: here the term “ASON” covers multiple transport technologies, such as WDM, OTH, SDHalso frequently used is the term “ASTN” in this context; acronyms: see last slide)
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MUPBED Consortium Equipment Manufacturers
Marconi ONDATA (Germany); Project Co-ordinator Marconi SpA (Italy) Juniper Networks (Ireland)
Network Operators Telecom Italia – TILAB (Italy) Deutsche Telekom - T-Systems (Germany) Telefonica I+D (Spain) Magyar Telekom (Hungary)
Research Centres ACREO (Sweden) TU Denmark (Denmark) CSP - Innovazione nelle ICT s.c. a r.l. (Italy) CoreCom (Italy) University of Erlangen-Nuremberg (Germany) DFN-Verein (Germany) GARR (Italy) RedIRIS/Red.es (Spain) PSNC (Poland)
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GÉANT
GARR
TID TB
RedIRIS
DFN
DTU
user community
TID
FAU
CSP
TILAB
T-Systems
xyz Academic
xyz Private R&D
Acreo
CoreCom
Southern Europetest bed
Central Europetest bed
Northern Europetest bed
Western Europetest bed
NORDUnet
PIONIER
Eastern Europetest bed
Acreo TB
IP + ASON/GMPLS
IP + WDM
IP + WDM + 10GE
IP + 10GE
PSNC
Labs
Networks
user community
usercommunit
y
UPC
IP/MPLS
usercommunit
y
T-SystemsTB
TILAB TB
Layout of MUPBED NetworkLayout of MUPBED Network
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MUPBED Architecture Framework
Data Plane
IP/MPLS
SDH OTH Lambda Fibre
EthernetEthernet
IP/MPLSPacketlayer
Circuitlayer
MUPBED multi-service transport network
Application Plane
HQvideo
videoconf
content/storage GRID
Control Plane
GMPLS Peer-to-Peer ApproachOverlay approach Packet Layer CPCircuit Layer CP
ControlPlane
Mngmnt
DataPlane
Mngmnt
MngmntPlane
Application-Network Interface
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Interoperability Areas within the MUPBED Network
ASON/GMPLS
IP/MPLS
Interaction betweenApplications and
Network
Interoperability between Network Domains
Network Domain 1
ASON
IP/MPLS
Network Domain 2
GMPLS
IP/MPLS
Network Domain N
Applicationplatforms
End-users/Applications
MultiserviceNetwork
Interworking between IP/MPLS
and ASON/GMPLS
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Relevance of MUPBED for NRENs
convergence of “telecom operator” and NREN solutions network architecture work, selected theoretical investigations leading edge control plane solutions:
focus on ASON approach, including multi-domain inter-working driving standardisation
work on “application – network” inter-working : dedicated MUPBED Work Package (WP 2) applications (requirements, selected trials in test bed) user groups (within and outside the MUPBED consortium) modelling and simulations application network interface (translation of requirements to network
parameters, triggering of resource allocations, …) extended field trials for selected solutions: set-up and operation of
European scale test bed
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AgendaResearch Network Infrastructure Project MUPBED
IST project MUPBED: overview Current Architecture MUPBED recent results Summary
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MUPBED Test BedInterconnection based IP-MPLS on NREN-GÉANT and GbE access links
Northern Europetest bed
Central Europetest bed
Western Europetest bed
Southern Europetest bed
Eastern Europetest bed
DFN
PIONIERNORDUnet
RedIRIS
GARR
DTU
FAU
CSP
GEANT
ACREO
Telefonica I+D
TITILAB
T-SystemsDT
PSNC
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Test Bed Interconnections: LSPs and VLANs
Example for realisation in one test bed:
TB #1
GE
LSPs inGEANT
TB #2
TB #3
TB #4 ASP #x
Test bed #5
LSPs in NRENsnetwork
VLANsaccess
link
TB: Test bedASP: Application service provider
LSP VLAN
router router router switch
LSPEthernet flow
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Test Bed – Logical Configuration Target
target: full mesh betweentest beds
currently: all links areEthernet point-to-point(with GigE interfaces on bothends)
some of themmight become infuture Layer 1 links
all switching done INSIDElocal test beds
DTU
FAU
CSP
ACREO
Telefonica I+D
TITILAB
T-SystemsDT
PSNC
Marconi MSH64cVC-4 XC
All LR
S1
S3
S13
-P1
S11
-P4
S13
-P2
VC-4 XCAll IO
S1-
P1
S1- P2
S1-
P3
S3
S13
S2
S4 VC-4 XCAll IO
S1-
P1
S1- P2
S1-
P3
S1-
P4
S13
-P3
Marconi MSH64c
Marconi MSH2K
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Marconi MSH64c
= STM-64= GE/SX
VC-4 XC
S10 -P
1S1
0 -P2
S10 -P
3
S10 -P
4All LR
S11-P1S11-P2S11-P3
S13 -P4
= STM-16
S13-P
1
S11-
P4
S13-P
2
Marconi MSH64cVC-4 XC
All LR
S1-P3S1-P2
S1-P4
S5
S10-P
1
S10-P
2
S10-P3
S10-P4
S2
Video
= GE/LX
GE
Videoapplication
FAU
PSNCMarconi MSH2k
VC-4 XCAll LR
S1-P
1
S1-P
3
S1-P
4
S11- P
1
S11-P
2
S11 -P
3
S11- P
16
= STM-1
M2MSH64c
UNI–IP (Client#2)
= STM-64= GE/SX
10.131.12.9
S10 -P
1S1
0 -P2
S10 -P
3
S10 -P
4All LR
S11-P1S11-P2S11-P3
-P4
S1
S3
= STM-16
S13-
S13-P3
- -
M3 MSH64c
-10.131.12.7All LR
S1-S1-
S1-P2
S1-P4S3
S5
S10-P
1
STM64 ring: Col.1, tem 200 for each LKSTM-16 ring: Col 2, tem 100 for each LK
-P2
S10-P3
S10-P4
S2
S4
E-NNI(TN#1)
I-NNI
VideoE-NNI(TN#2)
= GE/LX
GE
Videoapplication
E-NNI TILAB (only signaling)
FAU
E-NNI ACREO
PSNC
E-NNI VIOLA
M1 MSH2k
All LR
S1-P
1
S1-
S1-P
4
S1-P
1
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Test Bed – Detailed View of Berlin Network
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AgendaResearch Network Infrastructure Project MUPBED
IST project MUPBED: overview Current Architecture MUPBED recent results
UNI-C 2.0 Ethernet E-NNI NOBEL-MUPBED Workshop Other Events
Summary
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MUPBED Test : UNI-C 2.0 Ethernet and E-NNIInter-domain interworking: Requirements
UNI-C 2.0 Ethernet interface availability: easy availability and access of this UNI-C function is mandatory for
accelerating the deployment of customer controlled Ethernet servicesover SDH networks
requirements for broad acceptance: (publicly) available and easy to implement easy to use for those envisaged (network) clients, for which the
complexity of network operation shall be hiddenInterworking between ASON-GMPLS network domains seamless interworking between domains following different
architectures required by network operators pragmatic solutions needed first implementations reported standardisation progress needed
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MUPBED Test Bed Inter-domain interfaces:
To realize interworking functions among these local test beds,inter-domain signaling/routing interfaces are strongly needed
First succesful recent test:inter-test bed / inter-domain interface implementation Virtual E-NNI between Torino/TILAB – Berlin/DT seamless interworking of both UNI types UNI1.0R2 and UNI2.0
Ethernet with E-NNI could be demonstrated Second succesful recent test:
UNI-C 2.0 Ethernet implementation switched connection between TILAB and DT: Avici/TI -
Marconi#1/TI - Marconi#2/TI - Cisco/DT (more than 1000 Km) Data plane: MUPBED’s Layer 2 connection Control plane: IPSEC tunnel over public Internet
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(Virtual) Inter-domain connection based on E-NNI
Northern Europetest bed
Central Europetest bed
Western Europetest bed
Southern Europetest bed
Eastern Europetest bed
DFN
PIONIERNORDUnet
RedIRIS
GARR
DTU
FAU
CSP
GEANT
ACREO
Telefonica I+D
TITILAB
T-SystemsDT
PSNC
Control Plane
E-NNI(Ssh tunnel out-of band)
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Test of UNI2.0 Ethernet
Northern Europetest bed
Central Europetest bed
Western Europetest bed
Southern Europetest bed
Eastern Europetest bed
DFN
PIONIERNORDUnet
RedIRIS
GARR
DTU
FAU
CSP
GEANT
ACREO
Telefonica I+D
TITILAB
T-SystemsDT
PSNC
Data Plane
Control Plane
UNI 2.0 Ethernet
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ClearPond Topology View
UNI2.0 Ethernet, TILAB - DT
UNI2.0 Ethernet E-NNI
UNI2.0 EthernetUNI2.0 Ethernet
E-NNI
Local SCBerlin
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Benefits for the GEANT2 – NREN Network Scenario fromthe MUPBED Architecture Approach
GEANT2 – NREN/ IST-Projectsinterworking scenario
GEANT2TILAB
GEANT2DT
E-NNI SDH
NREN#1TID (IP)
NREN#3Acreo (IP)
NREN#2PSNC (Eth.)
UNI2.0 Ethernet
GEGEGEUNI2.0
Ethernet
XCXC XCXC
NREN #2IP
NREN #2IPNREN #1
IPNREN #1
IP
GEANT 2
SDH or OTN NREN #3Ethernet
NREN #4Ethernet
UNI UNI
UNI UNI
STM-xx STM-xx
GE/10GE GE/10GE
E-NNISTM-xx
To other network domains
MUPBED network domaininterworking scenario
Seamless interworking of network domains could be achieved,while maintaining the individual architecture and technologyapproach of each domain
UNI Ethernet E-NNI
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MUPBED-NOBEL Joint Workshop
MUPBED-NOBEL Joint Workshop has beenheld in Torino, November 22-23, 2005
Useful interaction with NRENs and GÉANT
See http://www.ist-mupbed.org/Joint-NOBEL.html
In addition to a full agenda of recent results from both projects,(presentations are available on the web pages) importanttechnical demos took place.
It’s worth noting that one of the demo showed that the MUPBEDtestbed can transport flawlessly uncompressed video transport at400 Mb/s.
Next generation Optical Networks for Broadband European Leadership
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HQ uncompressed video transmission – Requirements
For remotestudio withonline editing
Delay < 150 ms Each camera:
BW: 300-600Mbit/s
Jitter should below (< 1ms)
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Uncompressed Video Demo
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Uncompressed Video Demo
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Uncompressed Video Demo
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Uncompressed Video Demo: Monitoring
Demo: 400 Mb/s for more than 2 Days
LSPs Monitoringby GARR (mrtg)
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MUPBED: Other Events
MUPBED parteicipated to the Second Concertation Workshop oneInfrastructure, 14 December 2005, Bordeaux, France
Live demonstration; participation at eInfrastructure
http://www.geant2.net/server/show/ConWebDoc.1631
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MUPBED: Latest News (13 Jan 2006)
Date: Fri, 13 Jan 2006 13:45:55 +0100From: Tove Madsen (ACREO)To: [email protected]: [MUP-ga] first result Acreo - PSNC
Dear Partners,The initial goal of the Acreo - PSNC GMPLS effort has beenacheived. An GMPLS UNI LSP has been successfullyestablished between us over the existing MUPBED infrastructure.Thanks to Tomasz and Anders!
best regards Tove
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AgendaResearch Network Infrastructure Project MUPBED
IST project MUPBED: overview Current Architecture MUPBED recent results Summary
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Summary and Conclusions
IST project MUPBED: reflects the current and assumed future heterogeneous (research)
network environment in Europe and worldwide is a European scale test network, based on multiple network domains
with different architectures, technologies and functions assesses the main ‘horizontal’ and ‘vertical’ interworking areas aims at pragmatic solutions for inter-working
Progress in standardisation on-going
MUPBED continuously aims at establishing and maintaininga close co-operation to NRENs / GN2
mutual exchange of achievements / issues / work plans, especially GN2-JRA3 - Exchange of deliverables and documentation, also with NOBEL
open for further discussions
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Further Information
http://www.ist-mupbed.org Deliverable are public and available on request
Workshop: http://www.ist-mupbed.org/Joint-NOBEL.html
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Further Information: www.ist-mupbed.org
Marconi CommunicationsGmbH
Gerberstraße 33D-71522 Backnang
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www.marconi.de
Phone +49 (0) 7191 13-2427Mobile +49 (0) 171 379 6503Fax +49 (0) 7191 13-62427E-Mail [email protected]
Jan SpäthDirector Network Evolution