1. Pan-European Research Networks: Past, Present & Future Michael Enrico Network Engineering & Planning DANTE Ltd Workshop on “The Internet Protocol & Optical Networking” Grasmere, Cunbria, UK 23-25 September 2002

2. Agenda DANTE in Context Who? What? Where? How? Who pays? History (of pan-Euro backbone R&E Networks) The early days (EuropaNET) TEN-34 & TEN-155 Today The GN1 project and GÉANT Tomorrow What place for Optical Networking?

3. Who is? D elivery of A dvanced N etworking T echnology to E urope

4. Who is? Legal status: “not-for-profit” Limited Company registered in the UK Governance: Board of Directors NREN Policy Committee Started in 1993 Based in Cambridge, UK Currently ~ 22 people (most in Cambridge) Broad European makeup of staff 11 non-UK

5. A Brief History...

6. In the Beginning (pre 1992)... EARN Some links to EARN (BitNet) JANETRENATERDFNGARRRedIRIS NorduNET There were NRENs &... Ad hoc bilateral links

7. EuropaNET (1992) RARE contracted EuropaNET from Unisource Not subsidised by the EC “Competition” with fledgling E-Bone E-Bone later followed the commercial route Some suspicion from commercial providers Would EuropaNET restrict itself to R&E? Typical backbone circuits ~E1 Used Telebit routers Offered a datagram service (X.25, IP & CLNS) Finished in October 1995

8. IBDNS (1995) International Backbone Data Network Service Contracted from BT Used Cisco routers Typical NREN accesses ~few M JANET access was 8M at the end Finished early 1997

9. TEN-34 & TEN-155 (1997-2001) IP Backbone built on managed ATM network DANTE owned (Cisco) routers TEN-34 (Early 1997) Typical backbone circuit ~16M (e.g. London-Paris) Odd 34M circuit in backbone TEN-155 (Late 1998) Started with single ring of STM-1 Finished up with main ring at 4 x STM-1 Typical NREN accesses at STM-1 Finished end of 2001

10. http://www.dante.net/ten-155/ten155net.gif January 2000 Topology

11. TEN-155 Services IP transit service for European NRENs Connectivity to North American R&E Networks Abilene, ESnet & Canarie via DANTE POP in New York DANTE World Service Connectivity to UUnet in NY (by additional subscription) European Commodity Service “Peerings” with InfoNet Managed Bandwidth Service (MBS): end-to-end ATM CBR & UBR PVCs Advanced IP services: e.g. Multicast

12. A pan-European R&E network with a dual remit: To provide production network services to the European R&E community To provide a platform for networking research GN1 Project:

13. Planned & procured during 2001 Switched on Nov/Dec 2001 10 Gbps in 8 locations, 9 circuits 2.5 Gbps in 7 locations, 12 circuits 3 main providers: COLT, T-Systems & Telia Connects 31 NRENs Connectivity to North America: 3 x 2.5Gbps Connects Abilene, Canarie & ESnet GTR(E)N POP in New York

14. GÉANT Topology (Today) PLUS: (not shown) 3 x 2.5G to NY STM-1 to Japan DWS peerings NREN Accesses

15. Generous funding of Research Networks by the EC &... How so BIG?

16. Typical GÉANT POP A single Juniper M160 router (except Frankfurt which needs two!) Ancillary management/monitoring equipment: In-POP (switched) FE & GE LAN Terminal server router (with ISDN & POTS access) Two Sun workstations Housed in 3 or 4 racks or a small suite in (mostly) carrier-neutral datacentres Most POPs in capital city Exceptions: DE (Frankfurt), IT (Milan), CH (Geneva), PL (Poznan)

17. A POP (under construction!)

18. Network Management Service NMS & NOC outsourced to a company in Paris “Second Line” support performed by DANTE Operations team (based in Cambridge) Each NREN has an Access Port Manager (APM)

19. Customer Services on GÉANT (Best effort) IP transit for European NRENs DANTE World Service (chargeable extra) Native Multicast Premium IP L2 VPN (using MPLS)

20. DANTE World Service Commodity IP Transit service for NRENs Chargeable extra Not all NRENs make use of it Some use it as a back-up to their own commodity access 2 providers: Global Crossing & Telia (was KPNQ!) Numerous “peering” points around Europe Each at STM-16 Routing policy: “hot potato” Subscription levels allowed: up to half of access

21. New Services Less than Best Effort (Scavanger) Currently undergoing tests MBS Replacement? Need to be able to provide support for projects (e.g. GRIDs, 6net, testbeds, etc) Could use Premium IP but what about traffic isolation? Could use MPLS L2 VPN but what about BW guarantees?

22. Extending the Reach of GÉANT EUMEDCONNECT Providing IP connectivity to EUMEDIS NRENs Phase 1 (feasibility study) now complete Phase 2 (procurement, implementation & operation) to start shortly Lifetime up to summer 2006 CAESAR Extending IP connectivity to Latin America Still in feasibility stages

23. A Bit about IP Routing IGP is OSPF TE performed via OSPF metrics Plan to migrate to IS-IS (to allow for IPv6 support) EGP is BGP4 Full mesh of iBGP peerings (no Route Reflectors) eBGP peerings with all external peers Multicast extensions (MBGP) Each router maintains a full Internet routing table

24. IP Multicast Service Access to the service: Via primary access port Another possibility is via a GRE tunnel (currently nobody!) Support PIM-SM v2 only 3 Rendezvous Points (RPs) in network Source distribution via MSDP peerings Looking at SSM Operational procedures (rolling out now) Goal: fully supported service as for unicast Plus specific monitoring Troubleshooting Extension of the trouble ticket systems to multicast incidents

25. More information on Multicast Setup http://www.dante.net/nep/GEANT-MULTICAST

26. Premium IP Service Aims to provide international Virtual Leased Line based on DiffServ The Premium IP service is an end-to-end service (site to site) crossing multiple administrative domains Defined on the basis of the DiffServ EF PHB which is required to offer: Bandwidth, low loss, upper bounded delay and jitter

27. Premium IP: VLL Service UK DE NREN Janet DFN AS20965 GÉANT backbone AS786 AS680 A B Regional Network Regional Network SE FR  streams < 5 % of the BW access Rate limitation is applied on the NREN access Premium IP packets are tagged with DSCP code =46. Rate Limitation is applied per aggregate on the NREN’s access, based on the total demanded bandwidth towards the destination. Admission Control is made manually based on the Sum of bandwidth already booked on the destination access.

28. The Optical Networking bit...

29. GÉANT’s Optical Networking Today DANTE does not operate it’s own transmission infrastructure GÉANT Connectivity: International Leased Lines Unprotected SDH circuits for 622M or less Unprotected “lambdas” for 2.5G and 10G Often 2.5G “lambdas” are really SDH circuits “White light” (G.957/691) “Thin SDH” interfaces Use SR or IR POS interfaces on routers

30. GÉANT’s Optical Networking Tomorrow? Two drivers: Support for higher bandwidths: what happens when NRENs start to subscribe to 10G? Support for projects/user groups: how do we extract arbitrary bandwidth “channels” from 2.5/10/40G core circuits?

31. Support for Higher Bandwidths Will router vendors offer 40G interfaces (soon)? Next generation “40G capable” What will be the form of these interfaces? STM-256 on white light? Will xWDM interfaces become incorporated into routers? Already appearing in SDH switches Does this help us at all? Will operators offer coloured interfaces?

32. Support for Projects/User Groups Just use Layer 3 Techniques? (some say yes!) Simplify L2 Use 40G if possible Are the routers really up to it (2.5G or 10G tunnels?) Operator Network

33. Add L2 switch/mux capability ourselves? Support for Projects/User Groups Keep POS i/f STM-n Channelized mode POS STM-n i/f STM-m(<n) Operator Network

34. Add L1 capability ourselves? Offer BoD? (some say no - leave it to operators!) Evolution of GÉANT? Operator Network Light channel, λ bundle or even managed fibre? Nature of i/f?

35. Optical Testbed Possibilities Some European NRENs now have access to dark fibre: CESNET (Czech Republic) PSNC (Poland) SWITCH (Switzerland) PSNC has been trying out Alcatel DWDM equipment

36. Optical Testbeds

37. Optical Testbed Possibilities II ASTON Project EoI (FP6): A Step Towards the provision of Optical Networking Has come out of TF-NGN activity on optical networks Information gathering, knowledge distribution Find partners to do Europe-wide testing of technologies & methodologies Create feedback loops with manufacturers & providers Results used for engineering new network architectures & provisioning models

38. Conclusions Research Networking Community has High Demands Early Adopters Some European NRENs are starting to do their own transmission Probably not going to happen on pan-European scale (at least for foreseeable future) However, feeling is that GÉANT and European NRENs will go more optical… …we’re just not quite sure how!

39. Thank You & Questions?