Transcript TNC-2001
GRNET2 Designing The Optical Internet of Greece: A case study Magda Chatzaki Dimitrios K. Kalogeras Nassos Papakostas Stelios Sartzetakis May 2001 GRNET Structure • Current Status • Basic Design Principles for GRNET2 • Implementation Considerations of the 2-layer Architecture for GRNET2 • Implementation Plan May 2001 GRNET Current Status • Fairly homogeneous infrastructure – c75xx, Fore ASX-200BX • • • • IP over ATM over SDH Technological limits (SAR limits) No Qos, no service differentiation Inefficient capacity allocation and bandwidth management mechanisms • No IP VPNs May 2001 GRNET Basic Design Principles for GRNET2 • optical transmission – Fiber lease or λ provisioning • λ creation through management system • Minimization of overlay technologies • link layer protocol consideration PoS (without Sonet layers), GigE, SRP May 2001 GRNET Two Layer Architecture • Overview of the existing high speed NRN network upgrades (Canet3, Abilene) • Backbone and access network • Backbone capacity = w * Σ access capacity Traffic Concentrator Area D GigaPoP Area A Backbone Network GigaPoP Area B GigaPoP Area C May 2001 GRNET Design, Dimensioning and QoS Provisioning • • • • Suboptimal path selection with existing network routing protocols IP traffic engineering - Native MPLS (VPN, TE) No clear results based on aggregation of access traffic characteristics Results: 1. Overprovisioning 2. QoS May 2001 GRNET Support of QoS Differentiation • QoS and CoS differentiation at layer 3 (i.e. IP QoS) • traffic identification, classification and policing on IP layer • Vendor specific or independent (WFQ, WRR, RED or WRED ) • End-to-End architecture (virtual wire ?) • Min. Guarantee for BW, packet loss (delay ?) May 2001 GRNET Support of QoS – cont. • regulatory infrastructure (DEN ?) • administrative mechanisms for access regulation of network resources based on categories such as users, hosts, applications, accounts, etc. May 2001 GRNET Internet connectivity • Downstream congestion on the international lines • Bandwidth management mechanism to its customers according to a predefined policy May 2001 GRNET Advanced services • IPv6 (desired) • VPN service on λ • provisioning and management of guaranteed BW between the access points and the backbone network • Large scale conference May 2001 GRNET GigaPoPs and Physical Layer • GigaPoP: a distributed switching and routing infrastructure • DWDM with PoS encapsulation for WAN and GigE for MAN – N x 2.5 Gbps speeds – Gigapop in three cities • A Gigabit Ethernet switch for providing high speed in the access network May 2001 GRNET Core – Access Arch. (WAN layout) Xanthi Thessaloniki Ioannina Larissa Athens Patra N x 2.5 Gbps PoS N x 622 Mbps / 2.5 Gbps PoS N x 622 Mbps / 2.5 Gbps PoS (backup) May 2001 Crete GRNET GigaPoP General Layout GigaPoP WDM Access Gigabit Ethernet ADM switch WDM ADM WAN / MAN Backbone Network Access ATM Switch Gigabit Router LSR Access Router Gigabit Ethernet ΑΤΜ / OC-3 Optical Wavelength Optical Wavelength Optical Wavelength Optical Wavelength WAN / MAN Router WDM ADM May 2001 Gigabit Ethernet Switch Customer Network GRNET Distributed Gigapop (MAN) Customer network access router Gigabit Ethernet switch GR-Net access router (MPLS PE) DWDM ADM WAN GR-Net May 2001 GR-Net access router (MPLS PE) Gigabit Router (MPLS P) Other networks' administrative domains OTE administrative domain GRNET MAN characteristics • Ring topology • access of customer networks = GigE • Protected Access (e.g. IEEE 802.1d spanning – tree) • VPN services to its customers = separate optical paths in a mesh or ring topology • MAN infrastructure (GigE Switch, Router+GigE) May 2001 GRNET MANs MAN core network GRNET2 router (MPLS PE router) access network customer router GRNET2 access switch customer switch May 2001 customer network GRNET ATHENS MAN Physical topology N3 N2 Athens' MAN Northern Ring N1 GRNET2 Central Node S1 Athens' MAN Southern Ring S4 S2 S3 Node of the GRNET2 Athens' MAN core network GRNET2 customer access node May 2001 Unprotected GRNET2 Athens' MAN core network GRNET2 customer unprotected VPN GRNET2 customer protected access GRNET Athens GRNET GigaPoP Athens GigaPoP GRNET GRNET GRNET GRNET GRNET GRNET GRNET GRNET GigE Switch Access Router Core Router May 2001 GRNET Athens MAN WDM network (1) λ Service Provider building/ WDM equipment May 2001 GRNET IP Equipment GRNET Customers’ Equipment (Universities, Research Institutes) GRNET Athens MAN Requirements (1) • Mandatory/Desirable requirements • Fiber infrastructure – >= G.652 (Dispersion Un-shifted Fiber) – Testing tools for optical parameters’ measurement – 2 optical paths for each access node – avoid Single Points of Failure – Access node distance from WDM core < 10 km – Support for 15 Access Nodes May 2001 GRNET Athens MAN Requirements (2) • WDM Networking equipment – – – – – – – – – May 2001 Frame+bit-rate independent all-optical λ service Co-location of GRNET IP equipment with WDM 2,5 Gbps physical ring upgradable to 10 Gbps Wavelength Adaptation capable (via transponders) Spare λ for testing purposes Embedded system upgradeable Multiple frames in a single wavelength (D) Optical switching/conversion (D) Support of “Digital Wrapper” (D) GRNET Athens MAN WDM network (2) • Core WDM Network composed of a ring of reconfigurable OADMs – 80 km optical ring with 10 OADMs (no regeneration) – 2,5 Gbps ports (upgradeable to 10Gbps) – 1-32 λ per node – 100 Ghz spacing – Add/drop up to • 160 Gbs (upgradeable to 640 Gbps) – Tx/Rx Line - up to • 80 Gbps East (upgradeable to 320 Gbs East) • 80 Gbs West (upgradeable to 320 Gbs East) May 2001 GRNET Athens MAN WDM network (3) – Multi rate (up to 2,5 Gbps) 3R Transponders supporting Gigabit Ethernet, SDH frames, ATM etc. including 24 Transponder Shelf – Offers OCh SNC protection – will not be used by GRNET – Network Management System – Access to the NMS is negotiable • Configuration Management – End-to-end OCh SNC provisioning • Fault Management – Alarm Reporting/Filtering • Performance Management – Client layer monitoring – Future upgrade will support Digital Wrapper May 2001 GRNET IP CoS implementation • Min. Guaranteed capacity service (IP +) • Voice over IP service • Internet connectivity capacity management service • Number of Classes not yet resolved May 2001 GRNET Implementation Plan • Study phase end by Q2 2001 • Infrastructure RFP by Q3 2001 • λ provisioning starting by Q4 2001 • Cost 30 M Euros 75 % by EU , 25 by National sources May 2001 GRNET Thank You! May 2001 GRNET