Ch. 1. Building Converged Service Networks with IP/MPlS VPN Technology -- Ch. 2. IP/MPlS VPN Multi-Service Network Overview -- Ch. 3. Using MPlS label Switched Paths as Service Transport Tunnels -- Ch. 4. Routing Protocol Traffic Engineering and CSPF -- Ch. 5. RSVP-TE Protocol -- Ch. 6. MPLS Resiliency -- Secondary LSP -- Ch. 7. MPLS Resiliency -- RSVP-TE LSP Fast Reroute -- Ch. 8. Label Distribution Protocol -- Ch. 9. IP/MPLS VPN Service Routing Architecture -- Ch. 10. Virtual Leased Line Services -- Ch. 11. Virtual Private LAN Service -- Ch. 12. Hierarchical VPLS -- Ch. 13. High Availability in an IP/MPLS VPN Network -- Ch. 14. VLL Service Resiliency -- Ch. 15. VPLS Service Resiliency -- Ch. 16. VPLS BGP Auto-Discovery -- Ch. 17. PBB-VPlS -- Ch. 18. OAM ina VPlS Service Network -- Appendix A. Spanning Tree Protocol -- Appendix B. RFC and IEEE Standards.
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"Today's communication providers are looking for convenience, simplicity, and flexible bandwidth across wide area networks-but with the quality of service and control that is critical for business networking applications like video, voice and data. Carrier Ethernet VPN services based on VPLS makes this a reality. Virtual Private LAN Service (VPLS) is a pseudowire (PW) based, multipoint-to-multipoint layer 2 Ethernet VPN service provided by services providers By deploying a VPLS service to customers, the operator can focus on providing high throughput, highly available Ethernet bridging services and leave the layer 3 routing decision up to the customer. Virtual Private LAN Services (VPLS) is quickly becoming the number one choice for many enterprises and service providers to deploy data communication networks. Alcatel-Lucent VPLS solution enables service providers to offer enterprise customers the operational cost benefits of Ethernet with the predictable QoS characteristics of MPLS"--Resource description page.
Safari Books Online
CL0500000064
Designing and implementing IP/MPLS-based Ethernet Layer 2 VPN services.