Borrow Mpls Fundamentals
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MPLS Fundamentals
A comprehensive introduction to all facets of MPLS theory and practice Helps networking professionals choose the suitable MPLS application and design for their network Provides MPLS theory and relates to basic IOS configuration examples The Fundamentals Series from Cisco Press launches the basis to readers for understanding the purpose, application, and management of technologies MPLS has emerged as the new networking layer for service providers throughout the world. For many service providers and enterprises MPLS is a way of delivering new applications on their IP networks, while consolidating data and voice networks. MPLS has grown to be the new default network layer for service providers and is finding its way into enterprise networks as well. This book focuses on the building blocks of MPLS (architecture, forwarding packets, LDP, MPLS and QoS, CEF, etc.). This book also reviews the different MPLS applications (MPLS VPN, MPLS Traffic Engineering, Carrying IPv6 over MPLS, AToM, VPLS, MPLS OAM etc.). You will get a comprehensive overview of all the aspects of MPLS, including the building blocks, its applications, troubleshooting and a perspective on the future of MPLS.
Designing and Implementing IP/MPLS-Based Ethernet Layer 2 VPN Services
A guide to designing and implementing VPLS services over an IP/MPLS switched service provider backbone 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. Items Covered: Building Converged Service Networks with IP/MPLS VPN Technology IP/MPLS VPN Multi-Service Network Overview Using MPLS Label Switched Paths as Service Transport Tunnels Routing Protocol Traffi c Engineering and CSPF RSVP-TE Protocol MPLS Resiliency — Secondary LSP MPLS Resiliency — RSVP-TE LSP Fast Reroute Label Distribution Protocol IP/MPLS VPN Service Routing Architecture Virtual Leased Line Services Virtual Private LAN Service Hierarchical VPLS High Availability in an IP/MPLS VPN Network VLL Service Resiliency VPLS Service Resiliency VPLS BGP Auto-Discovery PBB-VPLS OAM in a VPLS Service Network
Virtual Private LAN Service Fundamentals
"Virtual Private LAN Service Fundamentals" is a comprehensive guide that unravels the complexities of VPLS, a cornerstone technology for modern, scalable Layer 2 VPN solutions. Beginning with an insightful overview that traces VPLS’s origins, historical context, and the pivotal role it plays among Layer 2 VPN architectures, the book establishes a solid conceptual foundation. It examines industry standards, regulatory considerations, and real-world enterprise, data center, and service provider use cases—arming readers with the knowledge required to understand both the relevance and deployment drivers behind VPLS. As the chapters progress, the book delves into the architectural design and underpinning protocols that make VPLS robust and extensible. Detailed explorations cover network topologies, core device roles, control and data plane protocols, automated management tools, and strategies for scaling and maintaining high availability. Through clear explanations of MAC learning, loop prevention, pseudowire operation, and advanced troubleshooting, the book offers both practical and theoretical insights for engineering resilient and efficient VPLS networks.