Network convergence : Ethernet applications and next generation packet transport architectures / Vinod Joseph and Srinivas Mulugu.

Format:

Book

Author/Creator:

Joseph, Vinod.

Mulugu, Srinivas, author.

Series:

Gale eBooks

Language:

English

Subjects (All):

Ethernet (Local area network system).

Packet transport networks.

Computer network architectures.

Convergence (Telecommunication).

Internetworking (Telecommunication).

Physical Description:

1 online resource (ix, 585 pages) : illustrations (chiefly color)

Edition:

1st edition

Other Title:

Ethernet applications and next generation packet transport architectures

Place of Publication:

Waltham, MA : Morgan Kaufmann, 2014.

Language Note:

English

System Details:

text file

Summary:

Network Convergence: Ethernet Applications and Next Generation Packet Transport Architectures provides the guidance and solutions you'll need to understand Ethernet and emerging applications such as cloud computing and mobile apps, as well as large-scale retail and business deployments. This reference starts with an overview of the Ethernet and existing broadband architectures, including XDSL, WIMAX, and VLANs. It moves on to cover next-generation networks and mobile architectures, as well as cloud computing. The book also addresses the convergence of optical, Ethernet and IP

Contents:

Front Cover; Network Convergence: Ethernet Applications and Next Generation Packet Transport Architectures; Copyright; Contents; Introduction; Chapter 1: Deploying Ethernet Multi-Point Services Using VPLS; Introduction; Virtual Private LAN Service (VPLS); VPLS Control Plane; BGP-VPLS Control Plane; LDP-VPLS Control Plane; LDP-VPLS and BGP-VPLS Forwarding Planes; Autodiscovery for LDP-VPLS; Autodiscovery for LDP-VPLS - Implementation Details; Characteristics of LDP-VPLS; Use Cases for LDP-VPLS and BGP AD; Full-Mesh VPLS; Mixed FEC 128 and FEC 129 Configurations; H-VPLS Configurations

Hub and Spoke VPLS ConfigurationsLDP-BGP VPLS Interworking; Scaling the VPLS Network; Case Study - Connecting LDP- and BGP-VPLS Metro Domains; Multicast Traffic in VPLS; Selective Trees for Multicast in VPLS; Inter-Provider VPLS; Discovery; Common Inter-AS Procedures; Option A; Option B; Option C; Conclusion; Chapter 2: Understanding Advanced MPLS Layer 3 VPN Services; Introduction; MPLS Layer 3 VPNs; Network Components; Customer Edge (CE) Routers; Provider Edge (PE) Routers; Provider (P) Routers; Operational Model; Sample Network Topology; Control Flow; LSP Establishment; Data Flow

Benefits of BGP/MPLS VPNsChallenges and Solutions; The VPN-IPv4 Address Family; Multiprotocol BGP Extensions; Other Challenges and Solutions; Multiple Forwarding Tables; BGP Extended Community Attributes; Operational Model; BGP/MPLS VPN Topologies; Full-Mesh VPN Topology; Hub and Spoke VPN Topology; Maintaining Updated VPN Routing Information; Backbone B/W and PE Router Packet Processing Resources; Case Study; Distribution of VPN Routing Information; CE Router to Ingress PE Route Distribution; Router PE1; Router PE2; Router PE3; Ingress PE to Egress PE Route Distribution across the Backbone

Ingress PE Route AdvertisementsEgress PE Route Installation; Egress PE Router to CE Route Distribution; Forwarding Customer VPN Traffic across the BGP/MPLS Backbone; Source CE Router to Ingress PE Router Forwarding; Ingress PE Router Forwarding; P Router Forwarding; PE Router to Destination CE Router Forwarding; Actual VPN Forwarding Based on the Case Study; Conclusion; MPLS Layer 3 Inter-AS VPNs; Option A - Back-to-Back VRF Connections; Option B - VPNv4 Routes Distribution between ASBRs; Option C - VPNv4 Route Distribution between RRs; Option B; Test Setup; Option B Inter-AS Operation

VPNv4 Route DistributionNext-Hop-Self Method; Redistribute Connected Subnets Method; Label Switch Path Forwarding; Next-Hop-Self Method; Redistribute Connected Subnets Method; Configuration Analysis; Router PE-200; VPN Routing and Forwarding (VRF) Tables; BGP VPNv4 Table; CEF Table; Label Forwarding Information Base (LFIB); Exporting Routes; ASBRs in AS200; Next-Hop-Self Method; Label Forwarding Information Base (LFIB); Outgoing Tags/Labels; VPNv4 LFIB Entries to Remote AS; VPNv4 LFIB Entries from VRFs in Local PEs; BGP VPNv4 Table; BGP Configuration; ASBRs in AS300

Redistribute Connected Subnets Method

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

Description based on online resource; title from PDF title page (ebrary, viewed October 28, 2013).

ISBN:

9780123978813

0123978815

OCLC:

868597677