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Deploying Next Generation Multicast-enabled Applications: Label Switched Multicast for MPLS VPNs, VPLS, and Wholesale Ethernet [Pehme köide]

3.00/5 (2 hinnangut Goodreads-ist)
(Juniper, UK), (Hyderabad, India)
  • Formaat: Paperback / softback, 560 pages, kõrgus x laius: 235x191 mm, kaal: 850 g
  • Ilmumisaeg: 20-Aug-2011
  • Kirjastus: Morgan Kaufmann Publishers In
  • ISBN-10: 0123849233
  • ISBN-13: 9780123849236
Teised raamatud teemal:
Deploying Next Generation Multicast-enabled Applications: Label Switched Multicast for MPLS VPNs, VPLS, and Wholesale EthernetSuurem pilt
  • Formaat: Paperback / softback, 560 pages, kõrgus x laius: 235x191 mm, kaal: 850 g
  • Ilmumisaeg: 20-Aug-2011
  • Kirjastus: Morgan Kaufmann Publishers In
  • ISBN-10: 0123849233
  • ISBN-13: 9780123849236
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780123849236.html
Märksõnad:
Deploying Next Generation Multicast-Enabled Applications: Label Switched Multicast for MPLS VPNs, VPLS, and Wholesale Ethernet provides a comprehensive discussion of Multicast and MVPN standardsnext-generation Multicast-based standards, Multicast Applications, and case studies with detailed configurations. Focusing on three vendorsJuniper, Cisco, and Alcatel-Lucentthe text features illustrations that contain configurations of JUNOS, TiMOS (Alcatels OS), or Cisco IOS, and each configuration is explained in great detail. Multiple- rather than single-vendor configurations were selected for the sake of diversity as well as to highlight the direction in which the overall industry is going rather than that of a specific vendor. Beginning with a discussion of the building blocks or basics of IP Multicast, the book then details applications and emerging trends, including vendor adoptions, as well as the future of Multicast.

The book is written for engineers, technical managers, and visionaries engaged in the development of next-generation IP Multicast infrastructures.

Arvustused

"The content of this book is influenced by the authors personal rich experience in networking industry. As a result, the book includes numerous practical examples, code snippets and console outputs illustrating various aspects of multicasting. Moreover, Joseph and Mulugu provide plenty of diagrams and charts to visually demonstrate how data is being sent through the network. Consequently, the reader can quite easily explore complex topics of next generation multicasting introduced in the book I recommend this book to network professionals (designers and architects, as well as system administrators) involved in planning and maintaining of multicast-enabled networks, as well as network visionaries, technical sales professionals, as well as architects and programmers working on designing and deploying of video related applications." --IEEE Communications Magazine

Muu info

The definitive guide for implementing the Next Gen Multicast Network model of deploying streaming media, IPTV, VPN, and other content distribution applications.
Acknowledgements xiii
Chapter 1 Overview of IP Multicast
1(32)
1.1 Introduction
1(29)
1.1.1 Overview of IP Multicast
1(3)
1.1.2 Multicast Addressing
4(6)
1.1.3 Internet Group Management Protocol
10(2)
1.1.4 Protocol Independent Multicast
12(12)
1.1.5 Multicast Admission Control Mechanisms
24(6)
1.2 Guidelines On Addresses Allocations
30(1)
1.3 Conclusion
31(2)
Chapter 2 Draft-Rosen Multicast Virtual Private Networks
33(120)
2.1 Introduction
33(1)
2.2 Draft-Rosen Virtual Private Network Multicast
33(118)
2.2.1 Unicast VPNs
33(27)
2.2.2 Multicast VPNs
60(91)
2.3 Summary
151(2)
Chapter 3 Next Generation Multicast VPNs
153(158)
3.1 Introduction
153(1)
3.1.1 Draft Rosen Limitations
153(1)
3.2 Next-Generation Multicast VPNs
154(2)
3.2.1 Terminology
155(1)
3.3 NG-MVPN Control Plane
156(15)
3.3.1 Ingress and Egress PE Routers
157(1)
3.3.2 Provider Multicast Service Interface
157(2)
3.3.3 BGP MVPN Routes
159(12)
3.4 NG-MVPN Data Plane---Provider Tunnels
171(139)
3.4.1 Point-to-multipoint LSPs
171(1)
3.4.2 MVPN Routing Tables in JUNOS
172(1)
3.4.3 RSVP-TE Provider Tunnels
172(76)
3.4.4 MLDP Provider Tunnels
248(5)
3.4.5 PIM-SSM Provider Tunnels
253(20)
3.4.6 PIM-SM Provider Tunnels
273(11)
3.4.7 Migration from Draft-Rosen to NG-MVPNs
284(11)
3.4.8 NG-MVPN Extranets
295(5)
3.4.9 Provider Router Configuration
300(1)
3.4.10 NG-MVPN---IPv6
301(4)
3.4.11 Internet Multicast Using Next-Gen BGP Control Plane
305(3)
3.4.12 Considerations for Deploying Broadcast Video/IPTV
308(1)
3.4.13 Vendor Support for the NG-MVPN Framework
309(1)
3.5 Summary
310(1)
Chapter 4 Next Generation Multicast VPNs on Alcatel-Lucent (TiMOS)
311(12)
4.1 Introduction
311(1)
4.2 Beginning of NG-MVPN Support on ALU
311(9)
4.2.1 Provider Common Configuration
312(1)
4.2.2 PE Global Configuration
312(4)
4.2.3 PE VPRN (VPN) Configuration
316(1)
4.2.4 S-PMSI Configuration
317(3)
4.3 Full-Fledged NG-MVPN Support on ALU (Rel 8.0)
320(1)
4.4 NG-MVPN Using PIM-SSM as the P-Tunnel
320(1)
4.5 NG-MVPN Using RSVP-TE P2MP LSP as the P-Tunnel
320(1)
4.6 Summary
321(2)
Chapter 5 Internet Multicast and Multicast VPNs Based on MLDP In-Band Signaling
323(58)
5.1 Introduction
323(1)
5.1.1 Terminology
323(1)
5.2 Multicast LDP In-Band Signaling
324(25)
5.2.1 MLDP signaling
324(2)
5.2.2 FEC Elements
326(6)
5.2.3 Point-to-Multipoint LSPs
332(2)
5.2.4 Multipoint-to-Multipoint LSPs
334(6)
5.2.5 Root Node Redundancy
340(3)
5.2.6 LSP Virtual Interfaces
343(1)
5.2.7 MLDP Commands
344(5)
5.3 MLDP Configuration Examples
349(31)
5.3.1 Reference Network
350(1)
5.3.2 Enabling MLDP
351(1)
5.3.3 MLDP Capabilities
351(1)
5.3.4 MLDP Database
352(1)
5.3.5 PIM-SSM Transit Application
353(7)
5.3.6 Multicast VPN Application
360(20)
5.4 Summary
380(1)
Chapter 6 Applications: IPTV
381(26)
6.1 Introduction
381(1)
6.2 IPTV Standards
382(2)
6.2.1 ITU-T
383(1)
6.2.2 Broadband Forum
384(1)
6.2.3 ETSI TISPAN
384(1)
6.2.4 Other Organizations Influencing IPTV Evolution
384(1)
6.3 NGN Reference Architecture
384(3)
6.3.1 Network Interface Definitions
385(1)
6.3.2 Services, Transport, and Management Functions
386(1)
6.4 IPTV Reference Architecture Framework
387(2)
6.4.1 Network Function in the IPTV Reference Architecture
389(1)
6.5 Access Networks for IPTV
389(5)
6.5.1 xDSL in the Access
389(3)
6.5.2 Source Specific Multicast
392(1)
6.5.3 IGMPv3
392(1)
6.5.4 SSM and IGMPv3: Initial Join in IPTV Network
392(1)
6.5.5 SSM and IGMPv3: Channel Zap
393(1)
6.5.6 IGMP Snooping
394(1)
6.6 Network Design Considerations for IPTV
394(12)
6.6.1 Bandwidth Requirement for IPTV
396(1)
6.6.2 IPv4 Address Usage Guidelines
397(1)
6.6.3 GLOP Addressing
398(1)
6.6.4 IPv6 Multicast Address Allocation
399(1)
6.6.5 VLAN Design
400(1)
6.6.6 QoS and QoE
401(4)
6.6.7 Network Characteristics
405(1)
6.7 Conclusion
406(1)
Chapter 7 Multicast for VPLS and Carrier Ethernet Networks
407(72)
7.1 Introduction
407(1)
7.2 Virtual Private LAN Service AKA VPLS
407(70)
7.2.1 VPLS Control Plane
411(13)
7.2.2 Characteristics of LDP VPLS
424(3)
7.2.3 Use Cases for LDP-VPLS and BGP AD
427(23)
7.2.4 H-VPLS---Point to Remember
450(1)
7.2.5 LDP-BGP VPLS Interworking
450(12)
7.2.6 Multicast Traffic in VPLS
462(4)
7.2.7 Multicast in a Wholesale Model
466(11)
7.3 Summary
477(2)
Chapter 8 Mobile Video Multicast
479(10)
8.1 Introduction
479(1)
8.2 Multimedia Broadcast Multicast Service
479(4)
8.3 DVB-H
483(1)
8.4 Multicast Listener Discovery Version 2 (MLDv2)
484(1)
8.5 Multicast Mobility
485(3)
8.5.1 Receiver Mobility
485(2)
8.5.2 Source Mobility
487(1)
8.6 Conclusion
488(1)
Chapter 9 Summary
489(4)
9.1 Future Enhancements
489(3)
9.2 Conclusion
492(1)
References 493(2)
Index 495
works with Juniper Network as a Technical Leader within the Juniper Professional Services Organization. He is based in the UK and works with large Service Providers and customers with focus on the key areas of Network transformation, Multicast, QoS, Carrier Ethernet, Vendor Interoperability and Next Generation services. Prior to joining Juniper, Vinod worked as a Senior Network Consulting Engineer within Ciscos World Wide Service Provider organization providing architectural design and service support to customers in the Asia Pacific and EMEA markets. This responsibility includes the planning and design of large network architectures, together with guiding deployment and providing operational advice. He has over 16 years of experience in IP networking, and built some of the largest IP/MPLS carrier networks in the EMEA, APAC, and America markets. Srinivasarao Mulugu heads the Packet division of Nokia Siemens Networks in India. He has over 17 years of experience in the telecommunication industry spanning across North America, APAC, Middle East and India. During the course of his career, Srinivasarao has worked in various capacities at Cisco Systems, Juniper Networks, 3Com and Sprint Communications. He is also active in the industry forums and has chaired several technology sessions in forums such as SANOG, APRICOT, etc. He has an MS in Electrical Engineering and an MBA, both from University of Maryland, College Park, USA.In his personal life Srinivasarao holds the position of Director Auromira Foundation and is involved in social welfare activities.