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| 005 | 20191203144024.0 | ||
| 008 | 191203b xxu||||| |||| 00| 0 eng d | ||
| 020 | _a9789352866502 | ||
| 040 | _cAIKTC-KRRC | ||
| 041 | _aENG | ||
| 082 |
_2DDC23 _a004.66076 _bKOC |
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| 100 |
_aKocharians, Narbik _910945 |
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| 245 |
_aCCIE routing and switching v5.1 foundations _b: Bridging the gap between CCNP abd CCIE |
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| 260 |
_aNoida _bPearson Education _c2018 |
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| 300 |
_axxx, 1214p. _bPaperback _c23.2*17 cm |
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| 440 |
_910946 _aPractical studies series - CISCO |
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| 520 |
_aPreparing for the CCIE Routing and Switching lab exam typically involves deep and lengthy study. But if you already possess the Cisco CCNP Routing and Switching certification, you already know much of what you’ll need to succeed on CCIE’s labs. This book will help you quickly bridge your remaining knowledge gaps and make the most of everything you already know. _b CCIE Routing and Switching v5.1 Foundations addresses every segment of the CCIE R&S Version 5 blueprint, helping you focus your study where it will do the most good: intense hands-on practice to deepen your current knowledge and thorough explanations of theoretical topics you haven’t yet encountered. Based on the author’s industry-recognized CCIE prep classes, it includes 40+ detailed labs for real gear and platform emulators; structured illustrations of protocol and feature operation; and topic-specific labs to drive the theory home. It includes a full lab walkthrough of a complex configuration reflective of the actual CCIE–ensuring that you thoroughly understand the technologies and interactions you’re reading about. Discover the physical topology for any network deployment Master Spanning Tree Protocol (STP) foundations and advanced features Deploy and optimize PPP and use its full set of capabilities Implement Dynamic Multipoint VPNs (DMVPNs) from start to finish Use IP Prefix lists in prefix filtration, packet filtering, and other applications Handle any RIPv2 deployment scenario n Implement EIGRP, including classical and named operation modes and interoperation Use advanced OSPF techniques, including route filtration, LSA operation, stub configurations, and update filtering Understand what happens when you perform redistribution, and manage problematic scenarios Manage complex BGP capabilities, including Adjacency State Machine Operate IPv6 in complex network environments, including DMVPN Focus on QoS mechanisms that CCIE still covers, including traffic marking, classification, policing, and shaping Deploy IPsec VPN solutions including GRE/IPSec tunnel mode, multi-site VPN technologies, and their encryption Implement multicasting in environments requiring end-to-end IPv4 and IPv6 transport Address operational and deployment issues involving MPLS VPNv4 tunnels Table of Contents Introduction xxvii Chapter 1 Physical Topology 1 Physical Layout of Switching Devices 1 Serial Interconnections Between Routers 3 Lab Options 5 Summary 5 Chapter 2 Physical and Logical Topologies 7 Topology Types 7 Lab 2-1: Introductory Lab 8 Lab 2-2: Physical-to-Logical Topology 18 Summary 33 Chapter 3 Spanning Tree Protocol 35 Lab 3-1: Basic Spanning Tree Protocol (802.1D) 35 Lab 3-2: Advanced Spanning Tree Protocol (802.1D) 50 Lab 3-3: Rapid Spanning Tree Protocol (802.1w) 73 802.1w Port States 74 802.1w Port Roles 74 Operational Enhancements of 802.1w 74 802.1w Rapid Convergence Mechanisms 75 Lab Setup 75 Lab 3-4: Multiple Spanning Tree Protocol (802.1s) 93 MST Regions 94 MST Region Components 94 MST Spanning Tree Instances 95 Multiple-Instance Spanning Tree Protocol (MSTP) 96 Lab 3-5: Spanning Tree PortFast 106 Lab 3-6: UplinkFast 115 Lab 3-7: BPDU Guard 128 Lab 3-8: BPDU Filter 135 Lab 3-9: Spanning Tree Backbone Fast 148 Lab 3-10: Spanning Tree Root Guard 154 Lab 3-11: Spanning Tree Loop Guard 162 Chapter 4 Point-to-Point Protocol 169 Introduction to PPP 169 PPP Frame Format 170 PPP Control Plane 171 Advanced PPP Features 179 Lab 4-1: PPP 182 Summary 218 Chapter 5 DMVPN 219 Lab 5-1: DMVPN Phase 1 Using Static Mapping 219 Lab 5-2: DMVPN Phase 1 Using Dynamic Mapping 229 Lab 5-3: DMVPN Phase 2 Using Static Mapping 236 Lab 5-4: DMVPN Phase 2 Using Dynamic Mapping 244 Lab 5-5: DMVPN Phase 3 251 Chapter 6 IP Prefix-List 267 Lab 6-1: Configuring Prefix Lists 267 Chapter 7 EIGRP 287 Lab 7-1: EIGRP 287 Lab 7-2: EIGRP Named Mode 311 Lab 7-3: EIGRP Metrics (Classic and Wide) 333 Lab 7-4: EIGRP Summarization 349 Lab 7-5: EIGRP Authentication 359 Lab 7-6: Default Route Injection 363 Lab 7-7: EIGRP Stub 368 Chapter 8 OSPF 381 Lab 8-1: Advertising Networks 381 Lab 8-2: OSPF Broadcast Networks 397 Lab 8-3: Non-Broadcast Networks 411 Lab 8-4: OSPF Point-to-Point Networks 421 Lab 8-5: OSPF Point-to-Multipoint and Point-to-Multipoint Non-Broadcast Networks 425 Lab 8-6: OSPF Authentication 431 Lab 8-7: OSPF Summarization 462 Lab 8-8: OSPF Filtering 476 Lab 8-9: Virtual Links and GRE Tunnels 504 Lab 8-10: OSPF Stub, Totally Stubby, and NSSA Areas 517 Lab 8-11: How Is This Possible? 536 Lab 8-12: LSA Type 4 and Suppress FA 539 Lab 8-13: Can OSPF Take a Suboptimal Path? 549 Lab 8-14: RFC 3101 and RFC 1587 556 Chapter 9 Redistribution 567 Lab 9-1: Basic Redistribution 1 567 Lab 9-2: Basic Redistribution 2 586 Lab 9-3: Redistribute RIPv2 and EIGRP 604 Lab 9-4: Redistribute RIPv2 and OSPF 625 Chapter 10 Border Gateway Protocol 635 Lab 10-1: Establishing Neighbor Adjacencies 635 Lab 10-2: Router Reflectors 642 Lab 10-3: Conditional Advertisement and BGP Backdoor 650 Lab 10-4: Community Attribute 667 Lab 10-5: The AS-path Attribute 679 Lab 10-6: The Weight Attribute 686 Lab 10-7: Multi-Exit Discriminator Attribute 695 Lab 10-8: Filtering Using Access Lists and Prefix Lists 704 Lab 10-9: Regular Expressions 714 Lab 10-10: BGP Confederation 731 Chapter 11 IPv6 737 Lab 11-1: Acquiring an IPv6 Address 737 Modified EUI-64 Addressing 737 Using EUI-64 Addressing 738 Implement IPv6 Neighbor Discovery 739 Lab 11-2: Configuring OSPFv3 763 Lab 11-3: Summarization of Internal and External Networks 771 Lab 11-4: LSAs in OSPFv3 790 Lab 11-5: EIGRPv6 817 Chapter 12 Quality of Service 839 Lab 12-1: MLS QOS 840 Lab 12-2: Differential Service Code Point-Mutation 851 Lab 12-3: DSCP-COS Mapping 860 Lab 12-4: COS-DSCP Mapping 865 Lab 12-5: IP-Precedence-DSCP Mapping 870 Lab 12-6: Match Input-Interface and Match NOT 873 Lab 12-7: Match Destination and Source Address MAC 881 Lab 12-8: Match IP DSCP/Precedence vs. Match DSCP 885 Lab 12-9: Match Protocol HTTP URL, MIME, and Host 893 Lab 12-10: Class-Based Policing 898 Lab 12-11: Class-Based Shaping 907 Chapter 13 IPSec VPN 911 Lab 13-1: Basic Site-to-Site IPSec VPN 911 Lab 13-2: Basic Site-to-Site IPSec VPN and NAT 925 Lab 13-3: Configuring GRE/IPSec Tunnel Mode, Transport Mode, and S-VTI 930 Lab 13-4: Protecting DMVPN Tunnels 946 Chapter 14 Multicast 959 Lab 14-1: IGMP 959 Lab 14-2: Static RP 977 Lab 14-3: Dynamic Rendezvous Point Learning and Auto-RP 993 Lab 14-4: Bootstrap Router (BSR) 1013 Chapter 15 MPLS and L3VPNs 1025 Lab 15-1: Label Distribution Protocol 1026 Lab 15-2: RIPv2 Routing in a VPN 1078 Lab 15-3: EIGRP Routing in a VPN 1107 Lab 15-4: OSPF Routing in a VPN 1113 Lab 15-5: Backdoor Links and OSPF 1123 Lab 15-6: BGP Routing in a VPN 1148 |
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_94619 _aEXTC Engineering |
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