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About this product
- Author(s)Hans Roth,Patrick Gargano,Scott Empson
- PublisherPearson Education (US)
- Date of Publication22/12/2014
- GenreComputing: Textbooks & Study Guides
- Place of PublicationIndianapolis
- Country of PublicationUnited States
- First Published2014
- ImprintCisco Press
- Weight547 g
- Width155 mm
- Height230 mm
- Spine21 mm
- Edition Statement2nd Revised ed.
- Table Of ContentsIntroduction xix Part I: ROUTE Chapter 1 Basic Network and Routing Concepts 1 Cisco Hierarchical Network Model 1 Cisco Enterprise Composite Network Model 2 Typically Used Routing Protocols 2 IGP Versus EGP Routing Protocols 3 Routing Protocol Comparison 3 Administrative Distance 3 Static Routes: permanent Keyword 4 Floating Static Routes 5 Static Routes and Recursive Lookups 5 Default Routes 6 Verifying Static Routes 6 Assigning IPv6 Addresses to Interfaces 7 Implementing RIP Next Generation (RIPng) 7 Verifying and Troubleshooting RIPng 8 Configuration Example: RIPng 9 IPv6 Ping 11 IPv6 Traceroute 12 Chapter 2 EIGRP Implementation 13 Configuring EIGRP 14 EIGRP Router ID 15 EIGRP Autosummarization 15 Passive EIGRP Interfaces 16 Pseudo Passive EIGRP Interfaces 17 EIGRP Timers 17 Injecting a Default Route into EIGRP: Redistribution of a Static Route 18 Injecting a Default Route into EIGRP: IP Default Network 18 Injecting a Default Route into EIGRP: Summarize to 0.0.0.0/0 19 Accepting Exterior Routing Information: default-information 20 Load Balancing: Maximum Paths 20 Load Balancing: Variance 20 Bandwidth Use 21 Stub Networks 21 EIGRP Unicast Neighbors 22 EIGRP over Frame Relay: Dynamic Mappings 23 EIGRP over Frame Relay: Static Mappings 24 EIGRP over Frame Relay: EIGRP over Multipoint Subinterfaces 25 EIGRP over Frame Relay: EIGRP over Point-to-Point Subinterfaces 26 EIGRP over MPLS: Layer 2 VPN 28 EIGRP over MPLS: Layer 3 VPN 30 EIGRPv6 31 Enabling EIGRPv6 on an Interface 31 Configuring the Percentage of Link Bandwidth Used by EIGRPv6 32 EIGRPv6 Summary Addresses 32 EIGRPv6 Timers 32 EIGRPv6 Stub Routing 32 Logging EIGRPv6 Neighbor Adjacency Changes 33 Adjusting the EIGRPv6 Metric Weights 33 EIGRP Address Families 33 Named EIGRP Configuration Modes 34 Verifying EIGRP and EIGRPv6 35 Troubleshooting EIGRP 37 Configuration Example: EIGRPv4 and EIGRPv6 using Named Address Configuration 37 Chapter 3 Implementing a Scalable Multiarea Network OSPF-Based Solution 41 OSPF Message Types 42 OSPF LSA Types 43 Configuring OSPF 44 Using Wildcard Masks with OSPF Areas 44 Configuring Multiarea OSPF 45 Loopback Interfaces 45 Router ID 46 DR/BDR Elections 46 Passive Interfaces 46 Modifying Cost Metrics 47 OSPF auto-cost reference-bandwidth 47 OSPF LSDB Overload Protection 48 Timers 48 IP MTU 49 Propagating a Default Route 49 OSPF Special Area Types 49 Stub Areas 50 Totally Stubby Areas 50 Not-So-Stubby Areas 51 Totally NSSA 51 Route Summarization 52 Interarea Route Summarization 52 External Route Summarization 52 Configuration Example: Virtual Links 52 OSPF and NBMA Networks 53 OSPF over NBMA Topology Summary 57 IPv6 and OSPFv3 57 Enabling OSPF for IPv6 on an Interface 58 OSPFv3 and Stub/NSSA Areas 58 Interarea OSPFv3 Route Summarization 59 Enabling an IPv4 Router ID for OSPFv3 59 Forcing an SPF Calculation 59 IPv6 on NBMA Networks 60 OSPFv3 Address Families 60 Verifying OSPF Configuration 61 Troubleshooting OSPF 63 Configuration Example: Single-Area OSPF 64 Configuration Example: Multiarea OSPF 65 Configuration Example: OSPF and NBMA Networks 69 Configuration Example: OSPF and Broadcast Networks 72 Configuration Example: OSPF and Point-to-Multipoint Networks 76 Configuration Example: OSPF and Point-to-Point Networks Using Subinterfaces 80 Configuration Example: IPv6 and OSPFv3 83 Configuration Example: OSPFv3 with Address Families 86 Chapter 4 Configuration of Redistribution 91 Defining Seed and Default Metrics 91 Redistributing Connected Networks 93 Redistributing Static Routes 93 Redistributing Subnets into OSPF 93 Assigning E1 or E2 Routes in OSPF 94 Redistributing OSPF Internal and External Routes 95 Configuration Example: Route Redistribution for IPv4 95 Configuration Example: Route Redistribution for IPv6 97 Verifying Rout
- Author BiographyScott Empson is the chair of the Bachelor of Applied Information Systems Technology degree program at the Northern Alberta Institute of Technology in Edmonton, Alberta, Canada, where he teaches Cisco routing, switching, network design, and leadership courses in a variety of different programs (certificate, diploma, and applied degree) at the postsecondary level. Scott is also the program coordinator of the Cisco Networking Academy Program at NAIT, an area support center for the province of Alberta. He has a Masters of Education degree along with three undergraduate degrees: a Bachelor of Arts, with a major in English; a Bachelor of Education, again with a major in English/Language Arts; and a Bachelor of Applied Information Systems Technology, with a major in Network Management. He currently holds several industry certifications, including CCNP, CCDP, CCAI, C|EH, and Network+. Before instructing at NAIT, he was a junior/senior high school English/Language Arts/Computer Science teacher at different schools throughout Northern Alberta. Scott lives in Edmonton, Alberta, with his wife, Trina, and two children, Zach and Shae. Patrick Gargano has been a Cisco Networking Academy Instructor since 2000. He currently heads the Networking Academy program and teaches CCNA/CCNP-level courses at College La Cite in Ottawa, Canada, where he has successfully introduced mastery-based learning and gamification into his teaching. In 2013 and 2014, Patrick led the Cisco Networking Academy student Dream Team, which deployed the wired and wireless networks for attendees of the Cisco Live conferences in the United States. In 2014, College La Cite awarded him the prize for innovation and excellence in teaching. Previously he was a Cisco Networking Academy instructor at Cegep de l'Outaouais (Gatineau, Canada) and Louis-Riel High School (Ottawa, Canada) and a Cisco instructor (CCSI) for Fast Lane UK (London). His certifications include CCNA (R&S), CCNA Wireless, CCNA Security, and CCNP (R&S). #CiscoChampion @PatrickGargano Hans Roth is an instructor in the Electrical Engineering Technology department at Red River College in Winnipeg, Manitoba, Canada. Hans has been teaching at the college for 17 years and teaches in both the engineering technology and IT areas. He has been with the Cisco Networking Academy since 2000, teaching CCNP curricula. Before teaching, Hans spent 15 years on R&D/product development teams helping design microcontroller-based control systems for consumer products and for the automotive and agricultural industries.
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