Overview

Implementing Cisco IP Routing (ROUTE) Foundation Learning Guide is a Cisco® authorized learning tool for CCNP®/CCDP®/CCIP® preparation. As part of the Cisco Press Foundation Learning Series, this book teaches you how to plan, configure, maintain, and scale a routed network. It focuses on using Cisco routers connected in LANs and WANs typically found at medium-to-large network sites. After completing this book, you will be able to select and implement the appropriate Cisco IOS services required to build a scalable, routed network.   Each chapter opens with the list of topics covered to clearly identify the focus of that chapter. At the end of each chapter, a summary of key concepts for quick study and review questions provide you with an opportunity to assess and reinforce your understanding of the material. Throughout the book there are many configuration examples and sample verification outputs demonstrating troubleshooting techniques and illustrating critical issues surrounding network operation.   Implementing Cisco IP Routing (ROUTE) Foundation Learning Guide is ideal for certification candidates who are seeking a tool to learn all the topics covered in the ROUTE 642-902 exam.        Serves as the official book for the Cisco Networking Academy CCNP ROUTE course      Includes all the content from the e-Learning portion of the Learning@ Cisco ROUTE course      Provides a thorough presentation of complex enterprise network frameworks, architectures, and models, and the process of creating, documenting, and executing an implementation plan      Details Internet Protocol (IP) routing protocol principles      Explores Enhanced Interior Gateway Routing Protocol (EIGRP), Open Shortest Path First (OSPF), and Border Gateway Protocol (BGP)      Examines how to manipulate routing updates and control the information passed between them      Covers routing facilities for branch offices and mobile workers      Investigates IP Version 6 (IPv6) in detail      Presents self-assessment review questions, chapter objectives, and summaries to facilitate effective studying This book is in the Foundation Learning Guide Series. These guides are developed together with Cisco® as the only authorized, self-paced learning tools that help networking professionals build their understanding of networking concepts and prepare for Cisco certification exams.    

Full Product Details

Author:   Diane Teare
Publisher:   Pearson Education (US)
Imprint:   Cisco Press
Dimensions:   Width: 19.20cm , Height: 5.40cm , Length: 23.40cm
Weight:   1.800kg
ISBN:  

9781587058820

ISBN 10:   1587058820
Pages:   976
Publication Date:   08 July 2010
Audience:   Professional and scholarly ,  Professional & Vocational
Replaced By:   9781587204562
Format:   Hardback
Publisher's Status:   Out of Print
Availability:   Awaiting stock  

Table of Contents

    Introduction xxvii Chapter 1 Routing Services 1     Complex Enterprise Network Frameworks, Architectures, and Models 1         Traffic Conditions in a Converged Network 1         Cisco IIN and SONA Framework 3         Cisco IIN 3         Cisco SONA Framework 4         Cisco Network Models 6         Cisco Enterprise Architecture 6         Cisco Hierarchical Network Model 8         Cisco Enterprise Composite Network Model 9     Creating, Documenting, and Executing an Implementation Plan 13         Approaches to Creating an Implementation Plan 14         Creating an Implementation Plan 15         Implementation Plan Documentation 17         Implementation Plan Example 18         Example Network Scenario 18         Example Network Requirements 18         Example Network Implementation Plan 19     Reviewing IP Routing Principles 21         IP Routing Overview 22         Principles of Static Routing 22         Principles of Dynamic Routing 26         Principles of On-Demand Routing 28         Characteristics of Routing Protocols 30         Distance Vector, Link-State, and Advanced Distance Vector         Routing Protocols 30         Classful Routing Protocol Concepts 31         Classless Routing Protocol Concepts 35         RIPv2 and EIGRP Automatic Network-Boundary Summarization 35         RIP 38         Characteristics of RIPv1 38         Characteristics of RIPv2 38         RIP Configuration Commands 39         Populating the Routing Table 41         Administrative Distance 41         Routing Protocol Metrics 43         Criteria for Inserting Routes into the IP Routing Table 45         Floating Static Routes 45         IP Routing Protocol Comparisons 46         Routing and Routing Protocols Within the Enterprise Composite         Network Model 48     Summary 49     Review Questions 51 Chapter 2 Configuring the Enhanced Interior Gateway Routing Protocol 57     Understanding EIGRP Terminology and Operation 58         EIGRP Capabilities and Attributes 58         EIGRP Terminology 61         EIGRP Operation 63         Populating EIGRP Tables 63         EIGRP Packets 65         EIGRP Neighbors 67         Initial Route Discovery 69         DUAL 71         Advertised Distance and Feasible Distance 71         Successor and Feasible Successor 72         DUAL Example 75         EIGRP Metric Calculation 80     Planning EIGRP Routing Implementations 83     Configuring and Verifying EIGRP 84         Planning and Configuring Basic EIGRP 85         Planning for Basic EIGRP 85         Basic EIGRP Configuration 86         Basic Configuration Example 88         Another Basic EIGRP Configuration Example 89         Verifying EIGRP Operation 90         Verifying EIGRP Neighbors 93         Verifying EIGRP Routes 94         Verifying EIGRP Operations 96         Using the passive-interface Command with EIGRP 104         Propagating an EIGRP Default Route 107         EIGRP Route Summarization 109         Configuring Manual Route Summarization 110         Verifying Manual Route Summarization 112     Configuring and Verifying EIGRP in an Enterprise WAN 113         EIGRP over Frame Relay and on a Physical Interface 113         Frame Relay Overview 113         EIGRP on a Physical Frame Relay Interface with         Dynamic Mapping 114         EIGRP on a Frame Relay Physical Interface with Static Mapping 116         EIGRP over Frame Relay Multipoint Subinterfaces 118         Frame Relay Multipoint Subinterfaces 118         EIGRP over Multipoint Subinterfaces 119         EIGRP Unicast Neighbors 121         EIGRP over Frame Relay Point-to-Point Subinterfaces 123         Frame Relay Point-to-Point Subinterfaces 123         EIGRP on Frame Relay Point-to-Point Subinterfaces 123         EIGRP over MPLS 125         MPLS 125         MPLS Operation 126         Service Provider Offerings 127         Layer 2 and Layer 3 MPLS VPN Solutions 128         Layer 3 MPLS VPNs 128         Layer 2 MPLS VPNs 132         EIGRP Load Balancing 134         EIGRP Equal-Cost Load Balancing 134         EIGRP Unequal-Cost Load Balancing 136         EIGRP Bandwidth Use Across WAN Links 139         EIGRP Link Utilization 139         Examples of EIGRP on WANs 140     Configuring and Verifying EIGRP Authentication 144         Router Authentication 144         Simple Authentication Versus MD5 Authentication 144         MD5 Authentication for EIGRP 146         Planning for EIGRP Authentication 147         Configuring EIGRP MD5 Authentication 147         MD5 Authentication Configuration Example 148         Verifying MD5 Authentication for EIGRP 152         EIGRP MD5 Authentication Verification 153         Troubleshooting MD5 Authentication 154     Optimizing EIGRP Implementations 156         EIGRP Scalability in Large Networks 156         EIGRP Queries and Stuck-in-Active 158         Stuck-in-Active Connections in EIGRP 158         Preventing SIA Connections 160         EIGRP Query Range 161         Limiting the EIGRP Query Range 164         Graceful Shutdown 173     Summary 174     References 179     Review Questions 179 Chapter 3 Configuring the Open Shortest Path First Protocol 185     Understanding OSPF Terminology and Operation 186         Link-State Routing Protocols 186         OSPF Area Structure 188         OSPF Areas 191         Area Terminology 192         OSPF Adjacencies 193         OSPF Metric Calculation 195         Link-State Data Structures 196     OSPF Packets 197         Establishing OSPF Neighbor Adjacencies: Hello 199         Exchange Process and OSPF Neighbor Adjacency States 201         OSPF Neighbor States 204         Maintaining Routing Information 205         OSPF Link-State Sequence Numbers 207         Verifying Packet Flow 208         Configuring and Verifying Basic OSPF Routing 209         Planning and Configuring OSPF 209         Planning OSPF Routing Implementations 209     Configuring Basic OSPF 211         Single-Area OSPF Configuration Example 212         Multiarea OSPF Configuration Example 213         OSPF Router ID 214         Loopback Interfaces 215         OSPF router-id Command 215         Verifying the OSPF Router ID 216         Verifying OSPF Operations 217         The show ip ospf interface Command 218         The show ip ospf neighbor Command 219         The show ip route ospf Command 221         The show ip protocols Command 221         The debug ip ospf events Command 222     Understanding OSPF Network Types 222         Types of OSPF Networks 222         Electing a DR and BDR and Setting Priority 223         Adjacency Behavior for a Point-to-Point Link 224         Adjacency Behavior for a Broadcast Network 224         Adjacency Behavior over a Layer 2 MPLS VPN 225         Adjacency Behavior over a Layer 3 MPLS VPN 226         Adjacency Behavior for an NBMA Network 227         DR Election in an NBMA Topology 228         OSPF over Frame Relay Topology Options 228         OSPF over NBMA Topology Modes of Operation 229         Selecting the OSPF Network Type for NBMA Networks 229         OSPF Configuration in Cisco Broadcast Mode 231         OSPF Nonbroadcast Mode Configuration 231         OSPF Configuration in Point-to-Multipoint Mode 233         OSPF Configuration in Cisco Point-to-Multipoint         Nonbroadcast Mode 236         Using Subinterfaces in OSPF over Frame Relay Configuration 236         OSPF Configuration in Cisco Point-to-Point Mode 239         OSPF over NBMA Modes of Operation Summary 240         Displaying OSPF Adjacency Activity 241     Understanding OSPF LSAs 244         LSA Type 1: Router LSA 246         LSA Type 2: Network LSA 247         LSA Type 3: Summary LSA 247         LSA Type 4: Summary LSA 248         LSA Type 5: External LSA 249         Example OSPF LSAs in a Network 250     Interpreting the OSPF LSDB and Routing Table 250         OSPF LSDB 250         OSPF Routing Table and Types of Routes 254         Calculating the Costs of E1 and E2 Routes 255         Configuring OSPF LSDB Overload Protection 256     Configuring and Verifying Advanced OSPF Features 258         Using the passive-interface Command with OSPF 258         Propagating an OSPF Default Route 260         Configuring OSPF Route Summarization 263         Configuring Inter-area OSPF Route Summarization on an ABR 265         Interarea Route Summarization Configuration Example         on an ABR 266         Configuring External OSPF Route Summarization on an ASBR 267         External Route Summarization Configuration Example         on an ASBR 268         OSPF Virtual Links 269         Configuring OSPF Virtual Links 270         Verifying OSPF Virtual Link Operation 272         OSPF LSDB for Virtual Links 275         Changing the Cost Metric 278         Configuring OSPF Special Area Types 279         Configuring Stub Areas 281         Configuring Totally Stubby Areas 284         Interpreting Routing Tables in Different Types of OSPF Areas 286         Configuring NSSAs 289         Configuring Totally Stubby NSSAs 294         Example OSPF Area Types in a Network 295         Verifying All Area Types 296     Configuring and Verifying OSPF Authentication 297         Planning for OSPF Authentication 297         Configuring, Verifying, and Troubleshooting OSPF Simple Password         Authentication 297         Configuring OSPF Simple Password Authentication 297         Simple Password Authentication Example 299         Verifying Simple Password Authentication 300         Troubleshooting Simple Password Authentication 301         Configuring OSPF Simple Password Authentication for Virtual Links 304         Configuring, Verifying, and Troubleshooting MD5 Authentication 305         Configuring OSPF MD5 Authentication 305         MD5 Authentication Example 307         Verifying MD5 Authentication 308         Troubleshooting MD5 Authentication 309     Summary 311     References 314     Review Questions 315 Chapter 4 Manipulating Routing Updates 325     Assessing Network Routing Performance Issues 326     Routing Protocol Performance Issues 326         Routing Protocol Performance Solutions 327     Using Multiple IP Routing Protocols on a Network 329         Understanding a Network with Complex Routing 329         Understanding Route Redistribution 330         Redistribution Overview 330         Redistributed Routes 332         Redistribution Implementation Considerations 334         Selecting the Best Route in a Redistribution Environment 335         Redistribution Techniques 338         One-Point Redistribution 339         Multipoint Redistribution 340         Preventing Routing Loops in a Redistribution Environment 342     Implementing Route Redistribution 344         Configuring Route Redistribution 344         Redistributing into RIP 346         Redistributing into OSPF 347         Redistributing into EIGRP 350         The default-metric Command 352         The passive-interface Command 353         Route Redistribution Example 355         Using Administrative Distance to Influence         the Route-Selection Process 358         Selecting Routes with Administrative Distance 358         Modifying Administrative Distance 361         Redistribution Using Administrative Distance Example 363         Verifying Redistribution Operation 369     Controlling Routing Update Traffic 370         Static and Default Routes 371         Using Route Maps 373         Route Map Applications 373         Understanding Route Maps 374         Configuring Route Maps to Control Routing Updates 376         Configuring Route Maps for Policy Based Routing 377         Configuring Route Redistribution Using Route Maps 379         Using Route Maps with Redistribution 380         Using Route Maps to Avoid Route Feedback 381         Using Route Maps with Tags 382         Using Route Maps with Redistribution and Tags 382         Using Distribute Lists 384         Configuring Distribute Lists to Control Routing Updates 386         Controlling Redistribution with Distribute Lists 389         Using Prefix Lists 390         Prefix List Characteristics 390         Filtering with Prefix Lists 391         Configuring Prefix Lists 391         Verifying Prefix Lists 397         Using Multiple Methods to Control Routing Updates 398         Comprehensive Example of Controlling Routing Updates 398     Summary 412     References 415     Review Questions 416 Chapter 5 Implementing Path Control 419     Understanding Path Control 419         Assessing Path Control Network Performance 419         Path Control Tools 421     Implementing Path Control Using Offset Lists 424         Using Offset Lists to Control Path Selection 424         Configuring Path Control Using Offset Lists 424         Verifying Path Control Using Offset Lists 426     Implementing Path Control Using Cisco IOS IP SLAs 426         Using Cisco IOS IP SLAs to Control Path Selection 427         Cisco IOS IP SLAs Operation 429         Cisco IOS IP SLAs Sources and Responders 429         Cisco IOS IP SLAs Operations 430         Cisco IOS IP SLAs Operation with Responders 430         Cisco IOS IP SLAs with Responder Time Stamps 432         Configuring Path Control Using IOS IP SLAs 432         Configuring Cisco IOS IP SLAs Operations 433         Configuring Cisco IOS IP SLAs Tracking Objects 436         Configuring the Action Associated with the Tracking Object 436         Verifying Path Control Using IOS IP SLAs 437         Examples of Path Control Using Cisco IOS IP SLAs 438         Tracking Reachability to Two ISPs 438         Tracking DNS Server Reachability in the Two ISPs 440     Implementing Path Control Using Policy-Based Routing 446         Using PBR to Control Path Selection 447         Configuring PBR 448         PBR match Commands 448         PBR set Commands 449         Configuring PBR on an Interface 452         Verifying PBR 454         PBR Examples 454         Using PBR When Connecting Two ISPs 454         Using PBR Based on Source Address 457         Alternative Solution IP SLAs Configuration Example Using PBR 459     Advanced Path Control Tools 460         Cisco IOS Optimized Edge Routing 460         Virtualization 461         Cisco Wide Area Application Services 462     Summary 463     References 467     Review Questions 467 Chapter 6 Implementing a Border Gateway Protocol Solution for ISP Connectivity 471     BGP Terminology, Concepts, and Operation 471         Autonomous Systems 471         BGP Use Between Autonomous Systems 474         Comparison with Other Scalable Routing Protocols 475         Connecting Enterprise Networks to an ISP 477         Public IP Address Space 478         Connection Link Type and Routing 478         Connection Redundancy 482         Using BGP in an Enterprise Network 485         BGP Multihoming Options 486         Multihoming with Default Routes from All Providers 487         Multihoming with Default Routes and Partial Table from All Providers 488         Multihoming with Full Routes from All Providers 491         BGP Path Vector Characteristics 492         When to Use BGP 494         When Not to Use BGP 495         BGP Characteristics 495         BGP Neighbor Relationships 497         External BGP Neighbors 497         Internal BGP Neighbors 498         IBGP on All Routers in a Transit Path 500         IBGP in a Transit Autonomous System 500         IBGP in a Nontransit Autonomous System 501         BGP Partial-Mesh and Full-Mesh Examples 501         TCP and Full Mesh 502         Routing Issues If BGP Not on in All Routers in a Transit Path 503         BGP Synchronization 504         BGP Tables 506         BGP Message Types 508         Open and Keepalive Messages 508         Update Messages 509         Notification Messages 509         BGP Attributes 510         Well-Known Attributes 511         Optional Attributes 511         Defined BGP Attributes 512         The AS-Path Attribute 513         The Next-Hop Attribute 514         The Origin Attribute 517         The Local Preference Attribute 518         The Community Attribute 519         The MED Attribute 519         The Weight Attribute (Cisco Only) 520         The Route-Selection Decision Process 521         BGP Route-Selection Process 522         The Path-Selection Decision Process with a Multihomed         Connection 525     Configuring BGP 526         Planning BGP Implementations 527         Peer Groups 527         Entering BGP Configuration Mode 529         Defining BGP Neighbors and Activating BGP Sessions 529         Shutting Down a BGP Neighbor 531         Defining the Source IP Address 531         EBGP Multihop 534         Changing the Next-Hop Attribute 536         Defining the Networks That BGP Advertises 538         BGP Neighbor Authentication 540         Configuring BGP Synchronization 542         Resetting BGP Sessions 542         Hard Reset of BGP Sessions 543         Soft Reset of BGP Sessions Outbound 544         Soft Reset of BGP Sessions Inbound 544         BGP Configuration Examples 546         Basic BGP Examples 546         Peer Group Example 547         IBGP and EBGP Examples 549     Verifying and Troubleshooting BGP 552         show ip bgp Command Output Example 552         show ip bgp rib-failure Command Output Example 554         show ip bgp summary Command Output Example 554         debug ip bgp updates Command Output Example 556         Understanding and Troubleshooting BGP Neighbor States 557         Idle State Troubleshooting 558         Active State Troubleshooting 558         Established State 559     Basic BGP Path Manipulation Using Route Maps 559         BGP Path Manipulation 560         Changing the Weight 562         Changing the Weight for All Updates from a Neighbor 562         Changing the Weight Using Route Maps 562         Setting Local Preference 564         Changing Local Preference for All Routes 564         Local Preference Example 565         Changing Local Preference Using Route Maps 567         Setting the AS-Path 568         Setting the MED 570         Changing the MED for All Routes 571         Changing the MED Using Route Maps 572         Implementing BGP in an Enterprise Network 575     Filtering BGP Routing Updates 576         BGP Filtering Using Prefix Lists 578         Planning BGP Filtering Using Prefix Lists 578         BGP Filtering Using Prefix Lists Example 578         BGP Filtering Using Route Maps 580         Planning BGP Filtering Using Route Maps 580         BGP Filtering with Route Maps Example 580     Summary 582     References 587     Review Questions 587 Chapter 7 Implementing Routing Facilities for Branch Offices and Mobile Workers 591     Planning the Branch Office Implementation 591         Branch Office Design 591         Upgrade Scenario 595         Implementation Plan 596         Deploying Broadband Connectivity 597         Satellite Broadband Information 598         Cable Background Information 601         DSL Background Information 603         PPPoA 606         Configuring Static Routing 609         Routing to the Internet 611         Floating Static Route 615         Verifying Branch Services 618         Configuring NAT 619         Verifying NAT 623         Verifying Other Services 629         Verifying and Tuning IPsec VPNs 631         IPsec Technologies 632         Encapsulation Process 633         IPsec Site-to-Site VPN Configuration 635         ISAKMP Policy 636         IPsec Details 637         VPN Tunnel Information 637         VPN ACL 638         Apply the Crypto Map 638         Verifying an IPsec VPN 639         Impact on Routing 647         Configuring GRE Tunnels 647         Generic Routing Encapsulation 649         Configuring GRE 650         Example of GRE Configuration 652     Planning for Mobile Worker Implementations 661         Connecting a Mobile Worker 661         Components for Mobile Workers 662         Business-Ready Mobile Worker and VPN Options 663     Routing Traffic to the Mobile Worker 664         VPN Headend Configuration 665         Allowing IPsec Traffic 666         Defining Address Pools 670         Providing Routing Services for VPN Subnets 672         Tuning NAT for VPN Traffic Flows 675         Verifying IPsec VPN Configuration 677         Reviewing Alternatives for Mobile Worker Connectivity 683     Summary 685     References 688     Review Questions 688 Chapter 8 Implementing IPv6 in an Enterprise Network 691     Introducing IPv6 691         IPv4 Issues 692         Features of IPv6 693         IPv6 Packet Header 695         Extension Headers 696         MTU Discovery 698     IPv6 Addressing 698         IPv6 Addressing in an Enterprise Network 698         IPv6 Address Representation 700         Interface Identifiers in IPv6 Addresses 701         IPv6 Address Types 704         IPv6 Global Unicast Addresses 705         IPv6 Link-Local Unicast Addresses 707         IPv6 Site-Local Unicast Addresses: Deprecated 708         IPv6 Multicast Addresses 708         Solicited-Node Multicast Addresses 710         IPv6 Anycast Addresses 711         Comparing IPv6 Addresses with IPv4 Addresses 712     Configuring and Verifying IPv6 Unicast Addresses 716         IPv6 Unicast Address Configuration and Verification Commands 717         Static IPv6 Address Assignment 719         Static Global Aggregatable Address Assignment 719         Assigning Multiple Global Aggregatable Addresses 721         IPv6 Unnumbered Interfaces 723         Static Link-Local Address Assignment 723         Stateless Autoconfiguration of IPv6 Addresses 724         Unicast Connectivity on Different Connection Types 733         Unicast Connectivity on Broadcast Multiaccess Links 733         Unicast Connectivity on Point-to-Point Links 738         Unicast Connectivity on Point-to-Multipoint Links 742     Routing IPv6 Traffic 746         IPv6 Routing Protocols 747         Static Routing 747         Static Route Configuration and Verification Commands 747         Static Route Configuration and Verification Example 750         RIPng 751         RIPng Configuration and Verification Commands 752         RIPng Configuration and Verification Example 752         OSPFv3 759         Similarities Between OSPFv2 and OSPFv3 760         Differences Between OSPFv2 and OSPFv3 761         OSPFv3 Configuration and Verification Commands 763         OSPFv3 Configuration and Verification Examples 767         EIGRP for IPv6 773         EIGRP for IPv6 Configuration and Verification Commands 773         EIGRP for IPv6 Configuration and Verification Example 774         MBGP 782         MBGP Configuration and Verification Commands 783         MBGP Configuration and Verification Example 784         IPv6 Policy-Based Routing 785         IPv6 PBR Configuration and Verification Commands 785         IPv6 PBR Configuration and Verification Example 788         IPv6 Redistribution 791         RIPng Redistribution 791         RIPng and OSPFv3 Redistribution 799         RIPng, OSPFv3, and MBGP Redistribution 814     Transitioning IPv4 to IPv6 824         Dual Stack 826         Tunneling 828         Translation 829     Tunneling IPv6 Traffic 830         Manual IPv6 Tunnels 830         Manual IPv6 Tunnel Configuration and Verification Commands 831         Manual IPv6 Tunnel Configuration and Verification Example 832         GRE IPv6 Tunnels 838         GRE IPv6 Tunnel Configuration and Verification Commands 839         GRE IPv6 Tunnel Configuration and Verification Examples 839         6to4 Tunnels 846         6to4 Tunnel Configuration and Verification Commands 848         6to4 Tunnel Configuration and Verification Example 848         IPv4-Compatible IPv6 Tunnels 854         IPv4-Compatible IPv6 Tunnel Configuration and Verification Commands 854         IPv4-Compatible IPv6 Tunnel Configuration and Verification Example 854         ISATAP Tunnels 857         ISATAP Tunnel Configuration and Verification Commands 859         ISATAP Tunnel Configuration and Verification Example 859     Translation Using NAT-PT 864         Static NAT-PT for IPv6 865         Static NAT-PT Operation 865         Static NAT-PT Configuration and Verification Commands 866         Static NAT-PT Configuration and Verification Example 867         Dynamic NAT-PT for IPv6 871         Dynamic NAT-PT Configuration and Verification Commands 872         Dynamic NAT-PT Configuration and Verification Examples 873     Summary 885     References 897     Review Questions 897 Appendix A Answers to Review Questions 901 Online Supplemental Material:     Appendix B IPv4 Supplement     Appendix C BGP Supplement     Acronyms and Abbreviations TOC, 9781587058820, 5/25/10  

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Diane Teare is a professional in the networking, training, project management, and e-learning fields. She has more than 25 years of experience in designing, implementing, and troubleshooting network hardware and software, and has been involved in teaching, course design, and project management. She has extensive knowledge of network design and routing technologies, and is an instructor with one of the largest authorized Cisco Learning Partners. She was the director of e-learning for the same company, where she was responsible for planning and supporting all the company’s e-learning offerings in Canada, including Cisco courses. Diane has a bachelor’s degree in applied science in electrical engineering and a master’s degree in applied science in management science. She currently holds her Cisco Certified Network Professional (CCNP), Cisco Certified Design Professional (CCDP), and Project Management Professional (PMP) certifications. She co-authored the Cisco Press titles Designing Cisco Network Service Architectures (ARCH), Second Edition; Campus Network Design Fundamentals; the three editions of Authorized Self-Study Guide Building Scalable Cisco Internetworks (BSCI); and Building Scalable Cisco Networks. Diane edited the two editions of the Authorized Self-Study Guide Designing for Cisco Internetwork Solutions (DESGN) and Designing Cisco Networks.

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