Cisco

CCIE Routing & Switching Written v5.1

Brian McGahan
Brian McGahan
CCIEx4 #8593, CCDE #2013::13

Who is this course for?

This course is intended for individuals who are just beginning their pursuit of the CCIE Routing & Switching certification, or who are looking to recertify, and is a primary study resource for the Written exam.

What will you learn in this course?
  • What the scopes of the Written & Lab exams are
  • The differences between Written & Lab topics
  • When to schedule your Written exam
  • What additional resources to use to prepare for the Written exam
  • Overview of technologies and topics covered on the Written exam
  • Evolving Technologies topics added to the 5.1 version of the Written exam
Course Description

This CCIE Routing & Switching Written v5.1 course is specifically designed for students who want to focus on the topics and technologies covered in the CCIE Routing & Switching Written Exam version 5.1 blueprint. Students looking for a thorough and well-structured learning tool will benefit from these videos, which will help create a solid foundation of the concepts covered in the CCIE Routing & Switching Written Exam. Students will gain the knowledge they need to not only pass the written exam, but also continue straight into their CCIE Routing & Switching Lab Exam preparation.

Now updated to cover all of the Evolving Technologies topics included on the latest 5.1 version of the CCIE Routing & Switching exam blueprint, including cloud technologies, network programmability (SDN), and Internet of Things.

  • Course
    • Preparation Overview
      • Introduction
      • Scheduling the Written Exam
      • CCIE RSv5 Exam & Written Exam Blueprints
      • CCIE RSv5 Written vs Lab Blueprints
      • How to Prepare for the CCIE Lab
      • Recommended Books & Reading
      • Using Cisco's Technology Documentation
      • Using INE Specific Resources
    • Layer 2 Technologies
      • Layer 2 Technologies Overview
      • VLANs, Trunking, & VTP :: Part 1
      • VLANs, Trunking, & VTP :: Part 2
      • VLAN Trunking Protocol (VTP)
      • Ethernet Channel Overview
      • Ethernet Channel Negotiation Protocols & Mode Compatibility
      • Chassis Virtualization & Aggregation
      • How STP Works
      • Changing the Root Bridge Election
      • Root Port Election
      • Changing the Port's Role & STP Timers
      • Optional Spanning-Tree Features
      • STP Filters & Loop Prevention
      • Rapid spanning-Tree Protocol :: Part 1
      • Rapid spanning-Tree Protocol :: Part 2
      • Multiple Spanning-Tree Protocol :: Part 1
      • Multiple Spanning-Tree Protocol :: Part 2
      • Layer 2 Technologies Review Questions :: Part 1
      • Layer 2 Technologies Review Questions :: Part 2
      • Layer 2 Technologies Review
    • IPv4 and IPv6 Addressing
      • Network Layer Review
      • IPv4 Routing Overview
      • How ARP Works, Routing, Next-Hop vs. an Interface
      • IPv6 Overview
      • IPv6 Global Unicast Addresses
      • Modified EUI-64 Addressing, IPv6 Temporary Addresses,
      • IPv6 Address Resolution & ND for Host Default Routing
      • IPv6 Neighbor Discovery Messages, IPv6 SLAAC & DHCPv6
      • IPv6 General Prefix
    • IPv4 and IPv6 Routing
      • IPv4 & IPv6 Routing Process :: Part 1
      • IPv4 & IPv6 Routing Process :: Part 2
      • CEF Recommended Reading
      • IPv4 & IPv6 Routing Process :: Part 3
      • Virtual Routing and Forwarding Instances (VRFs)
    • RIPv2 & RIPng
      • RIP Overview
      • RIP Features
      • RIPng Overview
      • RIPv2 & RIPng Command Reference
    • EIGRP & EIGRPv6
      • EIGRP Overview
      • Forming EIGRP Adjacencies
      • Sending EIGRP Updates & Calculating the EIGRP Topology
      • EIGRP Loop Prevention, Feasibility Condition, & Reconvergence
      • Classic EIGRP Overview :: Part 1
      • Classic EIGRP Overview :: Part 2
      • Classic EIGRP Overview :: Part 3
      • Classic EIGRP Overview :: Part 4
    • OSPFv2 & OSPFv3
      • Recommended OSPF Resources
      • Open Shortest Path First (OSPF) Overview
      • Step 1 - Neighbor & Topology Discovery
      • Negotiating OSPF Adjacencies, Unique & Common OSPF Adjacency Attributes
      • OSPF Hello Packets
      • OSPF Adjacency State Machine
      • Step 2 - Choose Best Path via SPF
      • Step 3 - Neighbor & Topology Maintenance
      • Tracking Topology Changes & LSA Flooding
      • OSPFv2 & OSPFv3 Configuration
      • Troubleshooting OSPFv2 & OSPFv3 Adjacencies
      • OSPF Areas Overview, Two-Level Hierarchy, & Router Types, & LSA Types
      • LSA & Route Types
      • OSPF Media Dependencies
      • OSPF Virtual Links
      • OSPF :: Part 1
      • OSPF :: Part 2
      • OSPF Authentication :: Part 1
      • OSPF Authentication :: Part 2
    • IS-IS
      • IS-IS Overview
      • IS-IS NET Addressing
      • IS-IS Adjacency Levels
      • IS-IS Network Type & DIS Election
      • Forming IS-IS Adjacency
      • IS-IS Path Selection & Multi Topology IS-IS
    • BGP
      • BGP Overview
      • iBGP & EBGP Peerings :: Part 1
      • iBGP & EBGP Peerings :: Part 2
      • BGP Best Path Selection
      • Best Path Selection Prerequisites & Order
      • Manipulating Best Path Selection
      • Attributes to Influence Outbound & Inbound Path Selection & Multipath Load Balancing
      • Using BGP Communities to Influence Traffic
      • BGP Filtering Methods
      • Regular Expressions, BGP Maximum Prefix, Outbound and Inbound Route Filtering
      • BGP Conditional Advertisement, Soft Reconfiguration Inbound, & Route Refresh Capability
      • BGP Communities
      • BGP Fast Convergence :: Part 1
      • BGP Fast Convergence :: Part 2
      • BGP Fast Convergence :: Part 3
    • Layer 3 Technologies
      • Layer 3 Technologies Review Questions (01-10)
      • Layer 3 Technologies Review Questions (11-20)
      • Layer 3 Technologies Review Questions (21-30)
      • Layer 3 Technologies Review Questions (31-33)
    • MPLS
      • MPLS Overview
      • Label Distribution Protocol (LDP) Overview
      • Advertising Labels
      • LDP Configuration & Verification
      • Virtual Routing & Forwarding Instances (VRFs)
      • MPLS Layer 3 VPNs
      • Multiprotocol BGP
      • Controlling VPNv4 Routes
      • Transport Label vs. VPN Label
    • Layer 2 VPNs
      • Layer 2 VPNs Overview
      • VPWS Overview
      • L2TPv3 Overview
      • AToM Overview
      • VPLS Overview
      • OTV Overview
    • DMVPN
      • Dynamic Multipoint VPN (DMVPN)
      • DMVPN Phases
    • IPsec VPN
      • IPsec VPN :: Part 1
      • ISAKMP vs. IKE
      • IPsec VPN :: Part 2
      • Crypto Map Based IPsec Overview
      • Configuration & Advance Verifications
      • IPsec over DMVPN
      • IPsec Virtual Tunnel Interfaces (VTI)
      • GETVPN
      • GET VPN COOP KS
    • Cisco CCIE Evolving Technologies
      • Evolving Technologies Introduction
    • Cloud
      • Compare & Contrast Cloud Deployment Models
      • Cloud Implementations & Opperations
    • Network Programmability (SDN)
      • Functional Elements of Network Programmability
      • Virtualizations & Automation in Network Enviroments
    • Internet of Things
      • Architectural Framework & Depolyment Considerations
This course is also included in a training bundle:
View Training Bundle
Expected Knowledge
While there are no formal prerequisites for the CCIE exam, it is expected that students beginning their CCIE Routing & Switching study, and therefore beginning this course, will have at least a CCNP Routing & Switching level of knowledge. This includes a general knowledge of topics such as: IP networking principles, LAN switching, IGP & BGP routing, DMVPN, infrastructure security, and infrastructure services. It is also recommended that students have 3-5 years of work experience in the networking field.
Course Outline:
  • Course
    • Preparation Overview
      • Introduction
      • Scheduling the Written Exam
      • CCIE RSv5 Exam & Written Exam Blueprints
      • CCIE RSv5 Written vs Lab Blueprints
      • How to Prepare for the CCIE Lab
      • Recommended Books & Reading
      • Using Cisco's Technology Documentation
      • Using INE Specific Resources
    • Layer 2 Technologies
      • Layer 2 Technologies Overview
      • VLANs, Trunking, & VTP :: Part 1
      • VLANs, Trunking, & VTP :: Part 2
      • VLAN Trunking Protocol (VTP)
      • Ethernet Channel Overview
      • Ethernet Channel Negotiation Protocols & Mode Compatibility
      • Chassis Virtualization & Aggregation
      • How STP Works
      • Changing the Root Bridge Election
      • Root Port Election
      • Changing the Port's Role & STP Timers
      • Optional Spanning-Tree Features
      • STP Filters & Loop Prevention
      • Rapid spanning-Tree Protocol :: Part 1
      • Rapid spanning-Tree Protocol :: Part 2
      • Multiple Spanning-Tree Protocol :: Part 1
      • Multiple Spanning-Tree Protocol :: Part 2
      • Layer 2 Technologies Review Questions :: Part 1
      • Layer 2 Technologies Review Questions :: Part 2
      • Layer 2 Technologies Review
    • IPv4 and IPv6 Addressing
      • Network Layer Review
      • IPv4 Routing Overview
      • How ARP Works, Routing, Next-Hop vs. an Interface
      • IPv6 Overview
      • IPv6 Global Unicast Addresses
      • Modified EUI-64 Addressing, IPv6 Temporary Addresses,
      • IPv6 Address Resolution & ND for Host Default Routing
      • IPv6 Neighbor Discovery Messages, IPv6 SLAAC & DHCPv6
      • IPv6 General Prefix
    • IPv4 and IPv6 Routing
      • IPv4 & IPv6 Routing Process :: Part 1
      • IPv4 & IPv6 Routing Process :: Part 2
      • CEF Recommended Reading
      • IPv4 & IPv6 Routing Process :: Part 3
      • Virtual Routing and Forwarding Instances (VRFs)
    • RIPv2 & RIPng
      • RIP Overview
      • RIP Features
      • RIPng Overview
      • RIPv2 & RIPng Command Reference
    • EIGRP & EIGRPv6
      • EIGRP Overview
      • Forming EIGRP Adjacencies
      • Sending EIGRP Updates & Calculating the EIGRP Topology
      • EIGRP Loop Prevention, Feasibility Condition, & Reconvergence
      • Classic EIGRP Overview :: Part 1
      • Classic EIGRP Overview :: Part 2
      • Classic EIGRP Overview :: Part 3
      • Classic EIGRP Overview :: Part 4
    • OSPFv2 & OSPFv3
      • Recommended OSPF Resources
      • Open Shortest Path First (OSPF) Overview
      • Step 1 - Neighbor & Topology Discovery
      • Negotiating OSPF Adjacencies, Unique & Common OSPF Adjacency Attributes
      • OSPF Hello Packets
      • OSPF Adjacency State Machine
      • Step 2 - Choose Best Path via SPF
      • Step 3 - Neighbor & Topology Maintenance
      • Tracking Topology Changes & LSA Flooding
      • OSPFv2 & OSPFv3 Configuration
      • Troubleshooting OSPFv2 & OSPFv3 Adjacencies
      • OSPF Areas Overview, Two-Level Hierarchy, & Router Types, & LSA Types
      • LSA & Route Types
      • OSPF Media Dependencies
      • OSPF Virtual Links
      • OSPF :: Part 1
      • OSPF :: Part 2
      • OSPF Authentication :: Part 1
      • OSPF Authentication :: Part 2
    • IS-IS
      • IS-IS Overview
      • IS-IS NET Addressing
      • IS-IS Adjacency Levels
      • IS-IS Network Type & DIS Election
      • Forming IS-IS Adjacency
      • IS-IS Path Selection & Multi Topology IS-IS
    • BGP
      • BGP Overview
      • iBGP & EBGP Peerings :: Part 1
      • iBGP & EBGP Peerings :: Part 2
      • BGP Best Path Selection
      • Best Path Selection Prerequisites & Order
      • Manipulating Best Path Selection
      • Attributes to Influence Outbound & Inbound Path Selection & Multipath Load Balancing
      • Using BGP Communities to Influence Traffic
      • BGP Filtering Methods
      • Regular Expressions, BGP Maximum Prefix, Outbound and Inbound Route Filtering
      • BGP Conditional Advertisement, Soft Reconfiguration Inbound, & Route Refresh Capability
      • BGP Communities
      • BGP Fast Convergence :: Part 1
      • BGP Fast Convergence :: Part 2
      • BGP Fast Convergence :: Part 3
    • Layer 3 Technologies
      • Layer 3 Technologies Review Questions (01-10)
      • Layer 3 Technologies Review Questions (11-20)
      • Layer 3 Technologies Review Questions (21-30)
      • Layer 3 Technologies Review Questions (31-33)
    • MPLS
      • MPLS Overview
      • Label Distribution Protocol (LDP) Overview
      • Advertising Labels
      • LDP Configuration & Verification
      • Virtual Routing & Forwarding Instances (VRFs)
      • MPLS Layer 3 VPNs
      • Multiprotocol BGP
      • Controlling VPNv4 Routes
      • Transport Label vs. VPN Label
    • Layer 2 VPNs
      • Layer 2 VPNs Overview
      • VPWS Overview
      • L2TPv3 Overview
      • AToM Overview
      • VPLS Overview
      • OTV Overview
    • DMVPN
      • Dynamic Multipoint VPN (DMVPN)
      • DMVPN Phases
    • IPsec VPN
      • IPsec VPN :: Part 1
      • ISAKMP vs. IKE
      • IPsec VPN :: Part 2
      • Crypto Map Based IPsec Overview
      • Configuration & Advance Verifications
      • IPsec over DMVPN
      • IPsec Virtual Tunnel Interfaces (VTI)
      • GETVPN
      • GET VPN COOP KS
    • Cisco CCIE Evolving Technologies
      • Evolving Technologies Introduction
    • Cloud
      • Compare & Contrast Cloud Deployment Models
      • Cloud Implementations & Opperations
    • Network Programmability (SDN)
      • Functional Elements of Network Programmability
      • Virtualizations & Automation in Network Enviroments
    • Internet of Things
      • Architectural Framework & Depolyment Considerations

Course Format Options:

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Download the entire course in mobile, high and HD(1080p) resolutions.

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Expert

29hr 51min
April 4, 2016