Cisco CCIE Enterprise Infrastructure

Name: Cisco CCIE Enterprise Infrastructure
Rating: 4.7 (327 reviews)

A detailed dive into the world of advanced routing and switching topics.

Created byScott Smith

Last updated 10/2021

English

What you'll learn

Cisco CCIE Enterprise Advanced Routing and Switching
VLANS and VLAN Trunking Protocol
Etherchannel
Spanning Tree Protocol
Policy Based Routing
Generic Route Encapsulation
Enhanced Interior Gateway Routing Protocol (EIGRP)

Course content

8 sections • 65 lectures • 91h 13m total length

VLANS and Switching Topics1:33:26
In this lesson, we will discuss basic VLAN and Switching fundamentals. This is a precursor to our more advanced switching topics covered in layer lessons.
VLAN Trunking Protocol1:18:32
In this lesson, we will discuss the VLAN Trunking Protocol. Specifically, VTP Version 1 and Version 2. We will discuss the concepts of VTP Version 3 in the next lesson.
VLAN Trunking Protocol Version 31:02:39
Etherchannel1:24:43
In this lesson, we discuss Etherchannel technology.
Layer 2 Etherchannel Configuration1:11:36
Spanning Tree Protocol1:49:37
In this lesson, we start our discussion of Spanning Tree Protocol. In follow up lectures, we will discuss advanced topics of Spanning Tree.
Optional Spanning Tree Features1:09:41
In this lecture we will discuss the Spanning Tree toolkit, which includes features like BPDU Guard, BPDU Filter, Etherchannel Guard, Portfast, etc.
Rapid Spanning Tree Protocol1:28:56
In this lecture, we discuss the Rapid Spanning Tree Protocol (802.1w / RPVST+). We will discuss the differences and enhancements from older versions of Spanning Tree.
Multiple Spanning Tree Protocol1:45:06
We continue our discussion of Spanning Tree by exploring Multiple Spanning Tree Protocol. We will gain an understanding of how MSTP can be used to operate Spanning Tree more efficiently in our enterprise.
WAN Circuits1:53:02
In this final Switching lecture, we will discuss some Layer 2 WAN Circuit technologies including PPP.

IPv4 Routing2:20:37
In this lecture, we will introduce IPv4 Routing in preparation for our deep dive discussions on routing topics.
Policy Based Routing1:42:11
In this lecture, we will discuss in detail policy based routing concepts.
IP SLA and Enhanced Object Tracking1:34:16
In this lecture we will take a deep dive into IP Service Level Agreements and Enhanced Object Tracking. We will also learn how to utilize these tools to affect routing in the Enterprise.
GRE and IP in IP Tunneling46:57
In this final lecture on routing basics, we will discuss Generic Route Encapsulation and IP in IP Tunneling.

EIGRP Classic Mode1:44:11
In our fist lecture for EIGRP we will discuss in detail EIGRP, specifically, EIGRP classic mode configuration.
EIGRP Named Mode1:25:40
In this lecture we will take a detailed look at EIGRP named mode and compare and contrast the differences to EIGRP Classis mode.
EIGRP Classic Metric Configuration1:12:10
In this lecture we will take a look at EIGRP classic metrics and how they affect the EIGRP routing domain.
EIGRP Wide Metrics1:25:20
In this lecture we will take a look at the difference with EIGRP Wide metrics versus the Classic metrics used with Classis mode EIGRP.
EIGRP Traffic Engineering and Unequal Cost Load Balancing1:53:47
In this lecture, we will discuss the details of EIGRP traffic engineering and how EIGRP handles unequal cost load balancing.
EIGRP Authentication in Classic and Named Mode1:36:49
In this lecture we will be discussing EIGRP Authentication features for both modes of EIGRP.
EIGRP Summarization (Classic and Named)2:14:28
In this penultimate lecture on EIGRP, we will cover EIGRP summarization for both Classic and Named EIGRP.
EIGRP Stub (Classic and Named)1:00:19
In this final EIGRP lecture, we will discuss the EIGRP stub features, including stub connected, summary, redistribute, static and receive-only.

OSPF Protocol Operation and Overview1:11:21
We will start our journey learning OSPF by starting with an understanding of OSPF protocol operations and and OSPF overview.
OSPF Single Area Configuration1:10:07
In this lecture, we will talk about configuring OSPF single area configuration.
Troubleshooting OSPF Adjacencies1:24:29
We will start to gain a better understanding of the internal operations of OSPF with this introductory OSPF troubleshooting lecture.
OSPF Areas and Link State Advertisements1:51:17
In this lecture, we will perform a deep dive into OSPF Area types and LSA types.
OSPF Media Dependencies and Network Types including Configuration1:34:17
OSPF Stub Areas and Stub Area Traffic Engineering1:41:53
In this lecture we will discuss OSPF stub area concepts along with how to manipulate traffic flow with stub area configurations.
Configuring OSPF Not So Stubby Areas (NSSAs)1:21:13
This lecture covers the details of an OSPF NSSA. How it can be used, and how it works in the scheme of OSPF.
Controlling NSSA Redistribution3:01:06
This lecture provides a very detailed discussion on controlling NSSA redistribution.
Default Routing with OSPF NSSA1:47:53
In this lecture, we will be discussing default routing with OSPF Not So Stubby Areas.
OSPF NSSA Translator Election and Forwarding Address1:26:44
In this lecture, we will be discussing OSPF NSSA Translator Elections and how it affects the Forwarding Address for redistributed routes.
OSPF Path Selection54:38
We will take a look in detail how OSPF handles path selection.
OSPF Authentication and OSPF Authentication Enhancements1:19:33
In this final lecture, we are going to discuss OSPF authentication and authentication enhancements.
OSPF Summarization Overview and Configuration1:25:43
In this final OSPF lecture, we will take a look at how summarization works with OSPF.

DMVPN Overview1:17:42
We are going to start our DMVPN Section with a lecture on the basics of DMVPN. In future lectures we will discuss the specifics of the different phases of DMVPN and take a look the configurations.
Basic DMVPN Configuration45:19
In this lecture, we will introduce the framework of DMVPN configuration.
DMVPN Phase 1 Configuration Part 150:58
We will now take a deep dive look into the configuration of DMVPN Phase 1. This is a two part lecture (part 1).
DMVPN Phase 1 Configuration Part 21:24:13
We will now continue a deep dive look into the configuration of DMVPN Phase 1. This is a two part lecture (part 2).
DMVPN Phase 2 Configuration1:22:48
In this lecture, we are going to take a deep dive look into the operations and configurations of DMVPN Phase 2 and discuss the differences of this phase as opposed to the other phases.
DMVPN Phase 3 Configuration1:04:02
In this lecture, we are going to take a deep dive look into the operations and configurations of DMVPN Phase 3 and discuss the differences of this phase as opposed to the other phases.

IPv4 Route Redistribution Overview and Example1:31:24
In this lecture we are going to take a detailed look at routing protocol redistribution and take a look at some configuration examples.
Redistribution Case Study1:23:47
Here we are going to take a look at a redistribution case study.
Why Routing Loops Occur1:14:15
In this final lecture of the section, we will take a look at why routing loops occur.

BGP Overview53:20
In our first lecture about BGP, we will start with a basic and introductory discussion about BGP.
BGP Operations1:39:42
In this lecture, we are going to take a look under the hood at BGP operations and how BGP peers communicate with each other.
iBGP versus eBGP Peering Rules1:30:22
In this lecture, we are going to be discussing the major differences between iBGP and eBGP peering and how the peering relationships work together.
iBGP Full Mesh1:50:12
In this lecture we are going to discuss the requirements for an iBGP full mesh network.
iBGP Scaling Techniques37:19
In this lecture we will take a look at several BGP scaling techniques.
Configuring BGP Route Reflectors1:33:20
In this lecture, we are going to take a detailed look at route reflectors and how they can be used to provide efficiency and scalability with BGP.
BGP Attributes Explained1:13:08
We are going to take a look at the BGP attributes and how they can work in determining the routing path for BGP.
BGP Next Hop Processing1:07:11
In this lecture, we are going to discuss a very critical attribute - the BGP next hop attribute and how the attribute is processed in BGP.
BGP NLRI Origination1:20:29
This lecture we discuss in detail how routes can be originated into the BGP routing process.
BGP Best Path Selection Process1:23:15
In this lecture, we are going to take a detailed look at the BGP path selection process and how BGP attributes affect the routing process.
BGP Traffic Engineering with Weight and Local Preference58:35
In this lecture we are going to take a look at how the weight and local preference attributes can be used to manipulate BGP path selection.
BGP Traffic Engineering with AS-Path and MED54:35
In this lecture we are going to take a look at how the AS-path and MED attributes can be used to manipulate BGP path selection.
BGP Traffic Engineering with Communities1:05:05
In this lecture we will take a look at how to manipulate the BGP decision tree with communities.
BGP Aggregation1:46:47
In this video lecture, we will be discussing BGP aggregation and how routes are originated into BGP.
BGP Traffic Engineering with Aggregation1:06:06
In this lecture, we will talk about how BGP aggregation can be used with traffic engineering with BGP.
BGP Filtering1:06:06
In this final BGP lecture, we will learn all about BGP filtering.

Routing Protocol Convergence Overview58:06
In this first Routing Optimization lecture, we are going to be talking about the routing protocol convergence process.
Routing Protocol Failure Detection1:33:15
In this lecture we are going to take a look at how to better handle routing protocol adjacency and convergence failures.
Bidirectional Forwarding Detection1:25:17
In this lecture we are going to learn how BFD can help speed up convergence by identifying failed adjacencies in subsecond times.
Route Protocol Event Propagation Optimization1:11:12
In the penultimate lecture for the series, we are going to learn how we can optimize routing protocols to handle event propagation more effectively to speed up convergence.
EIGRP IP FRR and OSPF LFA1:21:01

Requirements

Expert Level course. Recommend at least five years of experience with infrastructure routing and switching.

Description

This program includes hundreds of hours of discussion based on the Cisco CCIE Enterprise Infrastructure Blueprint. Lesson include detailed discussions of switching topics like Etherchannel, Spanning Tree Protocol, VLANs and VTP, and advanced routing topics on EIGRP, OSPF, BGP, Policy Based Routing, and much more. Topics include the following:

Switching Topics (Estimated 21.5 Hours)

VLANs and Switching Topics (2 Hours)
VLAN Trunking Protocol (VTP) (2 Hours)
VLAN Trunking Protocol Version 3 (1.5 Hours)
EtherChannel (2 Hours)
Layer 2 EtherChannel Configuration (1.5 Hours)
Layer 3 EtherChannel Configuration (1 Hour)
Spanning Tree Protocol (2 Hours)
Optional Spanning Tree Features (2 Hours)
Rapid Spanning Tree Protocol (2 Hours)
Multiple Spanning Tree Protocol (2 Hours)
WAN Circuits (1.5 Hours)
PPP over Ethernet (PPPoE) (1 Hour)

Routing Topics (122.5 Hours)

General Routing Topics (6.5 Hours)
IPv4 Routing (2 Hours)
Policy Based Routing (1.5 Hours)
IP SLA and Enhanced Object Tracking (1.5 Hours)
GRE and IP Tunneling (1.5 Hours)
Classic EIGRP (2 Hours)
EIGRP Named Mode (2 Hours)
EIGRP Classic Metric Configuration (1.5 Hours)
EIGRP Wide Metrics (1 Hour)
EIGRP Traffic Engineering and Unequal Cost Load Balancing (2 Hours)
EIGRP Classic Authentication (1.5 Hours)
EIGRP Automatic Key Rotation (1 Hour)
EIGRP Named Mode Authentication (1 Hour)
EIGRP Summarization (2 Hours)
EIGRP Traffic Engineering with Summarization (1.5 Hours)
EIGRP over DMVPN (2 Hours)
EIGRP Stub Routing (2 Hours)
Open Shortest Path First (OSPF) (31 Hours)
OSPF Protocol and Operation Overview (2 Hours)
OSPF Single Area Configuration (2 Hours)
Troubleshooting OSPF Adjacencies (2 hours)
OSPF Areas and Link State Advertisements (2 Hours)
OSPF Media Dependencies and Network Types (1.5 Hours)
Configuring OSPF Network Types (2 Hours)
OSPF Virtual Links (2 Hours)
OSPF Stub Areas (1 Hour)
Configuring OSPF Stub Areas (1 Hour)
Traffic Engineering with OSPF Stub Areas (1.5 Hours)
Configuring OSPF Not So Stubby Areas (2 Hours)
Controlling NSSA Redistribution (1.5 Hours)
Default Routing with OSPF NSSA (2 Hours)
OSPF NSSA Translator Election and Forwarding Address (2 Hours)
OSPF Path Selection (1.5 Hours)
OSPF Authentication (2 Hours)
OSPF Authentication Enhancements (0.5 Hours)
OSPF Summarization Overview (0.5 Hours)
Configuring OSPF Summarization (2 Hours)
Dynamic Multipoint Virtual Private Networks (DMVPN) (11 Hours)
DMVPN Overview (1 Hour)
Basic DMVPN Configuration (1.5 Hours)
DMVPN Phase 1, 2 and 3 (1 Hour)
DMVPN Phase 1 Configuration (2 Hours)
Routing Protocols over DMVPN Phase 1 Part 1 (1 Hour)
Routing Protocols over DMVPN Phase 1 Part 2 (1 Hour)
DMVPN Phase 2 Configuration (2 Hours)
Routing Protocols over DMVPN Phase 2 (0.5 Hours)
DMVPN Phase 3 Configuration (1 Hour)
Route Redistribution (7 Hours)
IPv4 Route Redistribution Overview (1 Hour)
Basic Redistribution Examples (1 Hour)
Why Routing Loops Occur (1 Hour)
Preventing Routing Loops Feedback (0.5 Hours)
Redistribution Example 1 (2 Hours)
Redistribution Example 2 (1.5 Hours)
Redistribution Example 3 (1 Hour)
Border Gateway Protocol (BGP) (28 Hours)
BGP Overview (1 Hour)
Basic BGP Operations (2 Hours)
iBGP versus eBGP Peering Rules (2 Hours)
iBGP Full Mesh (2 Hours)
iBGP Scaling Techniques (1 Hour)
Configuring BGP Route Reflectors (2 Hours)
Configuring BGP Confederations (2 Hours)
BGP Next Hop Processing (2 Hours)
BGP NLRI Organization (2 Hours)
BGP Bestpath Selection (1.5 Hours)
BGP Traffic Engineering with Weight and Local Preference (1 Hour)
BGP Traffic Engineering with AS‐Path and MED (1.5 Hours)
BGP Traffic Engineering with Communities (1 Hour)
BGP Aggregation (2 Hours)
BGP Traffic Engineering with Aggregation (1 Hour)
BGP Communities (2 Hours)
BGP Filtering (2 Hours)
Optimizing Routing (8.5 Hours)
Routing Protocol Convergence Overview (1 Hour)
Routing Protocol Failure Detection (2 Hours)
Bidirectional Forwarding Detection (2 Hours)
Route Protocol Event Propagation Optimization (1.5 Hours)
EIGRP IP FRR and OSPF LFA (2 Hours)
Multiprotocol Label Switching (11 Hours)
BGP Tunneling and MPLS Use Case (2 Hours)
MPLS Overview (2 Hours)
Label Distribution Protocol (2 Hours)
Virtual Routing and Forwarding Instances (1.5 Hours)
MPLS Layer 3 VPN Overview (1.5 Hours)
MPLS L3VPN Configuration (2 Hours)

Who this course is for:

Network Administrators and Network Engineers

Cisco CCIE Enterprise Infrastructure

What you'll learn

Explore related topics

Course content

Switching10 lectures • 14hr 37min

General Routing Concepts4 lectures • 6hr 24min

Enhanced Interior Gateway Routing Protocol (EIGRP)8 lectures • 12hr 33min

Open Shortest Path First (OSPF)13 lectures • 20hr 10min

Dynamic Multipoint Virtual Private Networking (DMVPN)6 lectures • 6hr 45min

Redistribution3 lectures • 4hr 9min

Border Gateway Protocol (BGP)16 lectures • 20hr 6min

Routing Protocol Optimization5 lectures • 6hr 29min

Requirements

Description

Who this course is for: