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Cisco® On-Demand: ROUTE-Implementing Cisco® IP Routing Course Outline

 (3 days)

**Note: This is an On-Demand Self Study Course, 3 days of content, 6-months unlimited access, $750**
You may take this course at any time and from any device, provided you have internet access.
Customers must call us directly to purchase this class at 800-288-8221.

About This Course
The Online On-Demand training course includes expert lectures, PowerPoint visuals, demonstrations, labs and Official Cert Guide.You will be able to follow along and successfully complete the course by completing the quizzes and exams.

Course Overview
This course provides students with the knowledge and skills to implement Cisco IP routing, including configuring EIGRP and the OSPF protocol.

This course takes 3 days to complete and includes 10h 8m of video presentation.

Course Outline

Chapter 01 - Routing Services
Lesson 1: Complex Enterprise Network Frameworks, Architectures, and Models
Traffic Conditions in a Converged Network
IIN: Cisco Intelligent Information Network
Three Phases of the Intelligent Information Network
Three Phases of the Intelligent Information Network Graph
Cisco SONA Framework
Cisco SONA Framework Layers
SONA: Networked Infrastructure Layer
SONA: Interactive Services Layer
SONA: Application Layer
Updated SONA Framework
Cisco Enterprise Architecture
Campus Architecture
Branch Architecture
Data Center Architecture
Teleworker Architecture
Cisco Hierarchical Network Model
Hierarchical Campus Model
The Hierarchical Model in a Wide Area Network
The Enterprise Composite Network Model
Lesson 2: Creating, Documenting, and Executing an Implementation Plan
Creating an Implementation Plan
Structured Approach
Ad-hoc Approach
Methodologies and Models
Cisco Lifecycle Services (PPDIOO) Model
Implementation Plan Documentation
Lesson 3: Overview of IP Routing
IP Routing
Dynamic Routing
Static Routing
Third Option: OnDemand Routing
Link-State Versus Distance Vector Protocols
Classless Versus Classful Routing
Discontiguous Subnets - Classful Routing
Discontiguous Subnets - Classless Routing
IP classless Command
Automatic Route Summarization
Criteria of Routing Table
Administrative Distance
Administrative Distances
Floating Static Route

Chapter 02 - Configuring the Enhanced Interior Gateway Routing Protocol
Lesson 1: Understanding EIGRP Terminology and Operation
EIGRP Attributes and Capabilities
Terminology of the EIGRP Protocol
Tables used with the EIGRP Protocol
FD versus AD
Successor and Feasible Successor
Active Routes versus Passive
Major EIGRP Technologies
Reliable Transport Protocols
Neighbor Discovery
PDMs or Protocol Dependent Modules
DUAL Finite-State Machine
Packet Types used by EIGRP
Hello Packet use by EIGRP
Acknowledgement Packets
Update Packets
Query and Reply Packets
EIGRP (AD) Administrative Distance
EIGRP Metric Calculation
EIGRP Bandwidth
Lesson 2: Planning EIGRP Routing Implementations
EIGRP Deployment Prerequisites
EIGRP Implementation
EIGRP Verification
EIGRP Documentation
Lesson 3: Configuring and Verifying EIGRP
Enable EIGRP Routing
EIGRP Passive-Interface
IP Default Network Command
Creating Summary Route at an Arbitrary Bit Boundary
Lesson 4: Configuring and Verifying EIGRP in an Enterprise WAN
WAN and EIGRP Considerations
Load Balancing with EIGRP
Unequal EIGRP Cost Load Balancing
EIGRP Bandwidth Use on WAN Links
Setting EIGRP Bandwidth in a WAN Environment
Lesson 5: Configuring and Verifying EIGRP Authentication
Authentication in Routers
Comparing MD5 Authentication to Simple Password
Preparing for the Configuration of EIGRP Authentication
The Configuration of EIGRP Authentication
Lesson 6: Optimizing EIGRP Implementations
Summarization: SIA Solution
Stub Networks
Stub Routing
Configure a Router as a Stub Router

Chapter 03 - Configuring the Open Shortest Path First Protocol
Lesson 1: Understanding OSPF Terminology and Operation
OSPF: Open Shortest Path First
Features of OSPF
Characteristics of Link-State Protocol
Router Types
Internal Router
Backbone Router
ABR or Area Border Router
ASBR: Autonomous System Boundary Router
BDR and DR Routers
Lesson 2: OSPF Packets
What are OSPF Packets used for?
OSPF Hello Packet: Type 1
OSPF DBD Packet: Type 2
OSPF LSR Packet: Type 3
OSPF LSU Packet: Type 4
OSPF LSAck Packet: Type 5
Adjacent Neighbors
Link-State Data Structures
Lesson 3: Planning OSPF Routing Implementations
Planning OSPF Deployment
OSPF Implementation
OSPF Verification
OSPF Documentation
Lesson 4: Basic OSPF Verification and Configuration
Enable OSPF Routing
OSPF Network Identification
Wildcard Mask
OSPF Network Identification (Cont.)
Interface Bandwidth Definition
OSPF Router
Router ID Definition
OSPF Verification: First Method
OSPF Verification: Second Method
OSPF Verification: Third Method
OSPF Verification: Fourth Method
OSPF Verification: Fifth Method
Clearing the OSPF Routing Table
Lesson 5: OSPF Network Types
DR: Designated Router
BDR: Backup Designated Router
DR and BDR Election Manipulation
Router Priority Assignment
DR Election
Influencing the Election Process
NBMA: Non-broadcast Multi-access
DR Election in an NBMA Topology

Chapter 04 - Manipulating Routing Updates
Lesson 1: Assessing Network Routing Performance Issues
Usual Routing Performance Problems
Running Different Protocols (At the Same Time)
Performance Solutions for Routing Protocols
Route Filtering
Lesson 2: Using Multiple Routing Protocols on a Network
Simple Protocols and Complex Networks
Having Multiple Routing Protocols Running On One Network
Complex Networks
Redistributed Routes
How to Select the Best Route
Edge and Core Routing Protocols
Routing Loops Prevention
Redistribution Guidelines
Lesson 3: Implementing Route Redistribution
Redistribution Command
Important Route Redistribution Information
Default Metric for BGP, OSPF, and RIP
Redistributing into EIGRP
Default Metric for EIGRP
Modifying the Administrative Distance
Changing the Default Administrative Distance
Changing the Default OSPF Administrative Distance
Changing the Default EIGRP Administrative Distance
Lesson 4: Controlling Routing Update Traffic
Controlling Routing Updates
Passive Interfaces
passive-interface default Command
Static Routes
Default Routes
Route Maps
To Define a Route Map
To Specify Criteria to be Matched
To Modify Matching Conditions
Define and Name the Route Map
Various Route-map Commands for PBR (Slide 1 of 2)
Various Route-map Commands for PBR (Slide 2 of 2)
Configure Route Maps for Redistribution
Redistribution Commands for Route-map (Slide 1 of 2)
Redistribution Commands for Route-map (Slide 2 of 2)
Using Distribute Lists
Define a Filter for Incoming Routing Updates
Define a Filter for Outgoing Routing Updates
Prefix Lists
Prefix List Configuration

Chapter 05 - Implementing Path Control
Lesson 1: Understanding Path Control
Path Control Network Performance Assessment
Considerations for Network Redundancy
Path Control Integrated Strategy
Lesson 2: Implementing Path Control using Offset-Lists
Path Control Using Offset Lists
Offset-List Definition
Offset Lists Verification
Lesson 3: Implementing Path Control using IOS IP SLAs
Path Control Using Cisco IOS IP SLAs
IP SLAs Applications
Operations, Responders and Sources
IP SLAs Operations
IP SLA Operation Definition
IP SLAs ICMP Echo Operation Definition
Scheduling an IP SLA Operation
IP SLA Object Tracking Configuration
Tracking Delay Configuration
IP SLAs and Static Routing
Lesson 4: Implement Path Control using Policy-Based Routing
Path Control Using PBR
PBR Configuration
PBR route-map Commands
Match Statements
Lesson 5: Advanced Path Control Tools
Cisco IOS Optimized Edge Routing
Cisco Wide Area Application Services (WAAS)

Chapter 06 - Implementing a Border Gateway Protocol Solution for ISP Connectivity
Lesson 1: BGP Terminology, Concepts, and Operation
EGP versus IGP
Autonomous Systems (AS)
AS Numbers
IGP versus BGP
Connecting Enterprise Networks to an ISP
Public IP Address Space
Connection Redundancy
BGP and Enterprise Networks
BGP Path Vector Characteristics
When to Use BGP
When Not to Use BGP
BGP Synchronization
BGP Table
BGP Tables
Path Attributes
Well-Known Mandatory: NEXT_HOP
Well-Known Mandatory: ORIGIN
Well-Known Discretionary: LOCAL_PREF
Default Local Preference Configuration
Well-Known Discretionary: ATOMIC_AGGREGATE
Optional Transitive: Community
Optional Nontransitive: MED
Cisco Weight Attribute
Lesson 2: Configuring BGP
Planning BGP Deployment
BGP Implementation
BGP Verification
Enabling BGP Routing
To Define BGP Neighbors
To Define a BGP Peer Group
To Shutdown a BGP Neighbor
IBGP Source IP Address Problem
IBGP Source IP Address Solution
BGP Synchronization
To Identify BGP Networks
BGP Authentication
To Enable MD5 Authentication
To Hard Reset BGP Sessions
To Soft Reset Outbound
Lesson 3: Verifying and Troubleshooting BGP
For Verifying BGP
Lesson 4: Basic BGP Path Manipulation Using Route Maps
Configuring Route Maps in BGP
To Match a BGP Autonomous System Path Access List
To Specify the BGP Weight for the Routing Table
To Specify a Preference Value for the AS Path
BGP Path Manipulation
To Change the Default Weight
To Configure an Autonomous System ACL
To Change the Default Local Preference for Outbound Routes
Lesson 5: Filtering BGP Routing Updates
BGP Routing Updates Filtering
To Apply BGP Filters to Routes
Planning BGP Filtering Using Prefix Lists

Chapter 07 - Implementing Routing Facilities for Branch Offices and Mobile Workers
Lesson 1: Planning the Branch Office Implementation
Branch Office Challenges
Branch Office Design Considerations
The Thin Branch
Broadband Technology Deployment
Broadband Technologies
Wireless Broadband
Municipal WiFi
Satellite Internet
Broadband Cable
Digital Subscriber Line (DSL)
Verifying PPPoA
Configure a NAT Pool
Bind the ACL and NAT Pool
Configure Static NAT
Identify NAT Interfaces
Create a Tunnel Interface
Identify the GRE Tunnel Source
Identify the GRE Tunnel Destination
Identify the Tunnel Mode
Lesson 2: Planning for Mobile Worker Implementations
Mobile Worker Connectivity
Considerations for Enterprise Mobile Workers
Business-Ready Mobile User Solution
Business-Ready VPN Components
Lesson 3: Routing Traffic to the Mobile Worker
Easy VPN Server
Routing Services for VPN Subnets
Proxy ARP
Remote Users Connections

Chapter 08 - Implementing IPv6 in the Enterprise Network
Lesson 1: Introducing IPv6
IPv6 Introduction
IPv6 Features
MTU Discovery
New IPv6 Features
IPv6 Address Specifics
Abbreviating IPv6 Addresses
Subnet Prefix
Interface Identifiers
Multiple IP Addresses per Interface
Lesson 2: Configuring and Verifying IPv6 Unicast Addresses
Enable IPv6 Routing
Enable CEF for IPv6
Enable IPv6 on an Interface
Ethernet EUI-64 Address
Enable IP Unnumbered
Enable Stateless Auto-Configuration
Alter the Neighbor Detection Parameter
Add a Neighbor Router to the Neighbor Discovery Cache
IPv6 Connectivity on FR Multipoint Links
Lesson 3: Routing IPv6 Traffic
IPv6 Routing
Lesson 4: Configuring Static Routing
Static Routing
To Configure an IPv6 Static Route
Static Routes Types
To Enable an IPv6 RIP Process on an Interface
To Configure the IPv6 RIP Routing Process
To Disable Split Horizon Route Loop Prevention Feature
Lesson 5: Configuring OSPFv3
The Protocol Implementation for IPv6 Includes these Characteristics
Link-Local Addresses Are Used
Multiple OSPFv3 Instance Support
LSA Types for IPv6
To Configure the OSPFv3 Routing Process Parameters
To Define the Router ID for OSPFv3
To Enable an OSPFv3 Instance on an Interface
To Specify the Cost of Sending a Packet on an Interface
To Change the OSPF Priority used in DR Elections
To Define an Area as a Stub or Totally-stub Area
To Summarize Routes at an Area Boundary
To Trigger a New SPF Recalculation and Repopulation of the RIB
Lesson 6: Configuring EIGRP for IPv6
EIGRP for IPv6
To Configure the EIGRP for IPv6 Routing Process Parameters
To Define the Router ID of EIGRP for IPv6
To Enable the EIGRP for IPv6 Process
To Enable EIGRP for IPv6 on an Interface
To Identify the Router as a Stub Router
To Configure a Summary Aggregate Address for an Interface
Demo - EIGRP for IPv6
Lesson 7: Multiprotocol BGP (MP-BGP)
Multiprotocol BGP (MP-BGP)
To Configure the MBGP Routing Process Parameters
To Define the BGP Router ID
To Identify Peer BGP Routers
To Configure Routing Sessions that use Standard IPv6 Address Prefixes
To Identify Peer BGP Routers
To Configure Routing Sessions that use Standard IPv6 Address Prefixes
To Identify Peer BGP Routers (cont'd)
To Apply a Route Map to Filter Incoming or Outgoing MBGP Routes

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