CISCO CCENT Routing & Switching ICND1 Day ATLANTA SPECIAL | Course Outline | ATG Learning

Course Outline

CISCO CCENT Routing & Switching ICND1 Day ATLANTA SPECIAL

CSCO-2130S | Day | 5 Days

As Enterprises migrate toward controller based architectures, the role and skills required of a core network engineer are evolving and more vital than ever. To prepare for this network transition, the CCNA Routing and Switching certification will not only prepare you with the knowledge of foundational technologies, but ensure you stay relevant with skill sets needed for the adoption of next generation technologies.

COURSE INFORMATION

As Enterprises migrate toward controller based architectures, the role and skills required of a core network engineer are evolving and more vital than ever. To prepare for this network transition, the CCNA Routing and Switching certification will not only prepare you with the knowledge of foundational technologies, but ensure you stay relevant with skill sets needed for the adoption of next generation technologies.

WHAT IS INCLUDED?

Each student will receive:

  • In person Instruction
  • Courseware
  • Hands-on training
  • Certification exam
  • Access to on-site authorized Pearson VUE testing center
  • Airfare
  • Hotel
  • Breakfast, lunch & refreshments

COURSE SCHEDULE

Dates: August 12-16, 2019

Monday-Friday: 9am to 7pm

Weekend stay between ICND 1 & 2 included. $100 credit if only one ICND taken.
From anywhere on US mainland. *Add $500 for Hawaii/Alaska/Canada.

Who should take this course

The CCNA Routing and Switching certification is for IT professionals looking to expand upon and document their existing skills in CISCO technology. This course is intended for students seeking to earn their CCNA Routing and Switching certification and who need an expert instructor to guide them throughout the training and exam preparation process.

Course Objectives

The CCNA Routing and Switching boot camp helps you master the following topics:

Course Outline

Part I Networking Fundamentals

Chapter 1 Introduction to TCP/IP Networking

Perspectives on Networking

TCP/IP Networking Model

OSI Networking Model

Chapter 2 Fundamentals of Ethernet LANs

An Overview of LANs

Building Physical Ethernet Networks with UTP

Sending Data in Ethernet Networks

Chapter 3 Fundamentals of WANs

Leased-Line WANs

Ethernet as a WAN Technology

Accessing the Internet

Chapter 4 Fundamentals of IPv4 Addressing and Routing

Overview of Network Layer Functions

IPv4 Addressing

IPv4 Routing

IPv4 Routing Protocols

Other Network Layer Features

Chapter 5 Fundamentals of TCP/IP Transport and Applications

TCP/IP Layer 4 Protocols: TCP and UDP

TCP/IP Applications

Part II Implementing Basic Ethernet LANs

Chapter 6 Using the Command-Line Interface

Accessing the Cisco Catalyst Switch CLI

Configuring Cisco IOS Software

Chapter 7 Analyzing Ethernet LAN Switching

LAN Switching Concepts

Verifying and Analyzing Ethernet Switching

Chapter 8 Configuring Basic Switch Management

Securing the Switch CLI

Enabling IPv4 for Remote Access

Miscellaneous Settings Useful in Lab

Chapter 9 Configuring Switch Interfaces

Configuring Switch Interfaces

Port Security

Part III Ethernet LANs: Design, VLANs, and Troubleshooting

Chapter 10 Analyzing Ethernet LAN Designs

Analyzing Collision Domains and Broadcast Domains

Analyzing Campus LAN Topologies

Analyzing LAN Physical Standard Choices

Chapter 11 Implementing Ethernet Virtual LANs

Virtual LAN Concepts

VLAN and VLAN Trunking Configuration and Verification

Chapter 12 Troubleshooting Ethernet LANs

Perspectives on Applying Troubleshooting Methodologies

Analyzing Switch Interface Status and Statistics

Predicting Where Switches Will Forward Frames

Analyzing Port Security Operations on an Interface

Analyzing VLANs and VLAN Trunks

Part IV IP Version 4 Addressing and Subnetting

Chapter 13 Perspectives on IPv4 Subnetting

Introduction to Subnetting

Analyze Subnetting and Addressing Needs

Make Design Choices

Plan the Implementation

Chapter 14 Analyzing Classful IPv4 Networks

Classful Network Concepts

Practice with Classful Networks

Chapter 15 Analyzing Subnet Masks

Subnet Mask Conversion

Identifying Subnet Design Choices Using Masks

Chapter 16 Analyzing Existing Subnets

Defining a Subnet

Analyzing Existing Subnets: Binary

Analyzing Existing Subnets: Decimal

Practice Analyzing Existing Subnets

Part V Implementing IPv4

Chapter 17 Operating Cisco Routers

Installing Cisco Routers

Enabling IPv4 Support on Cisco Router Interfaces

Router Interfaces

Router Auxiliary Port

Chapter 18 Configuring IPv4 Addresses and Static Routes

IP Routing

Configuring IP Addresses and Connected Routes

Configuring Static Routes

Chapter 19 Learning IPv4 Routes with RIPv2

RIP and Routing Protocol Concepts

Core RIPv2 Configuration and Verification

Optional RIPv2 Configuration and Verification

Troubleshooting RIPv2

Chapter 20 DHCP and IP Networking on Hosts

Implementing and Troubleshooting DHCP

Verifying Host IPv4 Settings

IPv4 Address Types

Part VI IPv4 Design and Troubleshooting

Chapter 21 Subnet Design

Choosing the Mask(s) to Meet Requirements

Finding All Subnet IDs

Chapter 22 Variable-Length Subnet Masks

VLSM Concepts and Configuration

Finding VLSM Overlaps

Adding a New Subnet to an Existing VLSM Design

Chapter 23 IPv4 Troubleshooting Tools

Problem Isolation Using the ping Command

Problem Isolation Using the traceroute Command

Telnet and SSH

Chapter 24 Troubleshooting IPv4 Routing

Problems Between the Host and the Default Router

Problems with Routing Packets Between Routers

Part VII IPv4 Services: ACLs and NAT

Chapter 25 Basic IPv4 Access Control Lists

IPv4 Access Control List Basics

Standard Numbered IPv4 ACLs

Practice Applying Standard IP ACLs

Chapter 26 Advanced IPv4 Access Control Lists

Extended Numbered IP Access Control Lists

Named ACLs and ACL Editing

Troubleshooting with IPv4 ACLs

Chapter 27 Network Address Translation

Perspectives on IPv4 Address Scalability

Network Address Translation Concepts

NAT Configuration and Troubleshooting

Part VIII IP Version 6

Chapter 28 Fundamentals of IP Version 6

Chapter 29 IPv6 Addressing and Subnetting

Global Unicast Addressing Concepts

Unique Local Unicast Addresses

Chapter 30 Implementing IPv6 Addressing on Routers

Implementing Unicast IPv6 Addresses on Routers

Special Addresses Used by Routers

Chapter 31 Implementing IPv6 Addressing on Hosts

The Neighbor Discovery Protocol

Dynamic Configuration of Host IPv6 Settings

Troubleshooting IPv6 Addressing

Chapter 32 Implementing IPv6 Routing

Connected and Local IPv6 Routes

Static IPv6 Routes

Part IX Network Device Management
Chapter 33 Device Management Protocols

System Message Logging (Syslog)

Network Time Protocol (NTP)

Analyzing Topology Using CDP and LLDP

Chapter 34 Device Security Features

Securing IOS Passwords

Cisco Device Hardening

Chapter 35 Managing IOS Files

Managing Cisco IOS Images and Upgrades

Password Recovery

Managing Configuration Files

Chapter 36 IOS License Management

IOS Packaging

IOS Software Activation with Universal Images

Managing Software Activation with Cisco License Manager