Course Code: 16912

CCNA Implementing and Administering Cisco Solutions v1.0 Exam 200-301

Class Dates:
11/25/2024
9/30/2024
Length:
5 Days
Cost:
$4150
Class Time:
Technology:
Network
Delivery:
Instructor-Led Training, Virtual Instructor-Led Training

Overview

  • Course Overview
  • Implementing and Administering Cisco Solutions (CCNA) v1.0 is a 5-day class that teaches learners how to install, operate, configure, and verify a basic IPv4 and IPv6 network, including configuring a network components, such as switch, router, and Wireless LAN Controller; managing network devices, and identifying basic security threats. Today’s job roles are ever changing. The new CCNA will now cover wireless, overview of SD-WAN, DNA Center and Security threats.

    The goal of the course is to provide learners with the knowledge and skills that are necessary to install, configure, and operate a small to medium-sized network.

Prerequisites

  • The knowledge and skills that a learner should have before attending this course are as follows:

    Basic computer literacy
    Basic PC operating system navigation skills
    Basic Internet usage skills
    Basic IP address knowledge

Course Details

  • Section 1: Exploring the Functions of Networking
  • Identify the components of a computer network and describe their basic characteristics
  • Define a network and describe examples of networks 12 Implementing and
  • Administering Cisco Solutions (CCNA)
  • Components of a Network
  • Characteristics of a Network
  • Physical vs. Logical Topologies
  • Compare and contrast logical and physical topologies
  • Interpreting a Network Diagram
  • Impact of User Applications on the Network
  • Section 2: Introducing the Host-To-Host Communications Model
  • Host-To-Host Communications Overview
  • ISO OSI Reference Model
  • TCP/IP Protocol Suite
  • Peer-To-Peer Communications
  • Encapsulation and De-Encapsulation
  • Describe the process of encapsulation and de-encapsulation
  • TCP/IP Stack vs OSI Reference Model
  • Section 3: Operating Cisco IOS Software
  • Cisco IOS Software Features and Functions
  • Cisco IOS Software CLI Functions
  • Cisco IOS Software Modes
  • Section 4: Introducing LANs
  • Local Area Networks
  • LAN Components
  • Need for Switches
  • Characteristics and Features of Switches
  • Section 5: Exploring the TCP/IP Link Layer
  • Ethernet LAN Connection Media
  • Ethernet Frame Structure
  • Describe the fields of an Ethernet frame
  • LAN Communication Types
  • MAC Addresses
  • Frame Switching
  • Duplex Communication
  • Section 6: Starting a Switch
  • Switch Installation
  • Connecting to a Console Port
  • Switch LED Indicators
  • Basic show Commands and Information
  • Section 7: Introducing the TCP/IP Internet Layer, IPv4 Addressing, and Subnets
  • Internet Protocol, Decimal and Binary Number Systems
  • Binary-to-Decimal Conversion, Decimal-to-Binary Conversion
  • Pv4 Address Representation, Header Fields and Address Classes
  • Subnet Masks
  • Subnets
  • Implementing Subnetting: Borrowing Bits
  • Implementing Subnetting: Determining the Addressing Scheme
  • Benefits of VLSM and Implementing VLSM
  • Private vs. Public IPv4 Addresses
  • Reserved IPv4 Addresses
  • Verifying IPv4 Address of a Host
  • Section 8: Explaining the TCP/IP Transport Layer and Application Layer
  • TCP/IP Transport Layer Functions
  • Reliable vs. Best-Effort Transport
  • TCP Characteristics
  • UDP Characteristics, TCP/IP Application Layer
  • Introducing HTTP
  • Domain Name System
  • Explaining DHCP for IPv4
  • Section 9: Exploring the Functions of Routing
  • Role of a Router, Router Components
  • Router Functions
  • Routing Table
  • Path Determination
  • Section 10: Configuring a Cisco Router
  • Initial Router Setup
  • Configuring Router Interfaces
  • Configuring IPv4 Addresses on Router Interfaces
  • Checking Interface Configuration and Status
  • Exploring Connected Devices
  • Using Cisco Discovery Protocol
  • Configure and Verify LLDP
  • Implement an Initial Router Configuration
  • Section 11: Exploring the Packet Delivery Process
  • Layer 2 Addressing
  • Layer 3 Addressing
  • Default Gateways
  • Address Resolution Protocol
  • Host-To-Host Packet Delivery
  • Section 12: Troubleshooting a Simple Network
  • Troubleshooting Methods
  • Troubleshooting Tools
  • Troubleshooting Common Switch Media Issues
  • Troubleshooting Common Switch Port Issues
  • Identify common access port issues
  • Troubleshooting Common Problems Associated with IPv4 Addressing
  • Section 13: Introducing Basic IPv6
  • IPv4 Address Exhaustion Workarounds
  • IPv6 Features
  • IPv6 Addresses and Address Types
  • Comparison of IPv4 and IPv6 Headers
  • Internet Control Message Protocol Version 6
  • Neighbor Discovery
  • IPv6 Address Allocation
  • Verification of End-To-End IPv6 Connectivity
  • Section 14: Configuring Static Routing
  • Routing Operation
  • When to Use Static Routing
  • IPv4 Static Route Configuration
  • Default Routes
  • Verifying Static and Default Route Configuration
  • Configuring IPv6 Static Routes
  • Implement IPv4 Static Routing
  • Implement IPv6 Static Routing
  • Section 15: Implementing VLANs and Trunks
  • VLAN Introduction
  • Creating a VLAN
  • Assigning a Port to a VLAN
  • Trunking with 802.1Q
  • Configuring an 802.1Q Trunk
  • VLAN Design Consideration
  • Troubleshoot VLANs and Trunk
  • Section 16: Routing Between VLANs
  • Purpose of Inter-VLAN Routing
  • Options for Inter-VLAN Routing
  • Implement Multiple VLANs and Basic Routing Between the VLANs
  • Section 17: Introducing OSPF
  • Dynamic Routing Protocols
  • Path Selection
  • Link-State Routing Protocol Overview
  • Link-State Routing Protocol Data Structures
  • Introducing OSPF
  • Establishing OSPF Neighbor Adjacencies
  • OSPF Neighbor States
  • SPF Algorithm
  • Building a Link-State Database
  • Routing for IPv6
  • Section 18: Building Redundant Switched Topologies
  • Physical Redundancy in a LAN
  • Issues in Redundant Topologies
  • Spanning Tree Operation
  • Types of Spanning Tree Protocols
  • Rapid Spanning Tree Protocol
  • PortFast and BPDU Guard
  • Section 19: Improving Redundant Switched Topologies with EtherChannel
  • EtherChannel Overview
  • EtherChannel Configuration Options
  • Configuring and Verifying EtherChannel
  • Improve Redundant Switched Topologies with EtherChannel
  • Section 20: Exploring Layer 3 Redundancy
  • Need for Default Gateway Redundancy
  • Understanding FHRP
  • Understanding HSRP
  • Section 21: Introducing WAN Technologies
  • Introduction to WAN Technologies
  • WAN Devices and Demarcation Point
  • WAN Topology Options
  • WAN Connectivity Options
  • Virtual Private Networks
  • Enterprise-Managed VPNs
  • Provider-Managed VPNs
  • Section 22: Explaining Basics of ACL
  • ACL Overview
  • ACL Operation
  • ACL Wildcard Masking
  • Wildcard Mask Abbreviations
  • Types of Basic ACLs
  • Configuring Standard IPv4 ACLs
  • Configuring Extended IPv4 ACLs
  • Verifying and Modifying IPv4 ACLs
  • Applying IPv4 ACLs to Filter Network Traffic
  • Implement Numbered and Named IPv4 ACLs
  • Section 23: Enabling Internet Connectivity
  • Configure internet access using DHCP clients and explain and configure NAT on Cisco routers
  • Introducing Network Address Translation
  • NAT Terminology and Translation Mechanisms
  • Benefits and Drawbacks of NAT
  • Static NAT and Port Forwarding
  • Dynamic NAT
  • Port Address Translation
  • Configuring and Verifying Inside IPv4 NAT
  • mplement PAT
  • Section 24: Introducing QoS
  • Converged Networks
  • Quality of Service Defined
  • QoS Policy
  • QoS Mechanisms
  • QoS Models
  • Deploying End-to-End QoS
  • Section 25: Explaining Wireless Fundamentals
  • Wireless Technologies
  • WLAN Architectures
  • WLAN Components
  • WiFi Channels
  • AP and WLC Management
  • Section 26: Introducing Architectures and Virtualization
  • Introduction to Network Design
  • Enterprise Three-Tier Hierarchical Network Design
  • Spine-Leaf Network Design, Cisco Enterprise Architecture Model
  • Cloud Computing Overview, Device Architecture, Virtualization Fundamentals
  • Section 27: Explaining the Evolution of Intelligent Networks
  • Section 28: Introducing System Monitoring
  • Section 29: Managing Cisco Devices
  • Section 30: Examining the Security Threat Landscape
  • Section 31: Implementing Threat Defense Technologies
  • Section 32: Securing Administrative Access
  • Section 33: Implementing Device Hardening
  • Labs