Ccna 200-301 Complete Course - Not Just Another Ccna Course

A complete course which covers all the exam topics of CCNA 200-301. It includes 18 Hours of Theory and 9 Hours of Lab.

What you'll learn
This course covers all exam topics of the CCNA 200-301 Exam and will enable you to pass the exam. It includes all learning notes and hands-on Lab Manuals.
Become confident in Network & Security Fundamentals, Routing, Switching, wireless Technology, IP services, Network Automation & programmability
To setup, configure and troubleshoot real networks in packet tracer and GNS3 tool. Also, learn how real-world network works
Learn different career options in the networking field, what kind of jobs you can take, and why you must pursue your career in this field?
This course will make you from ZERO to HERO in the networking field
It will give you WINGS to FLY HIGH and take your career to the next level
Requirements
This is beginner level course and does not require any pre-requisite knowledge of networking
However, the candidate must know how to use a computer with internet connection
Description
Learn CCNA from a Triple CCIE (R&S, Security, SP) certified instructor in just 27 Hours. The instructor has 15 years of extensive experience in the network industry. It is an engaging course which include animations on several important topics, infographic slides and extensive lab practice.The course is divided into six different chapters as follows:1.    Network Fundamentals2.    Network Access3.    IP Connectivity4.    IP Services5.    Security Fundamentals6.    Automation and ProgrammabilityIn “Network fundamentals” chapter, we have covered History of Networking Standards,TCP/IP, OSI, Transport Layer, TCP & UDP, Multiplexing, Virtualization, Cloud Computing, Cabling types, IPv4 & IPv6 addressing, IPv4 subnetting, Default Gateway.In “Network Access” chapter, we have covered Switching technology, Wireless technology, and Cisco WLAN deployments.In “IP Connectivity” chapter, we have covered IP routing process, static and dynamic routing, and FHRP protocols.In “IP Services” chapter, we have covered DNS, NAT, DHCP, SNMP, FTP, TFTP, and QOS.“Security fundaments” chapter is composed of security terminologies, different types of attacks & vulnerabilities, AAA, TACACS+, RADIUS, Security program, Internet VPN, ACLs, standard and extended ACL.“Automation & programmability” chapter is comprised of Types of planes, controllers, SDN, NBI, SBI, APIC, ACI, Cisco SDA, Rest API, Software CRUD actions, HTTP verbs, URI, DATA Serialization, JSON, traditional configuration model versus centralized configuration model, ANSIBLE, PUPPET, and CHEF.So, are you ready to Jumpstart your career in networking?

Overview

Section 1: Introduction

Lecture 1 Instructor's profile, why it is the best course, Exam topics, & Course Duration

Lecture 2 What is your REASON to study CCNA?

Lecture 3 What is CCNA, who is CISCO, why to follow cisco learning program

Lecture 4 What Jobs you can take as a Network Engineer?

Section 2: Chapter 1: Network Fundamentals

Lecture 5 History of Networking Standards

Lecture 6 What is TCP/IP?

Lecture 7 Comparing OSI and TCP/IP Models

Lecture 8 TCP/IP Transport Layer

Lecture 9 Compare TCP to UDP

Lecture 10 Multiplexing using port numbers

Lecture 11 TCP connection establishment and termination

Lecture 12 Server Virtualization

Lecture 13 Cloud Computing Services

Lecture 14 Ethernet cable & Fiber optic cable

Lecture 15 Understanding Binary, Decimal, and Hexadecimal numbers

Lecture 16 What is an IP Address?

Lecture 17 Understanding Network Addressing and its different classes

Lecture 18 Private IP addresses (RFC 1918), Layer 2 & 3 Broadcast, Subnet Mask, and CIDR

Lecture 19 Understanding IPv4 Subnetting Rules with help of Class C Network Address Example

Lecture 20 IPv4 Subnetting using Class B addresses

Lecture 21 IPv4 Subnetting using Class A addresses

Lecture 22 Understanding Unicast, Broadcast, Multicast and IPv4 address types

Lecture 23 What is an IPv6 Address?

Lecture 24 IPv6 address expression, IPv6 address types, and IPv6 global routing prefix

Lecture 25 IPv6 Global Routing Prefix & IPv6 Subnetting

Lecture 26 How IPv6 Addressing works? Manual, Stateless & Stateful Auto-Configuration

Lecture 27 What is Anycast Address? And how does it work?

Lecture 28 IP Parameters for a Client OS: IP, Subnet Mask, Default Gateway, DNS

Lecture 29 Verify IP parameters for Client OS (Windows, Mac OS, Linux)

Section 3: Chapter 2: Network Access

Lecture 30 Introduction

Lecture 31 Understanding Collision Domain and Broadcast Domain

Lecture 32 Understanding Different Types of Network Devices

Lecture 33 What is a HUB device? How does it work?

Lecture 34 What is a Switch? Understanding Layer 2 Switching & unknown unicast flooding

Lecture 35 What is a Bridge Device? How does it work?

Lecture 36 Half Duplex and Full Duplex Ethernet

Lecture 37 What is a VLAN? How does it work?

Lecture 38 Understanding Switch Port Types: Access, Voice Access, Trunk

Lecture 39 What is a TRUNK port? How does it work?

Lecture 40 Understanding Native VLAN, Untagged frames, ISL, 802.1Q, VTP

Lecture 41 Understanding INTER-VLAN routing and its different scenarios

Lecture 42 Cisco Packet Tracer: Introduction and Setup

Lecture 43 LAB1: Configure and verify initial switch configuration including remote access

Lecture 44 LAB2: Verify network status and switch operation using basic utilities

Lecture 45 LAB3: Configure speed, duplex, and description

Lecture 46 LAB4: Configure, verify, and troubleshoot VLANs (Normal/Extended)

Lecture 47 LAB5: Configure, verify, and troubleshoot Inter-Switch connectivity

Lecture 48 LAB5A: Configure Inter-VLAN routing - Scenario 1

Lecture 49 LAB5B: Configure Inter-VLAN routing - Scenario 2

Lecture 50 LAB5C: Configure Inter-VLAN routing - Scenario 3

Lecture 51 Spanning Tree Protocol (STP)

Lecture 52 Spanning Tree Terminologies

Lecture 53 Spanning Tree Port Roles

Lecture 54 Spanning Tree Port Stages

Lecture 55 Understanding Convergence

Lecture 56 Spanning Tree Link cost

Lecture 57 Spanning Tree protocol Operation

Lecture 58 Spanning Tree Protocol Animation

Lecture 59 Types of Spanning Tree Protocols

Lecture 60 LAB6: Spanning tree & toolkit configuration

Lecture 61 LAB7: Configure and verify layer 2 protocols (CDP,LLDP)

Lecture 62 Understanding EtherChannel

Lecture 63 LAB8: Configure, verify, and troubleshoot L2/L3 EtherChannel

Lecture 64 Understanding Power Over Ethernet (POE), Terminology and operation

Lecture 65 Campus LAN topologies and design terminologies

Lecture 66 Understanding Wireless Technology

Lecture 67 Understanding Wireless Access point (AP)

Lecture 68 Understanding Other Wireless Topologies

Lecture 69 Understanding Radio Frequency (RF), Wireless Band, and channels

Lecture 70 Access Point and Wireless Standards

Lecture 71 Securing a Wireless Connection

Lecture 72 Understanding Wireless Authentication methods

Lecture 73 Understanding EAP and its authentication methods

Lecture 74 Understanding TKIP (Temporal Key Integrity Protocol)

Lecture 75 Understanding CCMP & GCMP

Lecture 76 Understanding WPA, WPA2, and WPA3

Lecture 77 Understanding Different Types of Access Points

Lecture 78 Understanding Light Weight AP(Access-point) and WLC (Wireless LAN Controller)

Lecture 79 Understanding Cloud Based AP Architecture and Securing WLAN

Lecture 80 Scaling AP (Access point) and WLC (Wireless LAN Controller)

Lecture 81 Understanding Cisco WLAN Deployments options

Lecture 82 Understanding Cisco Light-Weight AP(Access-Point) modes

Section 4: 3. IP Connectivity

Lecture 83 Router - What is it and how it works?

Lecture 84 Longest Match Rule

Lecture 85 IP Routing Process

Lecture 86 Cisco Router Internal Process

Lecture 87 Routing Table

Lecture 88 Routing Protocol Basics

Lecture 89 Types of Routing

Lecture 90 Static Routing

Lecture 91 Default Route

Lecture 92 GNS3: Introduction and setup guide

Lecture 93 GNS3: Setting up Lab Topology

Lecture 94 LAB 1: Network Topology Setup with Initial configuration

Lecture 95 LAB 2: Static and Default Routing

Lecture 96 Dynamic Routing

Lecture 97 OSPF Introduction, Areas, OSPF Routers

Lecture 98 OSPF Terminologies

Lecture 99 OSPF Network Types

Lecture 100 OSPF Operation

Lecture 101 OSPF Metric

Lecture 102 OSPF: Single Area vs Multi Area

Lecture 103 OSPF Adjacency requirements

Lecture 104 OSPF: How to Memorize it?

Lecture 105 LAB 3: Enabling OSPF

Lecture 106 LAB 4: Configure single area OSPF version 2

Lecture 107 FHRP (First Hop Redundancy Protocols)

Lecture 108 HSRP (Hot Standby Router Protocol)

Lecture 109 LAB 5: IPv6 Topology setup with Initial configuration

Lecture 110 LAB 6: IPv6 static routing

Section 5: 4. IP Services

Lecture 111 DNS: What is it and how it works?

Lecture 112 NAT (Network Address Translation) - Introduction, types, terminology

Lecture 113 NAT: How does it work?

Lecture 114 LAB 1: STATIC NAT

Lecture 115 LAB 2: Dynamic NAT

Lecture 116 LAB 3: NAT Overload (PAT)

Lecture 117 LAB 4: NTP

Lecture 118 DHCP: What is it and how it works?

Lecture 119 LAB 5: DHCP

Lecture 120 LAB 6: DHCP Relay

Lecture 121 SNMP: What is it and how it works?

Lecture 122 Securing SNMP

Lecture 123 Understanding FTP Protocol, FTP Server, Client, and connection process

Lecture 124 FTP connection types and modes

Lecture 125 Understanding TFTP

Lecture 126 QOS: Overview and why we need it?

Lecture 127 QOS: How it manages network traffic

Lecture 128 Understanding different types of network traffic and their QoS requirements

Lecture 129 QOS tools

Lecture 130 QOS: Classification & Marking tool, Queuing tools

Lecture 131 QOS Marking: IPP, DSCP, COS, and marking fields

Lecture 132 QOS Marking: Understanding EF, AF, and CS markings

Lecture 133 QOS: Congestion Managment(Queuing), Round Robin Scheduling(Prioritization), LLQ

Lecture 134 QOS: Shaping and policing

Lecture 135 QOS: Trust Boundaries

Lecture 136 QOS: Prioritization strategy for Data, Voice, and Video

Section 6: 5. Security Fundamentals

Lecture 137 Understanding Security Terminologies

Lecture 138 Address spoofing attacks

Lecture 139 Denial of Service (DOS) attack

Lecture 140 Reflection and Amplification attack

Lecture 141 Review: TCP/IP and ARP

Lecture 142 Man in the Middle attack

Lecture 143 Reconnaissance attacks, Buffer overflow attacks, and Malware

Lecture 144 Human Vulnerabilities

Lecture 145 Password Vulnerabilities and Password alternatives

Lecture 146 AAA, TACACS+, and RADIUS

Lecture 147 Developing a security program

Lecture 148 Internet VPN and its types

Lecture 149 LAB 1: Switchport security

Lecture 150 LAB 2: SSH

Lecture 151 ACL(Access-lists)

Lecture 152 Types of Access-list, Inbound and outbound ACL

Lecture 153 ACL implementation guidelines

Lecture 154 Standard Access-List

Lecture 155 Wild Card Mask

Lecture 156 LAB 3: Standard Access-list

Lecture 157 LAB 4: Standard Access-list

Lecture 158 LAB 5: Controlling VTY(Telnet/SSH) access

Lecture 159 Extended Access-list

Lecture 160 LAB 6: Extended ACL

Lecture 161 Named Access-list

Lecture 162 LAB 7: Named Standard Access-list

Lecture 163 LAB 8: Named Extended Access-list

Section 7: 6. Network Automation & Programmability

Lecture 164 Data Plane, Control Plane, and Managment Plane

Lecture 165 Controllers, Software Defined Architecture, NBI, and SBI

Lecture 166 Network programmability and SDN solutions

Lecture 167 Cisco Application Centric Infrastructure (APIC)

Lecture 168 ACI Operating Model with Intent Based Networking

Lecture 169 Cisco APIC Enterprise Model

Lecture 170 Comparing Traditional vs controller-based networks

Lecture 171 Cisco SDA (Software Defined Access) and DNA (digital network architecture)

Lecture 172 Cisco SDA - Underlay

Lecture 173 Cisco SDA underlay roles and SDA overlay

Lecture 174 Cisco SDA - IP Address usage

Lecture 175 Revisiting Layer 2 switching, Layer 3 routing & forwarding process

Lecture 176 Understanding SDA forwarding

Lecture 177 Cisco DNA center & SDA Security

Lecture 178 Traditional network management platform vs DNA center

Lecture 179 REST API

Lecture 180 Data & Variables

Lecture 181 REST API & HTTP, Software CRUD actions and HTTP verbs

Lecture 182 HTTP verbs and URI

Lecture 183 DATA Serialization

Lecture 184 Understanding JSON

Lecture 185 Per device (Traditional) configuration model vs Centralized configuration model

Lecture 186 Configuration provisioning, templates and variables, management tools & Files

Lecture 187 ANSIBLE, PUPPET, and CHEF

A person who is passionate to begin his career in the field of IT and Networks with ZERO knowledge,College students, Undergraduate students, and Fresh graduates who wish to get a thorough idea about IT & Network field and its future potential,Entry Level IT engineers who want to grow their career to the next level in the field of networking,System Engineers & administrators, cloud engineers, network security engineers, and IT desktop support engineers who lack network & switching infrastructure knowledge, how network functions, how traffic flows into the network end to end, and how to troubleshoot the basic network problems