• Post category:StudyBullet-5
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What you will learn

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IP Networks and Subnetting Foundation

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IP Setup in Linux and Windows

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Virtual Network Setup with GNS3

Description

It is critical to know Network IP addressing and Subnetting for the IT and Non-IT professionals like Researchers, Scientific Developers to succeed in the real work and passing most IT certifications. Network IP Subnetting is basically dividing your network in different sub networks. By doing this, you can produce different broadcast networks with you one nework. There are types of Subnetting. Each subnet allows its connected devices to communicate with each other, while routers are used to communicate between subnets. The size of a subnet depends on the connectivity requirements and the network technology employed.

A point-to-point subnet allows two devices to connect, while a data center subnet might be designed to connect many more devices. This course will help you learning the basic foundation of IP address, it’s format, ways to assign them, subnetting, and how to subnet.

The benefits of subnetting an existing network vary with each deployment scenario. In the address allocation architecture of the Internet using CIDR and in large organizations, you can think it is necessary to allocate address space efficiently. If you learn how to do a good Subnetting it may also enhance routing efficiency, or have advantages in network management when subnetworks are administratively controlled by different entities in a larger organization. Your Subnets may be arranged logically in a hierarchical architecture, partitioning an organization’s network address space into a tree-like routing structure, or other structures such as meshes.

WHAT YOU’LL LEARN IN THIS COURSE:

  • IP Networks (Animated)

  • Subnetting – why do we subnet?

  • Subnet Masks and CIDR

  • DNS

  • DHCP

  • Firewall

  • Linux and Windows IPv4 Networking

  • Virtual Networks Testing with GNS3

In this course you will be learning all the important information you need to fully understand IPv4 addressing which is directly related to your Cisco CCNA, RHCSA, RHCE, MCSA and MCSE Exams, or any other IT exams you may be taking. Once you learn the details and key topics, you will learn the tricks and tools which will allow you to subnet any question quickly and accurately!

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MONEY BACK GUARANTEE IF NOT 100% SATISFIED!

When you enroll you will get lifetime access to all of the course contents and any updates and when you complete the course 100% you will also get a Certificate of completion that you can add to your resumΓ©/CV to show off to the world your new-found Python & Scientific Computing Mastery! Don’t forget to join our Q&A live community where you can get free help anytime from other students and the instructor. This awesome course is a component of the Learn Scientific Computing master course.

What are you waiting for? Click that shiny enroll button and we’ll See you inside πŸ˜‰

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English
language

Content

Introduction

Welcome
Why Get this Course?
Instructor
Practice Commands with Interactive Shell
Course Organisation
Introduction
IP
IP Header
LAN
Network Components
NIC and Protocols
Physical and Logical Port Address
Subnet
CKT and PKT Switching
ARP
DHCP
DNS
Firewalls

IP Networking – Foundation

Subnetting Concepts
IPv4 Subnetting – Basics
How Subnets Work?
IP Addressing – IPv4 and IPv6
Subnet Masks
Subnet Segmentation
VLAN
IPv4, CIDR, and VPC Subnets
How the OSI Model Works?
IP Subnetting
Subnet Benefits
TCP/IP Model
TCP/IP Handshaking and Error Handling
TCP/IP and UDP
IP Addressing
IP Header Format
IP Subnetting Example 1
IP Subnetting Example 2
CIDR Concepts
CIDR and Subnetting Exmaple

IP Networking – Switch and Router CLI

Router CLI
Switch CLI
VLAN
VLAN Trunking
ACL – Access Control Lists
ARP – Address Resoultion Protocol
DHCP – Dynamic Hosts Control Protocol
DNS – Domain Names System
Static Routes
Routing Protocols and Forwarding
RIP – Routing Information Protocol.
NAT – Network Address Translation
NTP – Network timing Protocol
SNMP – Simple Network Management Protocol
Linux vs CISCO Linux CLI
Network Logging- Syslogs
Network Spanning

Linux Commands – Foundation

Linux Commands
Linux – Redirection
Linux – Pipe
Linux – Alias
Linux – Files and Folders
Linux – Wildcards
Linux – Delete
Linux – Copy and Move
Linux – Edit Files
Linux – Locate
Linux- Find
Linux – View
Linux – Sort
Linux – Search
Linux – Archive
Linux – Cron
Linux – Software Management

IP Networking – Linux

Why Should Network Engineers Learn Linux?
How to configure networking in Linux?
Linux – IP Commands
Linux – TCP/IP Layers
Linux – Find Subnet Mask (Tricks)
Linux – Static Routing Setup
Linux – ICMP and Ping
Linux – ARP
Linux – Netstat
Linux – Tcpdump
Linux Subnetting Quiz
Linux – Bonding
Linux – Teaming
Linux – NTP
Linux – IPv6
Linux – Firewall
Linux – Firewall rules

IP Networking – Windows

Windows – IP Networking Basics
Windows – Workgroup
Windows – Domain
Windows – Network Connections
Windows – Network IP Subnet Setup
Windows – Server Setup
Windows- IPv4 Setup
Windows – Subnetting Demonstration
Windows Subnet Quiz
Windows – DHCP Server Setup
Windows – DHCP Failover Test
Windows – DNS Server Setup

IP Networking – Virtual with GNS3

What is GNS3?
GNS3
GNS3 – Setup with Vitual Machine and VMWARE Player
GNS3 – Server Config Files
GNS3 Setup
GNS3- First Network Create
GNS3 – Linux CLI
GNS3 – DHCP, NAT and Internet Setup
GNS3 – Secutiry
GNS3 – Linux Setup

Further Reading

References

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