Computer Network : Internet Protocol, IPv4 and Subnetting 1

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Computer Network : Internet Protocol, IPv4 and Subnetting 1 (Size: 7.7 GB)
  0 204.8 B
  001 Datagram Fragmentation How to divide packets at intermediate Router.mp4 223.3 MB
  001 Different Types of Delays 1. Queueing Delay and 2. Processing Delay.mp4 239.8 MB
  001 Different Types of Delays 1. Queueing Delay and 2. Processing Delay_en.vtt 10.4 KB
  1 209.7 KB
  001 Datagram Fragmentation How to divide packets at intermediate Router_en.vtt 10.3 KB
  001 IPv4 Introduction.mp4 89 MB
  001 IPv4 Introduction_en.vtt 3.5 KB
  001 Why Subnetting required.mp4 146.6 MB
  001 Why Subnetting required_en.vtt 6.8 KB
  002 Different Types of Delays 3. Transmission Delay.mp4 234 MB
  002 Different Types of Delays 3. Transmission Delay_en.vtt 10.8 KB
  002 IPv4 Bits and Range.mp4 157.4 MB
  002 Setting Identification Number, More Fragment (MF bit) and Offset for Fragments.mp4 288.6 MB
  002 Setting Identification Number, More Fragment (MF bit) and Offset for Fragments_en.vtt 13 KB
  002 Subnetting Introduction Definition.mp4 31.3 MB
  2 180.3 KB
  002 IPv4 Bits and Range_en.vtt 6.5 KB
  002 Subnetting Introduction Definition_en.vtt 1.4 KB
  3 413.2 KB
  003 Classification of IPv4.mp4 50.4 MB
  003 Classification of IPv4_en.vtt 1.9 KB
  003 Different Types of Delays 4. Propagation Delay.mp4 139.1 MB
  003 Different Types of Delays 4. Propagation Delay_en.vtt 6.5 KB
  003 How to reassemble Fragments at Destination Host.mp4 244.1 MB
  003 How to reassemble Fragments at Destination Host_en.vtt 11.1 KB
  003 Number of bits required for Subnetting.mp4 187.1 MB
  003 Number of bits required for Subnetting_en.vtt 8.4 KB
  004 Class A Theoretical.mp4 82.1 MB
  004 Class A Theoretical_en.vtt 3.7 KB
  004 Fragmentation on Fragmented Packet and Reassembling them at Destination.mp4 506.9 MB
  004 Fragmentation on Fragmented Packet and Reassembling them at Destination_en.vtt 22.3 KB
  004 Round Trip Time_en.vtt 12.8 KB
  4 112.3 KB
  004 Round Trip Time.mp4 270.9 MB
  004 Subnetwork Creation Example 1 Selecting subnetwork bits from host part.mp4 167.8 MB
  004 Subnetwork Creation Example 1 Selecting subnetwork bits from host part_en.vtt 7.2 KB
  005 Class B Theoretical.mp4 53.8 MB
  005 Class B Theoretical_en.vtt 2.1 KB
  005 Subnetwork Creation Example 1 Subnet Range and number of hosts per subnet.mp4 94.5 MB
  005 Time Out.mp4 98.5 MB
  005 Time Out_en.vtt 4.7 KB
  5 220.2 KB
  005 Subnetwork Creation Example 1 Subnet Range and number of hosts per subnet_en.vtt 4.1 KB
  006 Class C Theoretical_en.vtt 2.2 KB
  006 Piggybacking Acknowledgement.mp4 46.9 MB
  6 73.3 KB
  006 Class C Theoretical.mp4 61.3 MB
  006 Piggybacking Acknowledgement_en.vtt 2.1 KB
  006 Subnetwork Creation Example 1 Finding Subnetwork ID for each Subnetwork.mp4 76 MB
  006 Subnetwork Creation Example 1 Finding Subnetwork ID for each Subnetwork_en.vtt 3 KB
  007 Different Types of Errors_en.vtt 10 KB
  007 Important Note.mp4 29.4 MB
  7 306.9 KB
  007 Different Types of Errors.mp4 216.9 MB
  007 Important Note_en.vtt 1.1 KB
  007 Subnetwork Creation Example 2 Different subnet bit position from example 1.mp4 355.8 MB
  007 Subnetwork Creation Example 2 Different subnet bit position from example 1_en.vtt 14.7 KB
  008 Why Subnetmask required.mp4 128.8 MB
  008 Why Subnetmask required_en.vtt 5.5 KB
  008 Why Theoretical Class A,B,C not possible to Implement Practically.mp4 105 MB
  008 Why Theoretical Class A,B,C not possible to Implement Practically_en.vtt 4.2 KB
  8 881.2 KB
  009 Practical Ranges for Class A, B, C, D and E.mp4 146.2 MB
  9 250.2 KB
  009 Practical Ranges for Class A, B, C, D and E_en.vtt 5.6 KB
  009 Subnetmask Introduction Definition.mp4 58.7 MB
  009 Subnetmask Introduction Definition_en.vtt 2.5 KB
  010 Class A Practical.mp4 176.4 MB
  10 428.9 KB
  010 Class A Practical_en.vtt 6.7 KB
  010 Subnetmask Example 1.mp4 76.7 MB
  010 Subnetmask Example 1_en.vtt 3.2 KB
  011 Class B Practical.mp4 129 MB
  11 48.6 KB
  011 Class B Practical_en.vtt 4.6 KB
  011 Subnetmask Example 2.mp4 183 MB
  011 Subnetmask Example 2_en.vtt 7.6 KB
  012 Class D Practical.mp4 107.8 MB
  012 Subnetmask Example 3.mp4 104.1 MB
  012 Subnetmask Example 3_en.vtt 4.3 KB
  TutsNode.com.txt 102.4 B
  [TGx]Downloaded from torrentgalaxy.to .txt 614.4 B
  12 731.7 KB
  012 Class D Practical_en.vtt 4.1 KB
  013 Class E Practical.mp4 65.3 MB
  013 Class E Practical_en.vtt 2.2 KB
  013 Question Finding subnetmask.mp4 156.3 MB
  013 Question Finding subnetmask_en.vtt 6.8 KB
  13 49.4 KB
  14 133.2 KB
  014 Classification Conclusion A, B, C, D and E.mp4 61.4 MB
  014 Classification Conclusion A, B, C, D and E_en.vtt 2.4 KB
  014 Default representation of Subnetmask along with IP Address.mp4 181.4 MB
  014 Default representation of Subnetmask along with IP Address_en.vtt 7.8 KB
  15 958.1 KB
  015 Extracting SubNetwork Id and Host Id from IP address by using Subnetmask.mp4 244.7 MB
  015 Extracting SubNetwork Id and Host Id from IP address by using Subnetmask_en.vtt 10.2 KB
  015 Total IP Addresses Possible in IPv4.mp4 82.3 MB
  015 Total IP Addresses Possible in IPv4_en.vtt 3.4 KB
  016 Extracting Network Id and Host Id from IP address.mp4 162.8 MB
  16 6.4 KB
  016 Extracting Network Id and Host Id from IP address_en.vtt 7.2 KB
  016 How to create Subnetwork Broadcast IP Address.mp4 238.6 MB
  016 How to create Subnetwork Broadcast IP Address_en.vtt 10 KB
  017 Question On Subnetmask_en.vtt 9.3 KB
  17 597.3 KB
  017 Broadcast IP address for Network.mp4 141.6 MB
  017 Broadcast IP address for Network_en.vtt 6.4 KB
  017 Question On Subnetmask.mp4 222 MB
  018 Why Variable Length Subnetmask (VLSM) required.mp4 268.8 MB
  18 652.4 KB
  018 Why Variable Length Subnetmask (VLSM) required_en.vtt 11.7 KB
  019 Creating Variable Length Subnetmask (VLSM).mp4 366.5 MB
  019 Creating Variable Length Subnetmask (VLSM)_en.vtt 16 KB
  19 224.2 KB
  20 183.5 KB
  020 Extracting SubNetwork Id by using VLSM.mp4 249.9 MB
  020 Extracting SubNetwork Id by using VLSM_en.vtt 10.7 KB
  021 Further depth on VLSM.mp4 154.2 MB
  021 Further depth on VLSM_en.vtt 6.6 KB
  21 658.5 KB
  22 755.4 KB
  23 832.5 KB
  24 447.7 KB
  25 854 KB
  26 414.1 KB
  27 931.9 KB
  29 170.7 KB
  30 227.5 KB
  31 975 KB
  32 887.6 KB
  33 559.6 KB
  34 538.5 KB
  35 37.4 KB
  36 686.3 KB
  37 931.1 KB
  38 289.1 KB
  39 975.6 KB
  40 759 KB
  41 584.3 KB
  42 758.8 KB
  43 328.2 KB
  44 211.9 KB
  45 637.6 KB
  46 121.3 KB
  47 684.2 KB
  31115984-queue-and-processing-delay.txt 409.6 B
  ▲ 148 total files

Description


Description

IP Addressing (IPv4), Subnetting and Internet Protocol (Maximum Transmission Unit) :

Do you want learn IP addressing clearly?

Do you want study how subnetting working thoroughly?

Do you want understand how Internet Protocol doing Datagram Fragmentation easily?

Then, you are in right page. In this course, discussion started from very basics and discussed up to maximum depth possible. For every topic, solid situations and numerical problems are discussed and solved.

WHAT YOU’LL LEARN IN THIS COURSE:

IPv4
Numbering Systems and conversion (Binary to Decimal and Decimal to Binary).
IPv4 Address Format.
Classes in IPv4 – A, B, C, D and E (Theoretically and Practically).
Ranges possible for every class and how they will work.
Extracting network address and host address.
Broadcast IP address for Main network.
Subnetting
Why subnetting required.
No.of bits required for subnetting and how to set these bits.
Total possible ways for setting subnetting bits.
Why subnetmask required and how to set subnetmask.
Fixed Length Subnetmask (FLSM)
Solid subnetwork examples
Extracting subnetwork id and host id
Variable Length Subnetmask (VLSM)
Setting broadcast IP address for subnetwork.
Internet Protocol (Maximum Transmission Unit)
Why Fragmentation happen and where it will happen.
How Datagram Fragmentation will happen.
How to assemble Fragments at destination.
How to perform Fragmentation on already Fragmented packets.

Bonus :

You will be familiar with binary number system and conversions ( easy and fast techniques are used).

Solid practice questions will be given for self assessment.

WHO CAN TAKE THIS COURSE:

Students.
For certifications like CCNA, CCNP, MCSE+, A+, and all network related certifications.
GATE CS/IT aspirants.
Competitive exam aspirants.
Anybody seeking to learn about computer networks.

Thank you for coming this course page. See you in the course. All the best…
Who this course is for:

For Academic Students
For Certification
For Competitive Exams

Requirements

No Prerequisites required.

Last Updated 3/2021

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