VLSM Fundamentals: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
Line 1: | Line 1: | ||
= '''VLSM Fundamentals''' = | = '''VLSM Fundamentals''' = | ||
== | |||
== Introduction == | |||
=== Definitions === | === Definitions === | ||
Line 13: | Line 15: | ||
== Typical Classful Networks == | == Typical Classful Networks == | ||
:An 'older' method, wasteful use of IP addresses, not efficient use of IP address assignments within networks. | :An 'older' method, wasteful use of IP addresses, not efficient use of IP address assignments within networks. | ||
:Remember that when you subnet a classful network all of the networks will have the same number of hosts because they have the same subnet mask. | :Remember that when you subnet a classful network all of the networks will have the same number of hosts because they have the same subnet mask. | ||
Line 51: | Line 54: | ||
=== Steps for creating an IP plan using VLSM === | === Steps for creating an IP plan using VLSM === | ||
::* | ::* | ||
::* | ::* |
Revision as of 06:01, 6 May 2011
VLSM Fundamentals
Introduction
Definitions
- VLSM - Variable-length subnet masking. This is a more practical way of subnetting a network by efficiently using the Host bits in the subnet.
- CIDR -
Objective
- Provide a simple explanation
Typical Classful Networks
- An 'older' method, wasteful use of IP addresses, not efficient use of IP address assignments within networks.
- Remember that when you subnet a classful network all of the networks will have the same number of hosts because they have the same subnet mask.
Basic CIDR understanding
- There are also a range of IP addresses you can only used privately, not on the internet.
- These are the RFC 1918 private IP's:
- Class A 10.0.0.0 to 10.255.255.255
- Class B 172.16.0.0 to 172.32.255.255
- Class C 192.168.0.0 to 192.168.255.255
- There are also a range of IP addresses you can only used privately, not on the internet.
- 1 examine the number of bits borrowed for Host addresses.
- 2 observe the most interesting octet. This will allow you to determine the subnet mask.
- 3 determine the network increment (size of the network blocks) 256 - subnet mask = block size.
- the number of Networks is figured out by 2 to the Nth power - 2 ( N standing for the number of network bits borrowed).
- Remember that the number of networks cannot include all 0's or 1's. All 0's is the network address and the broadcast address is all 1's.
Steps to subnet in your head
- 1
- 2...
The following
- Postfix
- Send mail
VLSM Design
- VLSM is the process where you are subnetting a subnet using varying subnet masks.
- Your IP plan will determine the basic layout of networks. Multiple solutions are possible.
- Requires forethought and planning. Current and future networks.
- IP Subnet Zero.
Steps for creating an IP plan using VLSM
Implementing VLSM
- Make sure that your network assignments and subnet masks are accurate and that they fit your topology.
- Verify that your IP addresses and subnet masks to not crossover any binary and octal bit boundaries. If they are incorrect, you will receive an error when configuring router interfaces.