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Why create a subnet mask? Tells device which part of an address is the network # including the subnet and which part is the host Filters the node IP address.

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Presentation on theme: "Why create a subnet mask? Tells device which part of an address is the network # including the subnet and which part is the host Filters the node IP address."— Presentation transcript:

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2 Why create a subnet mask? Tells device which part of an address is the network # including the subnet and which part is the host Filters the node IP address to determine which subnet it belongs to NETWORK/SUBNET/HOST

3 How to Create Subnets 2 7 2 6 2 5 2 4 2 3 2 2 2 1 2 0 1286432168421 1 0 0 0 0 0 00 128 1 1 0 0 0 0 00 192 1 1 1 0 0 0 00 224 1 1 1 1 0 0 00 240 1 1 1 1 1 0 00 248 1 1 1 1 1 1 00 252 1 1 1 1 1 1 10 254 1 1 1 1 1 1 11 255

4 The class determines which part of the address belongs to the network and which part belongs to the host Class A NNNNNNNN.hhhhhhhh.hhhhhhhh.hhhhhhhh Class B NNNNNNNN.NNNNNNNN.hhhhhhhh.hhhhhhhh Class C NNNNNNNN.NNNNNNNN.NNNNNNNN.hhhhhhhh

5 IP Subnet addressing default subnet masks In Binary Form Class A 11111111.00000000.00000000.00000000 Class B 11111111.11111111.00000000.00000000 Class C 11111111.11111111.11111111.00000000 Class A - 255.0.0.0 Class B - 255.255.0.0 Class C - 255.255.255.0

6 Restrictions on subnets Network addresses of all 0’s in the host portion are reserved for specifying the network Network addresses of all 1’s in the host portions are reserved for the broadcast address

7 How an IP address Is Composed Part of the 32 Bits represents A network ID The remainder is Used to represent A host with the network

8 Network & Host IDs Network ID – Each network has a unique network number –Each Network connected to the Internet has to have a globally unique ID – no other Internet- connected network in the world can have the same Network ID Host ID – –Within a given network – Host IDs are used to identify hosts Hosts – any device that needs to be addressed by an IP address - computers, printers, routers, etc. –Host IDs must be unique within a given network.

9 How Bits Are Set Up for Each IP Address Class Note – This shows the binary values in the first 3 bits of the 3 classes: 0?? For class A 10? For class B 110 for class C

10 How Address Classes Affect a Network 00000001 10000000 11000000 01111110 10111111 11011111 Ranges of 1st octet network ID’s A B C

11 “private” address – cannot be routed on the internet

12 IP Address Guidelines First Octet Network ID Rules –Network ID cannot be 127. –ID bits cannot be all “1”s. –ID bits cannot be all “0”s. For class B or C Network IDs –Second octet (and the third octet for class C networks) can be any number from 1 -255, or 00000000 to 11111111 Class B: 131.0.x.x or 131.255.x.x are OK Class C: 200.0.0.x or 200.255.255.x or 200.255.0 are all OK

13 IP Address Guidelines First Octet Network ID Rules –Network ID cannot be 127. –ID bits cannot be all “1”s. –ID bits cannot be all “0”s. For class B or C Network IDs –Second octet (and the third octet for class C networks) can be any number from 1 -255, or 00000000 to 11111111 Class B: 131.0.x.x or 131.255.x.x are OK Class C: 200.0.0.x or 200.255.255.x or 200.255.0 are all OK

14 Problems with default masks They only provide for a single network segment –Class C – 255.255.255.0 allows for a maximum of 254 hosts on the segment –Class B – 255.255.0.0 allows for a maximum of 65,534 hosts on the segment –Class C – 255.0.0.0 allows for a maximum of 16,777,214 hosts on the segment –Beyond class C networks, current LAN technologies will not support anywhere near the maximum number of hosts/segment Since there is only 1 network segment: –Difficult to use different topologies in the LAN (Ethernet, FDDI, Token Ring) –Difficult to have a geographically dispersed LAN connected using a WAN technology.

15 Common masks Masks –255.255.252.0 /22 1024 hosts –255.255.254.0 /23 512 hosts –255.255.255.0 0 /24 256 hosts –255.255.255.128 0 + 128 /25 128 hosts –255.255.255.192 128 + 64 /26 64 hosts –255.255.255.224 192 + 32 /27 32 hosts –255.255.255.240 224 + 16 /28 16 hosts –255.255.255.248 240 + 8 /29 8 hosts 255.255.255.252 248 + 4 /30 4 hosts –255.255.255.254 252 + 2 /31 not usable –255.255.255.255 254 + 1 /32 single host –Learn or memorize them. –Or, use the addition trick in column 2

16 Subnetting IP Addresses Variable length subnet masks –Could subnet a class B into several chunks Network Host Network HostSubnet 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 Subnet Mask

17 Problem #1: Lifetime of Address Space Example: an organization needs 500 addresses. A single class C address not enough (256 hosts). Instead a class B address is allocated. (~64K hosts) That’s overkill -a huge waste.

18 IPv4 Addressing Dotted Decimal Notation Dotted Decimal Notation –Four bytes (8 bits = 1 byte) per address –Each byte separated by a dot –Each byte expressed in decimal notation Example: –Dotted Decimal Notation: 192.16.224.254 –Binary Notation?: –What is the minimum decimal value any byte can be assigned? –What is the maximum decimal value any byte can be assigned?


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