Asus GigaX2024B User Manual

78

GigaX2024B L2 Managed Switch User Manual

Note

Subnet masks are used to define subnets (what you get after dividing a network

into smaller pieces). A subnetʼs network ID is created by “borrowing” one or

more bits from the host ID portion of the address. The subnet mask identifies

these host ID bits.
For example, consider a class C network 192.168.1. To split this into two

subnets, you would use the subnet mask:

255.255.255.128

Itʼs easier to see whatʼs happening if we write this in binary:

11111111. 11111111. 11111111.10000000

As with any class C address, all of the bits in field1 through field 3 are part of

the network ID, but note how the mask specifies that the first bit in field 4 is also

included. Since this extra bit has only two values (0 and 1), this means there

are two subnets. Each subnet uses the remaining 7 bits in field4 for its host IDs,

which range from 0 to 127 (instead of the usual 0 to 255 for a class C address).
Similarly, to split a class C network into four subnets, the mask is:

255.255.255.192 or 11111111. 11111111. 11111111.11000000

The two extra bits in Field 4 can have four values (00, 01, 10, 11), so there are

four subnets. Each subnet uses the remaining six bits in field4 for its host IDs,

ranging from 0 to 63.

Sometimes a subnet mask does not specify any additional

network ID bits, and thus no subnets. Such a mask is called a

default subnet mask. These masks are:
Class A:

255.0.0.0

Class B:

255.255.0.0

Class C:

255.255.255.0

These are called default because they are used when a network

is initially configured, at which time it has no subnets.