Static Configuration of Class C and Class B – Advance LAB

In this lab, I will show you Static Configuration of Class C and Class B on 2 Routers

VLSM

Given Network: 192.168.0.0

Host Requirement on Router 1: 4000

Host Requirement on Router 2: 2048

Router 1<= 4000

4000<= 2n – 2

4000<= 212 – 2

4000<= 4096 – 2

4000<= 4094

Total number of network bit = 32

32 – n = 32 – 12 = 20 (CIDR of Router 1 network i.e. Given network)

i.e. 192.168.0.0/20

N.S.M = 11111111.11111111.11110000.00000000

                        = 255.255.240.0

Block Size        = 256 – N.S.M

                        = 256 – 240 = 16

Note: Add this block size in given network so that we can get our new network for Router 2.

so the new network is 192.168.16.0/?

Now find FVH, LVH and Broadcast address

Given Network19216800
First Valid Host-FVH19216801
Last Valid Host-LVH19216815254
Broadcast19216815255
New Network192168160

Router 2<= 2048

2000 <= 2n – 2

2000 <= 211 – 2

2000 <= 2048 – 2

2000 <= 2046

Total number of network bits = 32

32 – n = 32 – 11 = 21 (CIDR of Router 2 network i.e. New network)

i.e. 192.168.16.0/21

N.S.M = 11111111.11111111.11111000.00000000

                        = 255.255.248.0

Block Size        = 256 – N.S.M

                        = 256 – 248 = 8

Note: Add this block size in given network so that we can get our new network for Router 1 and 2 (Virtual Network).

so the new network is 192.168.24.0?

Now find FVH, LVH and Broadcast address

Given Network192168160
First Valid Host-FVH192168161
Last Valid Host-LVH19216823254
Broadcast19216823255
New Network192168240

Router 1 and Router 2 <= 2 (we required only two IP to connect two routers)

2 <= 2n – 2

2 <= 22 – 2

2 <= 4 – 2

2 <= 2

Total number of network bits = 32

32 – n = 32 – 2 = 30 (CIDR of Virtual network (R1&R2))

i.e. 192.168.24.0/30

N.S.M = 11111111.11111111.11111111.11111100

                        = 255.255.255.252

Block Size        = 256 – N.S.M

                        = 256 – 252 = 4

Note: Add this block size in given network so that we can get our new network for Router 3. This network can be used in future.

so the new network is 192.168.24.4/?

Now find FVH, LVH and Broadcast address

Given Network192168240
First Valid Host-FVH192168241
Last Valid Host-LVH192168242
Broadcast192168243
New Network192168244

Basic Configuration on Router 1

Router>enable
Router#configure terminal
Router(config)#hostname R1
R1(config)#interface fastEthernet 0/0
R1(config-if)#ip address 192.168.0.1 255.255.240.0
R1(config-if)#no shutdown
R1(config-if)#exit  

R1(config)#interface serial 0/0/0
R1(config-if)#ip address 192.168.24.1 255.255.255.252
R1(config-if)#clock rate 64000
R1(config-if)#no shutdown
R1(config-if)#exit
R1(config)#exit
R1#write

Basic Configuration on Router 2

Router>enable
Router#configure terminal
Router(config)#hostname R2
R2(config)#interface fastEthernet 0/0
R2(config-if)#ip  address 192.168.16.1 255.255.248.0
R2(config-if)#no shutdown
R2(config-if)#exit  

R2(config)#interface serial 0/1/0
R2(config-if)#ip address 192.168.24.2 255.255.255.252
R2(config-if)#no shutdown
R2(config-if)#exit
R2(config)#exit
R2#write

Static Configuration on Router 1

R1>enable
R1#configure terminal
R1(config)#ip route 192.168.16.0                 255.255.248.0             192.168.24.2
R1(config)#exit
R1#write

Static Configuration on Router 2

R2>enable
R2#configure terminal
R2(config)#ip route 192.168.0.0                   255.255.240.0             192.168.24.1
R2(config)#exit
R2#write

Verification on Router 1

R1#show ip route  
C    192.168.0.0/20 is directly connected, FastEthernet0/0
S    192.168.16.0/21 [1/0] via 192.168.24.2     
192.168.24.0/30 is subnetted, 1 subnets C      
192.168.24.0 is directly connected, Serial0/0/0

Verification on Router 2

R2#show ip route  
S    192.168.0.0/20 [1/0] via 192.168.24.1
C    192.168.16.0/21 is directly connected, FastEthernet0/0     
192.168.24.0/30 is subnetted, 1 subnets
C       192.168.24.0 is directly connected, Serial0/1/0

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