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Fig. 1 - Designed topology for configurationBog'liq penerbit, 006Fig. 1 - Designed topology for configuration
4.
Simulation of the Conceptual Model
As in the actual implementation, the simulation was performed at this stage. Topology, which also works as a
simulate on the tool and been developed using GNS3. As shown in Fig. 1, three areas are configured and simulated
with the following objects used in the design.
Area 0
a.
one unit cisco router 2600 (R1) with two fast ethernet ports,
b.
one unit cisco router 2600 (R2) with two fast ethernet ports and two ethernet ports,
c.
one unit cisco router 2600 (R3) with two fast ethernet ports and one ethernet port.
Area 1
a.
two units cisco router 3600 (R4 and R5) with three ethernet ports,
b.
two units PC which connected with two routers.
Area 2
a.
one unit PC which connected to a router, R3.
5.
Result and Discussion
In this simulation, the network address in Area 0 that connects R1 to R2 is 192.168.1.0/24, while R1 to R3 is
192.168.13.0/24, and R2 to R3 is 192.168.48.0/24. Then, in Area 1, R4 connected to R2 with a network address of
192.168.4.0/24, while R4 to end-user (PC2) with network address 192.168.8.0/24. The same router, R4 with network
address 192.168.5.0/24 connected to R5. The R5 link to R3 with network address 192.168.6.0/24 and linked with the
end-user (PC3) with network address 192.168.9.0/24. Finally, in Area 2, PC1 link to R3 with network address
192.168.19.0/24. All of these areas performing the EIGRP routing protocol.
With this topology, the interfacing is performing for each router. Fig. 2 until 4 shows the configuration of network
switching parameters for R1, R2 and R3, respectively. Thus, all routers are connected, and the ping test has been
complete with the simulation results shown in Fig. 5 until 7.
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