En cours


Learning Objectives

Upon completion of this Assignment, you will be able to:

• Subnet an address space with given requirements

• Assign appropriate addresses to interfaces and document them in the address table below

• Cable the network according to the diagram

• Erase the startup configuration and reload a router to the default state.

• Configure EIGRP (or any routing protocol) routing on all routers.

• Configure and propagate a default static route.

• Verify EIGRP operation.

• Configure DHCP Server on Remote1 Router.

• Use DHCP Helper command for Remote 2 router network.

• Test and verify full connectivity.

• Reflect upon and document the network implementation.


In this lab, you will be given a summarized address which you will use to create an efficient addressing scheme to accommodate all hosts on the network. A combination of EIGRP and a static default route will be required so that hosts on networks not directly connected can communicate. You have completed this lab when each host can ping the each other.

Task 1: Create an Addressing Scheme.

Step 1: Use the address to create an addressing scheme to accommodate all hosts on the network.

Document all subnet addresses in Table 1.

Table 1

Device Interface Number of Hosts Subnet Subnet Mask

HQ Fa0/0 90

Fa0/1 60

S0/0/1 2

S0/0/0 2

Remote1 Fa0/0 30

Fa0/1 60

S0/0/1 2

Remote2 Fa0/0 128

Fa0/1 60

S0/0/0 2

Step 2: Document router interface and PC addresses in Table 2.

Write the IP address of each PC which was dynamically assigned by the DHCP Server.

Table 2

Device Interface IP Address Subnet Mask Default Gateway

HQ Fa0/0 N/A

Fa0/1 N/A

S0/0/1 N/A

S0/0/0 N/A

Lo0 [url removed, login to view] [url removed, login to view] N/A

Remote1 Fa0/0 N/A

Fa0/1 N/A

S0/0/1 N/A

Remote2 Fa0/0 N/A

Fa0/1 N/A

S0/0/0 N/A

PC1 Ethernet

PC2 Ethernet

PC3 Ethernet

PC4 Ethernet

PC5 Ethernet

PC6 Ethernet

Step 3: Cable and configure the network based on the diagram and the addressing scheme you created in the previous step.

Assign the last usable host address of each subnet to each PC.

Task 2: Configure EIGRP with Process ID 1 using Wildcard Masks.

Step 1: Configure EIGRP on the HQ router and advertise all directly connected networks except the loopback interface.

Advertise the network along with a wildcard mask for the appropriate subnet.

Step 2: Configure EIGRP on the Remote1 router and advertise all directly connected networks.

Advertise the network along with a wildcard mask for the appropriate subnet.

Step 3: Configure EIGRP on the Remote2.

Advertise the network along with a wildcard mask for the appropriate subnet.

Task 3: Discontiguous Networks.

Step 1: Configure each router so that subnet mask information about each network is propagated within the EIGRP updates.

Step 2: Verify that each router has a path to each network in the autonomous system.

Task 4: Static Default Route

Step 1: Configure a static default route on the HQ router to the loopback interface.

Step 2: Propagate the static default route in the HQ routing update.

Step 3: Verify that the static default route is received by the Remote1 and Remote2 routers.

Step 4: Ping the loop back interface on the ISP router from each host.

Was PC1 successful? ___________

Was PC2 successful? ___________

Was PC3 successful? ___________

Was PC4 successful? ___________

Was PC5 successful? ___________

Was PC6 successful? ___________

If you are not successful, troubleshoot configurations using the appropriate show and debug commands.

Compétences : DNS

Voir plus : subnetting, test scenario, static interface, loop back, helper table, create network diagram, router configure, pc troubleshoot, network implementation, mask, loopback, learning path, learning network, lab test, ethernet, erase a, dhcp, create operation, cable network, advertise system, configuration according, wildcard dns, commands interface, addressing scheme, loop table

Concernant l'employeur :
( 4 commentaires ) melbourne, Australia

N° du projet : #1067986