11.10.1 Packet Tracer – Design and Implement a VLSM Addressing Scheme Answers

Last Updated on October 2, 2021 by Admin

11.10.1 Packet Tracer – Design and Implement a VLSM Addressing Scheme Answers

   CCNA 1 v7 & 7.02   
Final Exam Answers
CCNA 1 7.02 - Modules 11 - 13
Modules 11 - 13 Exam Answers Online Test
CCNA 1 7.02 - Modules 14 - 15
Modules 14 - 15 Exam Answers Online Test
CCNA 1 ITN v7.02 - Packet Tracer Activities Answers & Solutions
11.5.5 Packet Tracer – Subnet an IPv4 Network Answers
11.7.5 Packet Tracer – Subnetting Scenario Answers
11.9.3 Packet Tracer – VLSM Design and Implementation Practice Answers
11.10.1 Packet Tracer – Design and Implement a VLSM Addressing Scheme Answers
11.10.2 Packet Tracer – Design and Implement a VLSM Addressing Scheme – Physical Mode
12.6.6 Packet Tracer – Configure IPv6 Addressing Answers
12.9.1 Packet Tracer – Implement a Subnetted IPv6 Addressing Scheme Answers
12.9.2 Packet Tracer – Configure IPv6 Addresses on Network Devices – Physical Mode Answers
13.2.6 Packet Tracer – Verify IPv4 and IPv6 Addressing Answers
13.2.7 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity Answers
13.3.1 Packet Tracer – Use ICMP to Test and Correct Network Connectivity Answers
13.3.2 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity – Physical Mode Answers
CCNA 1 ITN v7.02 - Student Lab Answers & Solutions
11.6.6 Lab – Calculate IPv4 Subnets Answers
11.10.2 Lab – Design and Implement a VLSM Addressing Scheme Answers
12.7.4 Lab – Identify IPv6 Addresses Answers
12.9.2 Lab – Configure IPv6 Addresses on Network Devices Answers
13.3.2 Lab – Use Ping and Traceroute to Test Network Connectivity Answers

Packet Tracer – Design and Implement a VLSM Addressing Scheme (Answers Version)

Answers Note: Red font color or gray highlights indicate text that appears in the Answers copy only.

Addressing Table

Device

Interface

IP Address

Subnet Mask

Default Gateway

[[R1Name]]

G0/0

[[R1G0Add]]

[[R1G0Sub]]

N/A

[[R1Name]]

G0/1

[[R1G1Add]]

[[R1G1Sub]]

N/A

[[R1Name]]

S0/0/0

[[R1S0Add]]

[[R1S0Sub]]

N/A

[[R2Name]]

G0/0

[[R2G0Add]]

[[R2G0Sub]]

N/A

[[R2Name]]

G0/1

[[R2G1Add]]

[[R2G1Sub]]

N/A

[[R2Name]]

S0/0/0

[[R2S0Add]]

[[R2S0Sub]]

N/A

[[S1Name]]

VLAN 1

[[S1Add]]

[[S1Sub]]

[[R1G0Add]]

[[S2Name]]

VLAN 1

[[S2Add]]

[[S2Sub]]

[[R1G1Add]]

[[S3Name]]

VLAN 1

[[S3Add]]

[[S3Sub]]

[[R2G0Add]]

[[S4Name]]

VLAN 1

[[S4Add]]

[[S4Sub]]

[[R2G1Add]]

[[PC1Name]]

NIC

[[PC1Add]]

[[PC1Sub]]

[[R1G0Add]]

[[PC2Name]]

NIC

[[PC2Add]]

[[PC2Sub]]

[[R1G1Add]]

[[PC3Name]]

NIC

[[PC3Add]]

[[PC3Sub]]

[[R2G0Add]]

[[PC4Name]]

NIC

[[PC4Add]]

[[PC4Sub]]

[[R2G1Add]]

Objectives

In this lab you will design a VLSM addressing scheme given a network address and host requirements. You will configure addressing on routers, switches, and network hosts.

  • Design a VLSM IP addressing scheme given requirements.
  • Configure addressing on network devices and hosts.
  • Verify IP connectivity.
  • Troubleshoot connectivity issues as required.

Background / Scenario

You have been asked to design, implement, and test an addressing scheme for a customer. The customer has given you the network address that is suitable for the network, the topology, and the host requirements. You will implement and test your design.

Instructions

You have been given the network address [[DisplayNet]] by your customer. The host address requirements are:

Requirements

Host Requirements:

LAN

Number of Addresses Required

[[S1Name]] LAN

[[HostReg1]]

[[S2Name]] LAN

[[HostReg2]]

[[S3Name]] LAN

[[HostReg3]]

[[S4Name]] LAN

[[HostReg4]]

Design Requirements

  • Create the addressing design. Follow guidelines provided in the curriculum regarding the order of the subnets.
  • The subnets should be contiguous. There should be no unused address space between subnets.
  • Provide the most efficient subnet possible for the point-to-point link between the routers.
  • Document your design in a table such as the one below.

Subnet Description

Number of Hosts Needed

Network Address/CIDR

First Usable Host Address

Broadcast Address

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

blank

Configuration Requirements

Note: You will configure addressing on all devices and hosts in the network.

  • Assign the first usable IP addresses in the appropriate subnets to [[R1Name]] for the two LAN links and the WAN link.
  • Assign the first usable IP addresses in the appropriate subnets to [[R2Name]] for the two LANs links. Assign the last usable IP address for the WAN link.
  • Assign the second usable IP addresses in the appropriate subnets to the switches.
  • The switch management interface should be reachable from hosts on all of the LANs.
  • Assign the last usable IP addresses in the appropriate subnets to the hosts.

If the addressing design and implementation are correct, all hosts and devices should be reachable over the network.

ID:[[indexAdds]][[indexNames]][[indexTopos]]

End of document

Answers Notes:

The following addressing tables represent the three possible addressing scenarios the student may get. Note that the Device column is independent of the addressing scheme. For example, a student could receive the device names from Scenario 1 and the addressing scheme from Scenario 3. In addition, the three possible topologies are also independent of the device names and the addressing scheme (click reset in the activity to see the different topologies). Therefore, this activity uses three independent variables with three possible values each for a total of 27 possible combinations (3 device names x 3 addressing schemes x 3 topologies = 27 isomorphs).

Scenario 1 – Network Address: 10.1.1.0/24

Subnet Table

Subnet Description

Number of Hosts Needed

Network Address/CIDR

First Usable Host Address

Last Usable Host Address

Broadcast Address

WS-2 LAN

47

10.1.1.0/26

10.1.1.1

10.1.1.62

10.1.1.63

ES-2 LAN

28

10.1.1.64/27

10.1.1.65

10.1.1.94

10.1.1.95

ES-1 LAN

11

10.1.48.96/28

10.1.1.97

10.1.1.110

10.1.1.111

WS-1 LAN

5

10.1.48.112/29

10.1.1.113

10.1.1.118

10.1.1.119

WAN Link

2

10.1.48.120/30

10.1.1.121

10.1.1.122

10.1.1.123

Device Addressing Table

Device

Interface

Address

Subnet Mask

Default Gateway

East

G0/0

10.1.1.97

255.255.255.240

N/A

East

G0/1

10.1.1.65

255.255.255.224

N/A

East

S0/0/0

10.1.1.121

255.255.255.252

N/A

West

G0/0

10.1.1.113

255.255.255.248

N/A

West

G0/1

10.1.1.1

255.255.255.192

N/A

West

S0/0/0

10.1.1.122

255.255.255.252

N/A

ES-1

VLAN 1

10.1.1.98

255.255.255.240

10.1.1.97

ES-2

VLAN 1

10.1.1.66

255.255.255.224

10.1.1.65

WS-1

VLAN 1

10.1.1.114

255.255.255.248

10.1.1.113

WS-2

VLAN 1

10.1.1.2

255.255.255.192

10.1.1.1

PC E1-22

NIC

10.1.1.110

255.255.255.240

10.1.1.97

PC E2-47

NIC

10.1.1.94

255.255.255.224

10.1.1.65

PC W1-201

NIC

10.1.1.118

255.255.255.248

10.1.1.113

PC W2-87

NIC

10.1.1.62

255.255.255.192

10.1.1.1

East

en

conf t

int g0/0

ip add 10.1.1.97 255.255.255.240

no shut

int g0/1

ip add 10.1.1.65 255.255.255.224

no shut

int s0/0/0

ip add 10.1.1.121 255.255.255.252

no shut

West

en

conf t

int g0/0

ip add 10.1.1.113 255.255.255.248

no shut

int g0/1

ip add 10.1.1.1 255.255.255.192

no shut

int s0/0/0

ip add 10.1.1.122 255.255.255.252

no shut

ES-1

en

conf t

int vlan 1

ip add 10.1.1.98 255.255.255.240

no shut

ip def 10.1.1.97

ES-2

en

conf t

int vlan 1

ip add 10.1.1.66 255.255.255.224

no shut

ip def 10.1.1.65

WS-1

en

conf t

int vlan 1

ip add 10.1.1.114 255.255.255.248

no shut

ip def 10.1.1.113

WS-2

en

conf t

int vlan 1

ip add 10.1.1.2 255.255.255.192

no shut

ip def 10.1.1.1

Scenario 2 – Network Address: 172.19.67.0/24

Subnet Table

Subnet Description

Number of Hosts Needed

Network Address/CIDR

First Usable Host Address

Last Usable Host Address

Broadcast Address

HQ-1 LAN

19

172.19.67.0/27

172.19.67.1

172.19.67.30

172.19.67.31

HQ-2 LAN

23

172.19.67.32/27

172.19.67.33

172.19.67.62

172.19.67.63

Remote-1 LAN

11

172.19.67.64/28

172.19.67.65

172.19.67.78

172.19.67.79

Remote-2 LAN

7

172.19.67.80/28

172.19.67.81

172.19.67.94

172.19.67.95

WAN Link

2

172.19.67.96/30

172.19.67.97

172.19.67.98

172.19.67.99

Device Addressing Table

Device

Interface

Address

Subnet Mask

Default Gateway

HQ

G0/0

172.19.67.1

255.255.255.224

N/A

HQ

G0/1

172.19.67.33

255.255.255.224

N/A

HQ

S0/0/0

172.19.67.97

255.255.255.252

N/A

Remote

G0/0

172.19.67.65

255.255.255.240

N/A

Remote

G0/1

172.19.67.81

255.255.255.240

N/A

Remote

S0/0/0

172.19.67.98

255.255.255.252

N/A

HQ-1

VLAN 1

172.19.67.2

255.255.255.224

172.19.67.1

HQ-2

VLAN 1

172.19.67.34

255.255.255.224

172.19.67.33

Remote-1

VLAN 1

172.19.67.66

255.255.255.240

172.19.67.65

Remote-2

VLAN 1

172.19.67.82

255.255.255.240

172.19.67.81

WS116

NIC

172.19.67.30

255.255.255.224

172.19.67.1

WS145

NIC

172.19.67.62

255.255.255.224

172.19.67.33

WS203

NIC

172.19.67.78

255.255.255.240

172.19.67.65

WS234

NIC

172.19.67.94

255.255.255.240

172.19.67.81

HQ

en

conf t

int g0/0

ip add 172.19.67.1 255.255.255.224

no shut

int g0/1

ip add 172.19.67.33 255.255.255.224

no shut

int s0/0/0

ip add 172.19.67.97 255.255.255.252

no shut

Remote

en

conf t

int g0/0

ip add 172.19.67.65 255.255.255.240

no shut

int g0/1

ip add 172.19.67.81 255.255.255.240

no shut

int s0/0/0

ip add 172.19.67.98 255.255.255.252

no shut

HQ-1

en

conf t

int vlan 1

ip add 172.19.67.2 255.255.255.224

no shut

ip def 172.19.67.1

HQ-2

en

conf t

int vlan 1

ip add 172.19.67.34 255.255.255.224

no shut

ip def 172.19.67.33

Remote-1

en

conf t

int vlan 1

ip add 172.19.67.66 255.255.255.240

no shut

ip def 172.19.67.65

Remote-2

en

conf t

int vlan 1

ip add 172.19.67.82 255.255.255.240

no shut

ip def 172.19.67.81

Scenario 3 – Network Address: 192.168.203.0/24

Subnet Table

Subnet Description

Number of Hosts Needed

Network Address/CIDR

First Usable Host Address

Last Usable Host Address

Broadcast Address

PS-115 LAN

31

192.168.203.0/26

192.168.203.1

192.168.203.62

192.168.203.63

PS-101 LAN

19

192.168.203.64/27

192.168.203.65

192.168.203.94

192.168.203.95

PD-2 LAN

21

192.168.203.96/27

192.168.203.97

192.168.203.126

192.168.203.127

PD-1 LAN

14

192.168.203.128/28

192.168.203.129

192.168.203.142

192.168.203.143

WAN Link

2

192.168.203.144/30

192.168.203.145

192.168.203.146

192.168.203.147

Device Addressing Table

Device

Interface

Address

Subnet Mask

Default Gateway

Police

G0/0

192.168.203.129

255.255.255.240

N/A

Police

G0/1

192.168.203.97

255.255.255.224

N/A

Police

S0/0/0

192.168.203.145

255.255.255.252

N/A

Schools

G0/0

192.168.203.65

255.255.255.224

N/A

Schools

G0/1

192.168.203.1

255.255.255.192

N/A

Schools

S0/0/0

192.168.203.146

255.255.255.252

N/A

PD-1

VLAN 1

192.168.203.130

255.255.255.240

192.168.203.129

PD-2

VLAN 1

192.168.203.98

255.255.255.224

192.168.203.97

PS-101

VLAN 1

192.168.203.66

255.255.255.224

192.168.203.65

PS-115

VLAN 1

192.168.203.2

255.255.255.192

192.168.203.1

PD-1-11

NIC

192.168.203.142

255.255.255.240

192.168.203.129

PD-2-23

NIC

192.168.203.126

255.255.255.224

192.168.203.97

PS-101-87

NIC

192.168.203.94

255.255.255.224

192.168.203.65

PS-115-12

NIC

192.168.203.62

255.255.255.192

192.168.203.1

Police

en

conf t

int g0/0

ip add 192.168.203.129 255.255.255.240

no shut

int g0/1

ip add 192.168.203.97 255.255.255.224

no shut

int s0/0/0

ip address 192.168.203.145 255.255.255.252

no shut

Schools

en

conf t

int g0/0

ip add 192.168.203.65 255.255.255.224

no shut

int g0/1

ip add 192.168.203.1 255.255.255.192

no shut

int s0/0/0

ip address 192.168.203.146 255.255.255.252

no shut

PD-1

en

conf t

int vlan 1

ip add 192.168.203.130 255.255.255.240

no shut

ip def 192.168.203.129

PD-2

en

conf t

int vlan 1

ip add 192.168.203.98 255.255.255.224

no shut

ip def 192.168.203.97

PS-101

en

conf t

int vlan 1

ip add 192.168.203.66 255.255.255.224

no shut

ip def 192.168.203.65

PS-115

en

conf t

int vlan 1

ip add 192.168.203.2 255.255.255.192

no shut

ip def 192.168.203.1

   CCNA 1 v7 & 7.02   
Final Exam Answers
CCNA 1 7.02 - Modules 11 - 13
Modules 11 - 13 Exam Answers Online Test
CCNA 1 7.02 - Modules 14 - 15
Modules 14 - 15 Exam Answers Online Test
CCNA 1 ITN v7.02 - Packet Tracer Activities Answers & Solutions
11.5.5 Packet Tracer – Subnet an IPv4 Network Answers
11.7.5 Packet Tracer – Subnetting Scenario Answers
11.9.3 Packet Tracer – VLSM Design and Implementation Practice Answers
11.10.1 Packet Tracer – Design and Implement a VLSM Addressing Scheme Answers
11.10.2 Packet Tracer – Design and Implement a VLSM Addressing Scheme – Physical Mode
12.6.6 Packet Tracer – Configure IPv6 Addressing Answers
12.9.1 Packet Tracer – Implement a Subnetted IPv6 Addressing Scheme Answers
12.9.2 Packet Tracer – Configure IPv6 Addresses on Network Devices – Physical Mode Answers
13.2.6 Packet Tracer – Verify IPv4 and IPv6 Addressing Answers
13.2.7 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity Answers
13.3.1 Packet Tracer – Use ICMP to Test and Correct Network Connectivity Answers
13.3.2 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity – Physical Mode Answers
CCNA 1 ITN v7.02 - Student Lab Answers & Solutions
11.6.6 Lab – Calculate IPv4 Subnets Answers
11.10.2 Lab – Design and Implement a VLSM Addressing Scheme Answers
12.7.4 Lab – Identify IPv6 Addresses Answers
12.9.2 Lab – Configure IPv6 Addresses on Network Devices Answers
13.3.2 Lab – Use Ping and Traceroute to Test Network Connectivity Answers
0 0 votes
Article Rating
Subscribe
Notify of
guest
0 Comments
Inline Feedbacks
View all comments