Study the scenario and complete the questions that follow: Implementing VLSM, VLAN Interconnection, OSPF Configuration Implementing VLSM, VLAN Interconnection, OSPF Configuration, and Connectivity Verification in a University Network. As a network administrator at a prestigious university, you have been tasked with planning and implementing a robust network infrastructure that supports Variable Length Subnet Masking (VLSM), VLAN interconnection, OSPF configuration, and connectivity verification. Upon completion of this lab, you will be able to effectively plan for IP addresses using VLSM, configure VLAN interconnection, implement OSPF, and verify connectivity within the university network. Lab Objectives: Plan for IP addresses using VLSM to efficiently allocate address space within the university network. Configure VLAN interconnection to facilitate communication and resource sharing between different departments and segments. Implement OSPF as the dynamic routing protocol to ensure optimal routing and connectivity within the network. Verify end-to-end connectivity and data transfer to ensure that the network infrastructure is functioning as intended. Topology Diagram 800/1 WAN3 50.00 Fa0/0 10.10.10.0.29 Router1 50.0/0 Fa0/0 500/1 2811 Router 3 WAN1 WAN2 Server-PT Web Server2 50.0.0 Pitch Backbone 2811 Router2 Fa0/18 Fa0/18 wtch Building 1 50/0/1 Fa0/0-20.20.20.0/27 Server-PT Web Server1 2960 24TT Swtch2 bulding 2 WRT300N Wireless Router dut PC-FT PC1 tut FC-PT PC2vut PC-PT PC3 dut WRT300N Wireless Router tut WRT300N Wireless Router vut SMARTPHONE PT Pdatut SMARTPHONE-PT Pda dut SMARTPHONE-PT Pdavut
Study the scenario and complete the questions that follow: Implementing VLSM, VLAN Interconnection, OSPF Configuration Implementing VLSM, VLAN Interconnection, OSPF Configuration, and Connectivity Verification in a University Network. As a network administrator at a prestigious university, you have been tasked with planning and implementing a robust network infrastructure that supports Variable Length Subnet Masking (VLSM), VLAN interconnection, OSPF configuration, and connectivity verification. Upon completion of this lab, you will be able to effectively plan for IP addresses using VLSM, configure VLAN interconnection, implement OSPF, and verify connectivity within the university network. Lab Objectives: Plan for IP addresses using VLSM to efficiently allocate address space within the university network. Configure VLAN interconnection to facilitate communication and resource sharing between different departments and segments. Implement OSPF as the dynamic routing protocol to ensure optimal routing and connectivity within the network. Verify end-to-end connectivity and data transfer to ensure that the network infrastructure is functioning as intended. Topology Diagram 800/1 WAN3 50.00 Fa0/0 10.10.10.0.29 Router1 50.0/0 Fa0/0 500/1 2811 Router 3 WAN1 WAN2 Server-PT Web Server2 50.0.0 Pitch Backbone 2811 Router2 Fa0/18 Fa0/18 wtch Building 1 50/0/1 Fa0/0-20.20.20.0/27 Server-PT Web Server1 2960 24TT Swtch2 bulding 2 WRT300N Wireless Router dut PC-FT PC1 tut FC-PT PC2vut PC-PT PC3 dut WRT300N Wireless Router tut WRT300N Wireless Router vut SMARTPHONE PT Pdatut SMARTPHONE-PT Pda dut SMARTPHONE-PT Pdavut
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The network address 172.30.0.0/16 is given. You need to design an IP plan for the network illustrated in Figure1 above using VLSM. Take note of the following:
VLAN 10 (tut) has 200 users
VLAN 20 (vut)has 100 users
VLAN 30 (dut)has 250 users
WAN1 has 2 users
WAN2 has 2 users
WAN3 has 2 users
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