Official Work Order Network Engineering Team Background: The company has recently undergone an expansion program, which has resulted in the purchase of two remote sites each located in Singapore and New Zealand respectively. This has necessitated the requirement to establish WAN connectivity between the sites. Although it has not yet been decided on what technology will be utilized for the WAN connectivity, an urgent requirement exists for the development of a prototype and business proposal to not only modernize the entire network infrastructure but to also select and configure an enhanced routing protocol that will support continued expansion and future modernization. Description of work to be performed Review the current network specification and recommend a routing process that will support the following: Fast Convergence. VLSM. Authentication. Unequal cost load balancing. Cisco Discovery Protocol. Dot1q trunking. Replace the current mixture of CISCO, NORTEL and JUNIPER routers with models that will support CDP and an advanced routing protocol for the business WAN. Provide a subnetting scheme using the scheme at part 2. Provide a recommendation/justification for the upgrade of the current routers and equipment that will support the business requirements. Provide all relevant documentation including: Logical Topology diagram. Physical Topology diagram. Test and troubleshoot the prototype, providing the results in a professional report. Provide a working prototype using relevant supporting prototyping software applications. Configure routers as DHCP servers to support the attached LANs. Provide a default route to the ISP router for all hosts to access the internet via the Headquarters router. ISP Router configuration Configure the ISP router with all basic configuration and security. Provide a Static route on the ISP router (summarizing all networks on the company Network) to direct all data back to the company networks from the Web Server. The network address between the ISP and headquarters router is /30. The network between the ISP and Web server is /30.

Why? > Setting up new expansion for business How is it a business solution?

Equipment requirements Headquaters site 1 X 1841 router with 4 serial and 2 fa. Interfaces 2 x Ethernet 2960 switches each connecting a Local area Network. Quantity of PCs representing the number of clients on each network segment. 1 X DNS Server to provide for Name resolution for the remote Web Server located at the ISP ( 1 X 19 inch rack for mounting all equipment. Power distribution for all equipment including backup power systems. Safety assessment sheet for the Telecommunications Room. Remote Site 1 1 X 1841 router with four Serial and two FastEthernet interfaces. 2 x Ethernet 2960 switches each connecting a Local area Network. Quantity of PCs representing the number of clients on each network segment. 1 X 19 inch rack for mounting all equipment. Power distribution for all equipment including backup power systems. Safety assessment sheet for the Telecommunications Room.

Equipment requirements Remote Site 2 1 X 1841 router with four Serial and two FastEthernet interfaces. 2 x Ethernet 2960 switches each connecting a Local area Network. Quantity of PCs representing the number of clients on each network segment. 1 X 19 inch rack for mounting all equipment. Power distribution for all equipment including backup power systems. Safety assessment sheet for the Telecommunications Room. ISP 1 x 1841 router (or other suitable router with two FastEthernet interfaces and at least one Serial interface to connect to the ISP). 1 X remote Web server configured for HTTP: Cat 5 cabling as necessary. Serial cabling as necessary.

Subnet scheme Host Requirements: Headquarters 90 hosts 60 hosts Remote 1 60 hosts 30 hosts Remote hosts 60 hosts Connections Between remote sites and Headquarters You will have to allow for the most efficient sub-networks to interconnect the sites as follows: Both Remote1 and Remote2 will connect via WAN connection to Headquarters As a redundancy Remote1 will also connect to Remote 2 via a WAN connection The network address between the ISP and headquarters router is /30 The network between the ISP and Web server is /30

VLSM Addressing scheme

Existing model

Network Diagram

Physical Diagram

Router interface’s HQ router Fast Ethernet 0/0 : /25 Fast Ethernet 0/1: /26 Serial0/0/0: /30 Serial0/0/1: /30 Serial0/1/0: /30 ISP router Serial0/0/0: /30 Fast Ethernet0/0: /30 Remote1 router Fast Ethernet 0/0: /26 Fast Ethernet0/1: /27 Serial0/0/0: /30 Serial0/0/1: /30 Remote2 router Fast Ethernet 0/0: /24 Fast Ethernet 0/1: /26 Serial0/0/0: /30 Serial0/0/1: /30

Lan Switching and Wireless Aim: Configure Cisco 1841 router as r”outer on a stick” Configure switch security and remote configuration via telnet Configure all interfaces and trunk ports Configure VTP servers and clients Configure VLAN’s on switches Configure RSTP Configure inter-vlan routing

Official Work Order Network Engineering Team Background: The company has recently undergone an expansion program, which has resulted in the purchase of two remote sites each located in Singapore and New Zealand respectively. This has necessitated the requirement to establish WAN connectivity between the sites. Although it has not yet been decided on what technology will be utilized for the WAN connectivity, an urgent requirement exists for the development of a prototype and business proposal to not only modernize the entire network infrastructure but to also select and configure an enhanced routing protocol that will support continued expansion and future modernization. Description of work to be performed Review the current network specification and recommend a routing process that will support the following: Fast Convergence. VLSM. Authentication. Unequal cost load balancing. Cisco Discovery Protocol. Dot1q trunking. Replace the current mixture of CISCO, NORTEL and JUNIPER routers with models that will support CDP and an advanced routing protocol for the business WAN. Provide a subnetting scheme using the scheme at part 2. Provide a recommendation/justification for the upgrade of the current routers and equipment that will support the business requirements. Provide all relevant documentation including: Logical Topology diagram. Physical Topology diagram. Test and troubleshoot the prototype, providing the results in a professional report. Provide a working prototype using relevant supporting prototyping software applications. Configure routers as DHCP servers to support the attached LANs. Provide a default route to the ISP router for all hosts to access the internet via the Headquarters router. ISP Router configuration Configure the ISP router with all basic configuration and security. Provide a Static route on the ISP router (summarizing all networks on the company Network) to direct all data back to the company networks from the Web Server. The network address between the ISP and headquarters router is /30. The network between the ISP and Web server is /30.

Physical Topology

Remote2 S1 VTP server Logical Topology PC3

S2 VLAN Switch ISP Router S3 Backup Root-Bridge

Proposed Subnet Scheme DeviceInterfaceIP AddressSubnet MaskDefault Gateway Fa0/1--- Fa0/ Remote2Fa0/ Fa0/ Fa0/ S1VLAN S2VLAN S3VLAN PC1NIC PC2NIC PC3NIC