• The cables: UTP‚ Serial • The Interface: FastEthernet‚ Serial – What is an interface? – What is its purpose? – How is it identified? – DTE or DCE? 4 An IP Network - Overview • How do IP packets travel between networks? – The Routing Table – Building a Routing table using Static Routes 5 Building a Network - Packet Tracer • A simulation product for designing‚ and testing a network before implementation on the actual hardware devices. • For personal use‚ can be downloaded from Blackboard
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order for us to have the proper amount of subnets‚ the subnet mask will be set to 255.255.240.0. This will give ACME a maximum of sixteen subnets and 4‚094 hosts in each subnet. Hardware Requirements New Cisco switches and routers will supply the routing necessary for Acme’s data. Cisco Catalyst switches will provide VLAN functionality; these switches can accept broadcast
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(IPv4 Routing Lookup) --> Goal is to decide on the following entities first. - Longest match / Lowest AD / Lowest Metric / Overlapping Routes(Multiple routes to the same destination in the routing table) / Policy Routing (Will override all the above steps) - Outgoing interface - Next-hop Step 2 - (IPv4 Switching Method) --> Goal is to move packets between interfaces. Load Balancing occurs at this stage. Even though we have multiple routes in the routing table‚
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1) Identify the three IP address classes‚ the default subnet mask used with each‚ and the number of hosts for each. The three IP address classes are class A‚ class B‚ and class C. Default subnet mask for class A = 255.0.0.0 Default subnet mask for class B = 255.255.0.0 Default subnet mask for class C = 255.255.255.0 The number of hosts that class A can have is 16‚777‚214 The number of hosts that class B can have is 65‚534 The number of hosts that class C can have is 254 2) What is the subnet
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Questions and Answers NAT Simulation Questions and Answers RIP v2 Simulation questions and Answers DHCP Lab Questions Frame Relay Lab Questions Access Lists Lab Questions Routing Lab Questions Drag and Drop Lab Questions Troubleshooting Questions CCNA - Common Question CCNA - Common Subnetting Questions ICND 1&2Questions ICND1 Routing and Troubleshooting Questions ICND 1 RIP v2 Lab Sim VLSM eBook Sign Up For Post Updates * required First Name: * Email Address: * Sign Me Up Email Marketing by
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Introduction Assignment Develop a subnetting plan and implement it in the lab. Configure RIP as a routing protocol. Conditions NYEDGE1 is the hub router. The two remote office routers NYEDGE2 and NYWAN1 connect to NYEDGE1 through serial connections. Each router has a locally attached Ethernet network. The serial line data rates and DTE/DCE settings have already been configured on all three routers. You only need to assign the IP address to the interfaces. Notes The routers are connected directly
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1- You are implementing a network. Using the Cisco hierarchal model‚ which layer would address the configuration of routers closest to the users? access layer 2- The success of dynamic routing depends on what? automagic routing updates 3- If a router has an Ethernet interface of E0‚ with an IP address of 172.31.4.1‚ and the interface uses a mask of 255.255.255.0‚ what is the subnet number? 172.31.4.0 4- Where on a router does the technician need to physically connect his rollover
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Lab Assignment document contains a full-page Topology. Remove this page and use it for reference to the topology and the IP addresses. Initial Configuration Routers’ Routing Protocols‚ FastEthernet and Serial interfaces used for the lab have been correctly configured and enabled. Unused interfaces have been shutdown. The RIP routing tables are complete for all routers and hosts. No ACLs have been applied to any of the routers. Below is the running-config file in Dallas router. version 12.3(4)T7
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13 IP Routing—Configuring RIP‚ OSPF‚ BGP‚ and PBR Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-6 Routing Protocols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-6 Dynamic Routing Protocols Supported on the ProCurve Secure Router . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-7 How Routing Protocols Work . . . . . . . . . . . .
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networking equipment. In my design I decided to use a Cisco 2900 Series Router to connect the two subnets (Cisco ‚ 2012). The router has both routing statements‚ which include the IP addresses of each switch that resides in each subnet 192.168.1.0 for subnet A and 192.168.1.32 for subnet B. This routing statement provides the information for the router to create it’s routing table to forward packets to the other subnet without dropping them because it now knows where to send such packets. A Layer 3 switch
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