- #Ccna packet tracer labs completed pdf#
- #Ccna packet tracer labs completed serial#
- #Ccna packet tracer labs completed Pc#
- #Ccna packet tracer labs completed download#
If they are not like this, reconfigure and check your steps. You should have green lights (LEDs) from R2's S0/0/0 and G0/0 port, as well as green light/LEDs from R1's S0/0/0 and G0/0 ports. We are now done with that part for R2, close the configuration window. Remeber, this interface is our interface where clock-rate will need to be configured.
#Ccna packet tracer labs completed serial#
Now, we must configure our serial connection for R2. We will return to configure the other basics, such as banner MOTDs or passwords, but for now we're exclusively making our addressing scheme work: Give our rou ter the basic configuration addressing. I chose Router 2 (R2), but you may pick another if you'd like. Make sure when you use crossover you use "no sh" to prevent any issues later on.Īt this point, all lines from the PCs should be down except PC-As, which we will now fix by configuring out next router.
#Ccna packet tracer labs completed Pc#
Notice how the PCs are connected via Copper Straight-through, yet still appear to be down, even with an assigned address and "no sh"? Right, that means something went wrong, so what we're going to do is change Straight-through to Crossover, which should then change the "LED Status" from the PC to the Router to GREEN/UP.įor some reason, auto-sense is disabled or incorrect between the router and the PC. Now, we're going to go back to our topology. %LINK-5-CHANGED: Interface Serial0/0/1, changed state to down Go back to s0/0/0 and "no sh" the interface. So, go to our next interface from the same router. %LINK-5-CHANGED: Interface GigabitEthernet0/0, changed state to upĬonfigure S0/0/0 with an address and clock-rate. Then, our G0/0 interface to our PC, with additional configuration for our Serial connections, which again must be configured with clock rate and so forth:Įnter configuration commands, one per line. So, we need to configure our defaults such as hostname. Our first step of actual configuring is to configure R1 with the appropriate addressing, again, as per the address table. Copy the running configuration to the startup configuration. Set the clock rate for all DCE serial interfaces at 128000. Configure the IP address listed in the Addressing Table for all interfaces. Configure logging synchronous for the console line. Configure a message of the day (MOTD) banner to warn users that unauthorized access is prohibited.į. DO NOT Assign cisco as the console and vty passwords.Į. DO NOT Assign class as the privileged EXEC password.ĭ.
Configure device name as shown in the topology.Ĭ. We're going to configure some things, but first, we must keep in mind of Cisco's rules, as follows.ī.
#Ccna packet tracer labs completed pdf#
Now, scroll down in the PDF to the Addressing Table. Verify that your topology matches either as shown below or on the PDF file. Then, since these routers do not meet our required ports.ġ) Go into one of the routers, turn it off, and add the "HWIC-2T" module.Ģ) Connect the routers to each other via the correct port.ģ) Connect the PCs to their respective router via the correct port.Ĥ) Rename each device with it's appropriate name. Ethernet and serial cables as shown in the topologyġ) Place three 1941 Routers in a triangular pattern.Console cables to configure the Cisco IOS devices via the console ports.
#Ccna packet tracer labs completed download#
Here is a download to the completed lab packet tracer, it only is configured with OSPF and is fully functional. Our first step will be placing these on the Packet Tracer Activity. So, according to the diagram, we have three routers and three PCs. This activity comes with no PKT file, which implies we have to build our own Packet Tracer Network!
In this packet tracer, we must configure out own network.