Cisco认证实验考试经典题库CCIE_BootCamp3.0(第二章)[1]
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Cisco认证实验考试经典题库CCIE_BootCamp3.0(第二章)[1]Cisco认证
【网络综合 - Cisco认证试题】
lab 2
at the end of this lab verify connectivity to all ports. you should be able to ping every interface from and router. (don’t worry about being able to ping a local frame-relay interface. please disregard this statement if you are asked to filter packets. routes or other specific tasks.)
1. initial configuration – 5 pts (30 mins)
a. use the pre-configuration files to apply proper ip addresses to the router interfaces. add ip addresses as needed as shown on the network diagram. you may have to add additional ip addresses to complete some tasks.
b. connect routers r1, r2, r3, and r5 over the frame-relay cloud. configure router r1 using sub-interfaces. configure routers r2, r3, and r5 without using sub-interface.
c. use only one frame-relay pvc on routers r2, r3, and r5, the recommended dlci numbers 102,201,103, 301,105, and 501 for the frame-relay pvc’s are indicated on the network diagram.
d. routers r1,r3,and r5 should share network 10.10.x.x 255.255.0.0 on their frame-relay interfaces
e. routers r1 and r2 should share network 10.20.x.x 255.255.0.0 on their frame-relay interfaces.
f. router r1 should have network 10.1.x.x with an 8-bit subnet mask on its ethernet interface( the mask should be 255.255.0.0)
g. router r2 should have network 137.20.20.0 with a 24-bit mask on its ethernet interface.
h. router r3 should have network 10.3.x.x with an 8-bit subnet mask on its token-ring interface ( the mask should be 255.255.0.0)
2. ospf configuration –30 pts (2 hours 30 minutes)
a. configure ospf area 0 on the frame-relay interfaces between routers r1, r3 and router r5.
b. place router r1’s ethernet in ospf area 1. place router r5’s interface e0 in ospf area 0.
c. setup a default static route (default gateway) from r3 to r4. redistribute this default static route into ospf with a metric-type of 1 and a metric ofCisco认证
lab 2
at the end of this lab verify connectivity to all ports. you should be able to ping every interface from and router. (don’t worry about being able to ping a local frame-relay interface. please disregard this statement if you are asked to filter packets. routes or other specific tasks.)
1. initial configuration – 5 pts (30 mins)
a. use the pre-configuration files to apply proper ip addresses to the router interfaces. add ip addresses as needed as shown on the network diagram. you may have to add additional ip addresses to complete some tasks.
b. connect routers r1, r2, r3, and r5 over the frame-relay cloud. configure router r1 using sub-interfaces. configure routers r2, r3, and r5 without using sub-interface.
c. use only one frame-relay pvc on routers r2, r3, and r5, the recommended dlci numbers 102,201,103, 301,105, and 501 for the frame-relay pvc’s are indicated on the network diagram.
d. routers r1,r3,and r5 should share network 10.10.x.x 255.255.0.0 on their frame-relay interfaces
e. routers r1 and r2 should share network 10.20.x.x 255.255.0.0 on their frame-relay interfaces.
f. router r1 should have network 10.1.x.x with an 8-bit subnet mask on its ethernet interface( the mask should be 255.255.0.0)
g. router r2 should have network 137.20.20.0 with a 24-bit mask on its ethernet interface.
h. router r3 should have network 10.3.x.x with an 8-bit subnet mask on its token-ring interface ( the mask should be 255.255.0.0)
2. ospf configuration –30 pts (2 hours 30 minutes)
a. configure ospf area 0 on the frame-relay interfaces between routers r1, r3 and router r5.
b. place router r1’s ethernet in ospf area 1. place router r5’s interface e0 in ospf area 0.
c. setup a default static route (default gateway) from r3 to r4. redistribute this default static route into ospf with a metric-type of 1 and a metric ofCisco认证