What command would make this router not use a DR, and dynamically discover OSPF neighbors?
Router R1 connects to a Frame Relay cloud using a multipoint subinterface, with ten
PVCs associated with the subinterface. What command would make this router not use a
DR, and dynamically discover OSPF neighbors?
Which commands are required for proper functioning of OSPF in this case?
Ten routers, R1 through R10, connect in a partial mesh over Frame Relay. For the mesh, R1
and R2 have PVCs connected to all other routers, but Routers R3 through
R10 act as branch routers, with only two PVCs–one to R1 and one to R2. The routers use IP
subnet 10.1.1.0/24, with addresses 10.1.1.1, 10.1.1.2, and so on, through 10.1.1.10,
respectively. The routers all use Inverse ARP to learn Frame Relay mapping information. All
routers use a multipoint subinterface with network type point-tomultipoint nonbroadcast. A
co-worker’s implementation plan lists lots of configuration commands related to this design.
The design states that all hosts should be able to ping all other hosts. Which commands are
required for proper functioning of OSPF in this case? (Choose two.)
Which of the following answers is the least likely reason for an engineer to choose to use route redistributio
Which of the following answers is the least likely reason for an engineer to choose to use
route redistribution?
which of the following are true?
For a router to successfully redistribute routes between OSPF and EIGRP, which of the
following are true? (Choose two.)
Which two of the following methods may be used to set the metrics of the redistributed routes?
Process EIGRP 1 is redistributing routes from process OSPF 2. Which two of the following
methods may be used to set the metrics of the redistributed routes?
(Choose 2)
Which answer can be verified as definitely true based on this output?
Examine the following excerpt from the show ip eigrp topology 10.2.2.0/24 command on
router R1. Which answer can be verified as definitely true based on this output?
External data:
Originating router is 10.1.1.1
AS number of route is 1
External protocol is OSPF, external metric is 64
Administrator tag is 0 (0x00000000)
Which one of the following is true?
Router R1 has a connected route for 10.1.1.0/24 off interface Fa0/0. Interface Fa0/0 has
been enabled for OSPF due to a router ospf 1 and network 10.0.0.0 0.0.0.255 area 0
command. R1 also has EIGRP configured, with the redistribute ospf 1 metric 1000 100 10 1
1500 command configured under EIGRP.
Which one of the following is true?
Which of the following methods may be used to set the metrics of the redistributed routes?
Process OSPF 1 is redistributing routes from process OSPF 2. Which of the following
methods may be used to set the metrics of the redistributed routes? (Choose two.)
Which answer can be verified as definitely true based on this output?
Examine the following excerpt from the show ip ospf database asbr-summary command on
router R1 (RID 1.1.1.1). Which answer can be verified as definitely true based on this
output?
LS Type: Summary Links (AS Boundary Router)
Link State ID: 9.9.9.9 (AS Boundary Router address)
Advertising Router: 3.3.3.3
LS Seq Number: 8000000D
Checksum: 0xE43A
Length: 28
Network Mask: /0
TOS: 0 Metric: 100
what conditions will R1 choose as its best route the route through R22?
Router R1 sits inside OSPF area 1. Router R2 redistributes an E1 route into OSPF for prefix
2.2.2.0/24, with external metric 20. Router R22 redistributes an E2 route for the same
prefix/length, external metric 10. Under what conditions will R1 choose as its best route the
route through R22?