1 Refer to the exhibit. Which statement explains why the Frame Relay connection between R1 and R2 is failing? Split horizon must be disabled. The LMI type must be specified. Logical subinterfaces must be used instead. The frame-relay mands are using incorrect DLCIs. 2 Which statement about Frame Relay subinterfaces is correct? Multipoint interfaces will automatically forward routing broadcasts but will consume more IP addresses than point-to-point subinterfaces will consume. Point-to-point subinterfaces act like leased lines and eliminate split-horizon routing issues. Interfaces with multiple PVCs require a separate subinterface for each PVC. Multipoint configurations cannot use subinterfaces. 3 What best describes the use ofa data-link connection identifier (DLCI)? local address identifying a destination router across a Frame work locally significant address used to identify a virtual circuit logical address identifying the interface between a router and a Frame Relay switch logical address used to identify the DCE 4 What consideration must be taken into account if RIP is used on Frame Relay works? To forward routing updates, address-to-DLCI mapping must be done via the use of the frame-relay mand coupled with the broadcast keyword. Inverse ARP must be enabled to turn routing update broadcasts into unicast traffic that can be propagated to other Frame Relay nodes. Because broadcast traffic is not supported, RIPv1 cannot be implemented on Frame works. To forward broadcast routing updates, dynamic mapping must be enabled. 5 Refer to the exhibit. What can be known about the configuration of router R1 from the output? The Frame Relay LMI DLCI has been incorrectly configured as DLCI 1023. The Frame Relay LMI type has been changed from its default. The Serial 0/0/0 interface has been configured asa munications equipment device. mand encapsulation frame-relay ietf has been used on the Serial 0/0/0 interface. 6 Which three actions might a Frame Relay switch perform when it
