A. To ma a known IP address to a MAC address
B. To map a known DLCI to a MAC address
C. To ma a known MAC address to an IP address
D. To ma a known DLCI address to a IP address
E. To ma a known IP address to a SPID address
F. To ma a known SPID address to a MAC address
Answer: D
Explanation:
Just as ARP resolves IP addresses to MAC addresses, Inverse ARP maps a known DLCI
to an IP address.
Note: Do not mix up inverse ARP and reverse ARP. There is a Reverse ARP (RARP) for
host machines that don't know their IP address. RARP enables them to request their IP
address from the gateway's ARP cache.
B. To map a known DLCI to a MAC address
C. To ma a known MAC address to an IP address
D. To ma a known DLCI address to a IP address
E. To ma a known IP address to a SPID address
F. To ma a known SPID address to a MAC address
Answer: D
Explanation:
Just as ARP resolves IP addresses to MAC addresses, Inverse ARP maps a known DLCI
to an IP address.
Note: Do not mix up inverse ARP and reverse ARP. There is a Reverse ARP (RARP) for
host machines that don't know their IP address. RARP enables them to request their IP
address from the gateway's ARP cache.