Difference between revisions of "Address Resolution Protocol"

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The '''Address Resolution Protocol''' (usually given as its acronym, '''ARP''') is a networking [[protocol]] which is used to translate from the [[address]]es used by the [[internetworking layer]] of a particular [[protocol suite|protocol family]] (e.g. [[Chaosnet]], or the [[Internet Protocol]] of [[TCP/IP]]) to those used by a particular [[physical network]] (e.g. [[Ethernet]]), in cases where a non-trivial [[mapping]] is required between the addresses used by the internet protocol, and the addresses used by the physical network.
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The '''Address Resolution Protocol''' (usually given as its acronym, '''ARP''') is a networking [[protocol]] which is used to translate from the [[address]]es used by the [[internetworking layer]] of a particular [[protocol suite|protocol family]] (e.g. [[Chaosnet|Chaos]], or the [[Internet Protocol]] of [[TCP/IP]]) to those used by a particular [[physical network]] (e.g. [[Ethernet]]), in cases where a non-trivial [[mapping]] is required between the addresses used by the internet protocol, and the addresses used by the physical network.
  
 
==Background==
 
==Background==

Latest revision as of 17:14, 12 December 2023

The Address Resolution Protocol (usually given as its acronym, ARP) is a networking protocol which is used to translate from the addresses used by the internetworking layer of a particular protocol family (e.g. Chaos, or the Internet Protocol of TCP/IP) to those used by a particular physical network (e.g. Ethernet), in cases where a non-trivial mapping is required between the addresses used by the internet protocol, and the addresses used by the physical network.

Background

Originally, all physical networks had addresses which were relatively short (e.g. 24 bits in the ARPANET; 8 bits in the Chaosnet LAN) and those were carried directly in the low order bits of the addresses of the internetworking layer of the particular protocol family.

With the advent of the 10 Mbit/second Ethernet, which had 48-bit physical addresses (so that all Ethernet network interfaces could be assigned a guaranteed-unique physical address at manufacturing time), this was no longer true. Use of static, manually-configured tables to hold the required mappings was clearly infeasible, so ARP was designed.

External links