Difference between revisions of "Carrier-Sense Multiple Access with Collision Detection"

From Computer History Wiki
Jump to: navigation, search
m (rm useless verbiage)
m (typo, +link)
 
(2 intermediate revisions by the same user not shown)
Line 1: Line 1:
'''Carrier-Sense Multiple Access with Collision Detection''' (often given as the acronym, '''CSMA-CD''') is a way of controlling access to a [[Local Area Network|LAN]] using a bus (i.e. a shared broadcast channel on which all stations can hear any station which is transmitting).
+
'''Carrier-Sense Multiple Access with Collision Detection''' (often given as the acronym, '''CSMA-CD''') is a way of controlling access to a [[Local area network|LAN]] using a [[broadcast]] bus (i.e. a shared broadcast channel on which all stations can hear any station which is transmitting).
  
 
A station wanting to transmit waits until it hears silence ('carrier sense'), and then starts transmitting. If it 'hears' another station start to transmit while it is so doing (a 'collision' - hence 'collision detection'), it stops, 'backs off' a random delay, and re-tries. (This is essentially exactly identical to what a group of people chatting at a party will do.)
 
A station wanting to transmit waits until it hears silence ('carrier sense'), and then starts transmitting. If it 'hears' another station start to transmit while it is so doing (a 'collision' - hence 'collision detection'), it stops, 'backs off' a random delay, and re-tries. (This is essentially exactly identical to what a group of people chatting at a party will do.)
Line 5: Line 5:
 
With both stations doing the 'random backoff after collision', the chances are that one will start before the other, and succeed in acquiring the channel: i.e. its new transmission will arrive at the other station, so it can suppress the other station from transmitting, before the second station's random time-out will have run out.
 
With both stations doing the 'random backoff after collision', the chances are that one will start before the other, and succeed in acquiring the channel: i.e. its new transmission will arrive at the other station, so it can suppress the other station from transmitting, before the second station's random time-out will have run out.
  
A version of CSMA-CA was first used on the [[ALOHA]] network, before being adopted for [[Ethernet|Experimental Ethernet]].
+
A version of CSMA-CD was first used on the [[ALOHA]] network, before being adopted for [[Ethernet|Experimental Ethernet]].
  
 
[[Category: Networking]]
 
[[Category: Networking]]

Latest revision as of 15:10, 7 June 2022

Carrier-Sense Multiple Access with Collision Detection (often given as the acronym, CSMA-CD) is a way of controlling access to a LAN using a broadcast bus (i.e. a shared broadcast channel on which all stations can hear any station which is transmitting).

A station wanting to transmit waits until it hears silence ('carrier sense'), and then starts transmitting. If it 'hears' another station start to transmit while it is so doing (a 'collision' - hence 'collision detection'), it stops, 'backs off' a random delay, and re-tries. (This is essentially exactly identical to what a group of people chatting at a party will do.)

With both stations doing the 'random backoff after collision', the chances are that one will start before the other, and succeed in acquiring the channel: i.e. its new transmission will arrive at the other station, so it can suppress the other station from transmitting, before the second station's random time-out will have run out.

A version of CSMA-CD was first used on the ALOHA network, before being adopted for Experimental Ethernet.