Carrier sense multiple access with collision detection

Carrier sense multiple access with collision detection (CSMA/CD) is a Media Access Control method in which:^[1]

a carrier sensing scheme is used.
a transmitting data station that detects another signal while transmitting a frame, stops transmitting that frame, transmits a jam signal, and then waits for a random time interval before trying to resend the frame.

CSMA/CD is a modification of pure carrier sense multiple access (CSMA). CSMA/CD is used to improve CSMA performance by terminating transmission as soon as a collision is detected, thus shortening the time required before a retry can be attempted.

1 Algorithm
- 1.1 Main procedure
- 1.2 Collision detected procedure
2 Jam signal
3 Applications
4 See also
5 Notes
6 References

Algorithm

When a station wants to send some information, it uses the following algorithm:^[2]

Main procedure

Frame ready for transmission.
Is medium idle? If not, wait until it becomes ready^{[note 1]}
Start transmitting.
Did a collision occur? If so, go to collision detected procedure.
Reset retransmission counters and end frame transmission.

Collision detected procedure

Continue transmission until minimum packet time is reached to ensure that all receivers detect the collision.
Increment retransmission counter.
Was the maximum number of transmission attempts reached? If so, abort transmission.
Calculate and wait random backoff period based on number of collisions.
Re-enter main procedure at stage 1.

This can be likened to what happens at a dinner party, where all the guests talk to each other through a common medium (the air). Before speaking, each guest politely waits for the current speaker to finish. If two guests start speaking at the same time, both stop and wait for short, random periods of time (in Ethernet, this time is measured in microseconds). The hope is that by each choosing a random period of time, both guests will not choose the same time to try to speak again, thus avoiding another collision.

Methods for collision detection are media dependent, but on an electrical bus such as 10BASE-5 or 10BASE-2, collisions can be detected by comparing transmitted data with received data or by recognizing a higher than normal signal amplitude on the bus.

Jam signal

The jam signal is a signal that carries a 32-bit binary pattern sent by a data station to inform the other stations that they must not transmit.

The maximum jam-time is calculated as follows: The maximum allowed diameter of an Ethernet installation is limited to 232 bits. This makes a round-trip-time of 464 bits. As the slot time in Ethernet is 512 bits, the difference between slot time and round-trip-time is 48 bits (6 bytes), which is the maximum "jam-time".

This in turn means: A station noting a collision has occurred is sending a 4 to 6 byte long pattern composed of 16 1-0 bit combinations. Note: The size of this jam signal is clearly beyond the minimum allowed frame-size of 64 bytes.

The purpose of this is to ensure that any other node which may currently be receiving a frame will receive the jam signal in place of the correct 32-bit MAC CRC, this causes the other receivers to discard the frame due to a CRC error.

Applications

CSMA/CD was used in now obsolete shared media Ethernet variants (10BASE5, 10BASE2) and in the early versions of twisted-pair Ethernet which used repeater hubs. Modern Ethernet networks built with switches and full-duplex connections no longer utilize CSMA/CD though it is still supported for backwards compatibility. IEEE Std 802.3, which defines all Ethernet variants, for historical reasons still bears the title "Carrier sense multiple access with collision detection (CSMA/CD) access method and physical layer specifications".

Variations of the concept are used in radio frequency systems that rely on frequency sharing, including Automatic Packet Reporting System.

Notes

^ On Ethernet, stations must additionally wait the 96 bit interframe gap period.

References

This article incorporates public domain material from the General Services Administration document "Federal Standard 1037C".

^ "Carrier Sense Multiple Access Collision Detect (CSMA/CD) Explained". http://learn-networking.com/network-design/carrier-sense-multiple-access-collision-detect-csmacd-explained. Retrieved 2011-07-29.
^ Tanenbaum, Andrew S. (2003). Computernetwerken (Computer Networks) (Fourth edition ed.). Pearson Prentice Hill. ISBN 90-430-0698-X.

This article incorporates public domain material from the General Services Administration document "Federal Standard 1037C".
IEEE 802.3

Channel access methods and Media access control (MAC)/Multiple-access protocols

Channel based

FDMA	OFDMA · WDMA · SC-FDMA

TDMA	MF-TDMA · STDMA

CDMA	W-CDMA · TD-CDMA · TD-SCDMA · DS-CDMA · FH-CDMA · OFHMA · MC-CDMA

SDMA	HC-SDMA

PDMA	·

PAMA	·

Packet based

Collision recovery	ALOHA · Slotted ALOHA · R-ALOHA

Collision avoidance	MACA · MACAW · CSMA · CSMA/CD · CSMA/CA · DCF · PCF · HCF · CSMA/CARP

Collision free	Token ring · Token bus · MS-ALOHA

Delay & disruption tolerant	DTN · Mobile Ad-Hoc · Dynamic Source Routing

Duplexing methods

TDD · FDD