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'''Physical Medium Dependent''' sublayers or '''PMDs''' further help to define the [[physical layer]] of [[computer network]] protocols.
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They define the details of transmission and reception of individual bits on a physical medium. These responsibilities encompass bit timing, signal encoding, interacting with the physical medium, and the properties of the cable, optical fiber, or wire itself. Common examples are specifications for [[Fast Ethernet]], [[Gigabit Ethernet]] and [[10 Gigabit Ethernet]] defined by the [[Institute of Electrical and Electronics Engineers]] (IEEE).
 
For [[cable modems]] Physical Medium Dependent sublayers define the physical sub-layer which also includes the [[MPEG]] sub-layer.{{Citation needed|date=January 2008}}
 
==Description==
The Ethernet PMD sublayer is part of the [[Ethernet physical layer]] (PHY). The hierarchy is as follows:
 
* Data Link Layer (Layer 2)
** LLC ([[Logical Link Control]] Sublayer)
** MAC ([[Media Access Control]] Sublayer)
*** RS (Reconciliation Sublayer) - This sublayer processes PHY Local/Remote Fault messages and handles DDR conversion
* PHY Layer (Layer 1)
** PCS ([[Physical Coding Sublayer]]) - This sublayer performs auto-negotiation and coding such as 8b/10b
** PMA (Physical Medium Attachment Sublayer) - This sublayer performs PMA framing, octet synchronization/detection, and <math>x^7+x^6+1</math> scrambling/descrambling
** PMD (Physical Medium Dependent Sublayer) - This sublayer consists of a transceiver for the physical medium
 
==Physical Medium Dependent Sublayer specifications==
===10 Gigabit Ethernet===
{{Merge to |10 Gigabit Ethernet |date=June 2011}}
;10GBASE-E: has been defined for [[single mode fiber]] operations only. It operates in the 1550 [[nanometer|nm]] band allowing for distances of up to 40&nbsp;km to be reached.
 
;10GBASE-L: was also defined for single mode fiber operations, uses the 1300&nbsp;nm band allowing it to reach up to 10&nbsp;km.
 
;10GBASE-S: was defined for use in [[multimode fiber]] and ultimately costs less than the other 10GbE standards. It uses 850&nbsp;nm lasers and only reaches distances ranging between 26 to 82 metres on older fiber technology. In newer optimized multimode fibers (a.k.a. OM3) it can reach up to 300 m.
 
;10GBASE-LX4: uses four lasers that each transmit at 3.125 Gbit/s. The receiver is arranged in a [[wavelength]]-division [[multiplexor|multiplexing]] manner. On legacy  FDDI multimode fiber it can reach up to 300 m while on [[single mode fiber]] it can reach up to 10&nbsp;km.
 
After these specifications have been laid out, they are then completed with [[local area network]] and [[wide area network]] specifications using different [[Physical Coding Sublayer]] standards.
 
==References==
*{{cite journal|last=Barbieri|first=Alessandro|title=10 GbE and Its X Factors|journal=Packet: Cisco Systems Users Magazine|volume=17|issue=3|pages=25–28|url=http://www.cisco.com/asiapac/campaigns/metroethernet/files/10ge_po_pack_mag_arti.pdf|accessdate=2007-12-31}}
*[http://www.xilinx.com/systemio/1gbsx_phy/basics.htm Ethernet 1000BASE-X PCS/PMA Technology Basics]{{dead link|date=May 2013}}
*[http://standards.ieee.org/getieee802/802.3.html IEEE 802.3-2005 Specification]
 
[[Category:Ethernet]]

Latest revision as of 05:51, 2 January 2015

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