Ethernet$94523$ - definition. What is Ethernet$94523$
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%ما هو (من)٪ 1 - تعريف

TRANSCEIVER IN AN ETHERNET NETWORK
MAU (Ethernet); Ethernet transceiver
  • Two Medium Attachment Units, or transceivers. (The units shown are backwards compatibility-oriented 10BASET MAUs, not the more typical 10BASE5 MAUs; cf. article.)

Terabit Ethernet         
ETHERNET SPEEDS ABOVE 100 GBIT/S
1000 gigabit Ethernet; TbE; 400G; 200G; 200 Gigabit Ethernet; 400 Gigabit Ethernet; 200GbE; 400GbE; 400-gigabit Ethernet; IEEE 802.3cd
Terabit Ethernet or TbE is Ethernet with speeds above 100 Gigabit Ethernet. 400 Gigabit Ethernet (400G, 400GbE) and 200 Gigabit Ethernet (200G, 200GbE) standards developed by the IEEE P802.
ATA over Ethernet         
COMPUTER NETWORK PROTOCOL
ATA-over-Ethernet; Ata over ethernet; ATAoE
ATA over Ethernet (AoE) is a network protocol developed by the Brantley Coile Company, designed for simple, high-performance access of block storage devices over Ethernet networks. It is used to build storage area networks (SANs) with low-cost, standard technologies.
Ethernet         
  • BNC]] T-connector, two 10BASE5 end fittings ([[N connector]]s), an orange "vampire tap" installation tool (which includes a specialized drill bit at one end and a socket wrench at the other), and an early model 10BASE5 transceiver (h4000) manufactured by DEC.  The short length of yellow 10BASE5 cable has one end fitted with an N connector and the other end prepared to have an N connector shell installed; the half-black, half-grey rectangular object through which the cable passes is an installed vampire tap.
  • Accton]] Etherpocket-SP [[parallel port]] Ethernet adapter (circa 1990). Supports both coaxial ([[10BASE2]]) and twisted pair ([[10BASE-T]]) cables. Power is drawn from a [[PS/2 port]] passthrough cable.
  • An Intel 82574L Gigabit Ethernet NIC, PCI Express ×1 card
  • Apple]] on some devices to denote an Ethernet connection
  • A core Ethernet switch
  • [[Patch cable]]s with [[patch field]]s of two Ethernet switches
  • A close-up of the SMSC LAN91C110 (SMSC 91x) chip, an embedded Ethernet chip
FAMILY OF WIRED COMPUTER NETWORKING TECHNOLOGIES COMMONLY USED IN LOCAL AREA NETWORKS (LAN), METROPOLITAN AREA NETWORKS (MAN) AND WIDE AREA NETWORKS (WAN)
Ethernet network; Ethernets; Jabber (networking); Jabber (Networking); Full-duplex Ethernet; Ethernet cables; Embedded Ethernet; Ethernet cable; Full-duplex ethernet; Xerox Ethernet; ENET; Original Ethernet; Ethernet port; Higher Speed Ethernet; Ether net; Etherand
['i:??n?t]
¦ noun Computing a system for connecting a number of computer systems to form a local area network.
Origin
1970s: blend of ether and network.

ويكيبيديا

Medium Attachment Unit

A Medium Attachment Unit (MAU) is a transceiver which converts signals on an Ethernet cable to and from Attachment Unit Interface (AUI) signals.

On original 10BASE5 (Thick) Ethernet, the MAU was typically clamped to the Ethernet cable. With later standards it was generally integrated into the network interface controller and eventually the entire Ethernet controller was often integrated into a single integrated circuit ("chip") to reduce cost.

In most modern switched or hubbed Ethernet over twisted pair systems, neither the MAU nor the AUI interfaces exist (apart, perhaps as notional entities for the purposes of thinking about layering the interface), and the category 5 (CAT5) cable connects directly into an Ethernet socket on the host or router. For backwards compatibility with equipment which still has external AUI interfaces, MAUs are still available with 10BASE2 or 10BASE-T connections.

The following standard, Fast Ethernet introduces division onto Media Access Controller (MAC) and Physical Layer Interface (PHY) layers connected with Media Independent Interface (MII). Some early Fast Ethernet hardware had a physical external MII connectors, functionally similar to AUI connector. However, the tradition of using a separate low-level I/O device in networking has continued in fast optical fiber network interfaces, where the GBIC, XENPAK, XFP, and enhanced small form-factor pluggable (SFP+) pluggable transceiver modules using the XAUI interface play a similar role.

Objectives of MAU:

  • Provide the physical means for communication between local network data link entities.
  • It defines a physical interface that can be implemented independently among different manufacturers of hardware and achieve the intended level of compatibility when interconnected in a common local network.
  • Provide a communication channel capable of high bandwidth and low bit error ratio performance.
  • Provide for ease of installation and service.
  • Provide for high network availability (ability of a station to gain access to the medium and enable the data link connection in a timely fashion).
  • Enable relatively low-cost implementations.

MAU Characteristics:

  • Enables coupling the Physical Layer Signalling (PLS) by way of the AUI to the explicit baseband coaxial transmission system.
  • Supports message traffic at a data rate of 10, 100, or even 1000 Mbit/s.
  • Provides for driving up to 500m of coaxial trunk cable without the use of a repeater.
  • Permits the DTE to test the MAU and the medium itself.
  • Supports system configurations using the CSMA/CD access mechanism defined with baseband signaling.
  • Supports bus topology interconnection.

Services provided by MAU:

  • Transmit.
  • Receive.
  • Collision detection and Loop-back functions direct transfer through the MAU.
  • The Jabber detect.
    • It removes equipment from the network whenever it continuously transmits for periods significantly longer than required for a maximum-length packet, indicating a possible problem with the NIC.
  • Signal quality error test.
    • The signal quality error test detects silent failures in the circuitry.
  • Link integrity functions
    • detects breaks in the wire pairs.
  • Both Signal quality error test and Link integrity functions assist in fault isolation.

Two modes of operation:

  • Normal mode:
    • The MAU functions as a direct connection between the baseband medium and the DTE. Data output from the DTE is output to the coaxial trunk medium and all data on the coaxial trunk medium is input to the DTE. This mode is the "normal" mode of operation for the intended message traffic between stations.
  • Monitor mode or Isolated mode:
    • The MAU functions as a receive-only connection between the baseband medium and the DTE. Data output from the DTE is suppressed and only data on the coaxial trunk medium is input to the DTE. This mode is for observing message traffic.

MAU functional specifications:

  • Transmit function
    • The ability to transmit serial data bit streams on the baseband medium from the local DTE entity and to one or more remote DTE entities on the same network.
  • Receive function
    • The ability to receive serial data bit streams over the baseband medium.
  • Collision Presence function
    • The ability to detect the presence of two or more stations concurrent transmissions.
  • Monitor function (Optional)
    • The ability to inhibit the normal transmit data stream to the medium at the same time the normal receive function and collision presence function remain operational.
  • Jabber function
    • The ability to automatically interrupt the transmit function and inhibit an abnormally long output data stream. It removes equipment from the network whenever it continuously transmits for periods significantly longer than required for a maximum-length packet, indicating a possible problem with the NIC.

MAU in this context is not to be confused with a Media Access Unit, which shares the same acronym.