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Of the Fast Ethernet physical layers, 100BASE-TX is by far the most common. Fast Ethernet was introduced in 1995 as the IEEE 802.3u standard [1] and remained the fastest version of Ethernet for three years before the introduction of Gigabit Ethernet. [2] The acronym GE/FE is sometimes used for devices supporting both standards. [3]
The abbreviation is not always a short form of the word used in the clue. For example: "Knight" for N (the symbol used in chess notation) Taking this one stage further, the clue word can hint at the word or words to be abbreviated rather than giving the word itself. For example: "About" for C or CA (for "circa"), or RE.
Cisco Doc ID: 16406: EMAC: Ethernet Media Access Control Link Layer EOF: End Of Frame (HDLC, etc.) Link layer HDLC framing: ESS: Extended service set (Wi-Fi group) Wireless IEEE Std 802.11-2007: FCC: Federal Communications Commission (US) Organization US FCC: FCS: Frame check sequence (Ethernet) Link layer Ethernet Frame IEEE Std 802.3: FDDI
AoE—ATA over Ethernet; AOP—Aspect-Oriented Programming; AOT—Ahead-Of-Time; APCI—Application-Layer Protocol Control Information; API—Application Programming Interface; APIC—Advanced Programmable Interrupt Controller; APIPA—Automatic Private IP Addressing; APL—A Programming Language; APR—Apache Portable Runtime; ARC—Adaptive ...
The physical coding sublayer (PCS) is a networking protocol sublayer in the Fast Ethernet, Gigabit Ethernet, and 10 Gigabit Ethernet standards. It resides at the top of the physical layer (PHY), and provides an interface between the physical medium attachment (PMA) sublayer and the media-independent interface (MII).
The inside of a Cisco 1900-series switch. Catalyst is the brand for a variety of network switches, wireless controllers, and wireless access points sold by Cisco Systems.While commonly associated with Ethernet switches, a number of different types of network interfaces have been available throughout the history of the brand.
The first version of the autonegotiation specification, in the 1995 IEEE 802.3u Fast Ethernet standard, was implemented differently by different manufacturers leading to interoperability issues. These problems led many network administrators to manually set the speed and duplex mode of each network interface.
Cisco Systems and Comcast announced their 100GbE trials in June 2008. [72] However, it is doubtful that this transmission could approach 100 Gbit/s speeds when using a 40 Gbit/s per slot CRS-1 platform for packet processing. Cisco's first deployment of 100GbE at AT&T and Comcast took place in April 2011. [73]