Ethernet: Seamless ConnectivityJune 10, 2011
WireIE’s Transparent Ethernet Solutions™ give carriers new and innovative ways to tap into hard-to-reach markets. And because TES scales so well, carriers are also discovering they can use TES to provide broadband services to enterprises where ROIs were previously prohibitive using antiquated leased facilities.WireIE is a Carrier Ethernet network operator and our TES solutions are backed up by an SLA.
Ethernet is ubiquitous. It’s in our businesses, schools, hospitals and homes. It’s in our cars, and it’s even the nerve system for the latest fly-by-wire airliners. Ethernet dominates in the datacenters where Internet and World Wide Web content is stored and served. Few would dispute that our modern world of communications runs on Ethernet.
Why Ethernet? In a few words; seamless, universal connectivity… There are certainly many secondary advantages, but this ‘plug and play’ aspect makes Ethernet particularly compelling when compared with other methods.
A wise person once said; “You need to know where you’ve been in order to know where you’re going.” Ethernet has been around a long time, but it’s entree into the world of telecommunications is fairly recent.
Ethernet (IEEE 802.3) was developed in the mid 1970s by Xerox. It was largely based on the Aloha system developed at the University of Hawaii.
AlohaNet, as it was called, used UHF radio as a data communications network medium. Transmission of packets across the radio channel was managed by Aloha’s random access contention algorithm. In the event of two (or more) data packets being sent on the same communication channel at the same instant, a collision occurs, the packets get corrupted, and no data is exchanged. Aloha manages this inevitability through the use of a random access timer. Should a collision be detected, a jam signal is sent over the network, notifying all other devices of the collision and to wait before sending further packets. The senders affected by the collision will then set a random self-timer to resume transmission, thus reducing the likelihood of a repeat collision. This mechanism is known as Collision Detection (CD).
To compliment CD, Ethernet uses a mechanism known as Carrier Sense Multiple Access (CSMA) – commonly referred to as CSMA/CD. Combined with the benefits of Collision Detection, the CSMA function stipulates that sending data communications equipment must ‘listen’ to the channel prior to transmitting a packet.
In the early days of Local Area Networking, Ethernet competed with IBM’s Token Ring networking standard. Considered very efficient in many types of network configurations, Token Ring still fell into obscurity as most leading vendors other than IBM placed their loyalties in Ethernet. The galvanizer was the IEEE’s pursuit of a single LAN standard which for a number of reasons went to Ethernet in 1982. Global approval of Ethernet as IEEE 802.3 was granted in 1984.
In the ensuing years, Ethernet has become ubiquitous. This ubiquity has led to powerful network hardware at incredibly low prices – all in an ever shrinking form factor per unit performance. The vast majority of Internet services are hosted on Ethernet networks, as are the user communities linking to those services.
Now a mature, universal Local Area Network (LAN) access standard, hardware supporting Ethernet (Switches and Network Interface Cards etc.) is commoditized and as such comparatively inexpensive and largely self-configuring. The entire TCP/IP suite is seamlessly supported by Ethernet, carried on various media ranging from CAT5e cable to fiber to digital microwave/radio.
In the next installment we’ll look at the evolution of Ethernet. That will set us up to explore the reconciliation between modern day Ethernet as a packet based protocol, and the time domain orientation of legacy telecommunications infrastructure.
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This entry was posted in Network Extensions, Transparent Ethernet Solutions and tagged 802.3, Carrier Ethernet, CSMA/CD, Ethernet, Packet Radio, SLA, TES, Transparent Ethernet Solutions. Bookmark the permalink.