Robert Metcalfe developed Ethernet at the famous Xerox Palo Alto Research
Center (PARC) in 1972. The folks at Xerox PARC had developed a personal
workstation with a graphical user interface. They needed a technology to network
these workstations with their newly developed laser printers. (Remember,
the first PC, the MITS altair, was not introduced to the public until 1975.)
Metcalfe originally called this network the Alto Aloha Network. He changed
the name to Ethernet in 1973 to make it clear that any type of device could
connect to his network. He chose the name “ether” because the network carried
bits to every workstation in the same manner that scientists once thought
waves were propagated through space by the “luminiferous ether.”
Metcalfe’s first external publication concerning Ethernet was available to the
public in 1976. Metcalfe left Xerox, and in 1979 he got Digital Equipment
Corporation (DEC), Intel, and Xerox to agree on a common Ethernet standard
called DIX. In 1982, the Institute of Electrical and Electronic Engineers (IEEE)
adopted a standard based on Metcalfe’s Ethernet.
Ethernet took off in academic networks and some corporate networks. It was
cheap, and public domain protocols such as Internet Protocol (IP) ran natively
on it. However, another company (IBM) wanted the world to adopt its protocol
instead, called Token Ring. Before switching was introduced, Ethernet was
more difficult to troubleshoot than Token Ring. Although Ethernet was less
expensive to implement, larger corporations chose Token Ring because of their
relationship with IBM and the ability to more easily troubleshoot problems.
Early Ethernet used media such as coaxial cable, and a network could literally
be a single long, continuous segment of coax cable tied into many computers.
(This cable was known as Thinnet or Thicknet, depending on the thickness of
the coax used.) When someone accidentally kicked the cable under his or her
desk, this often produced a slight break in the network. A break meant that
no one on the network could communicate, not just the poor schmuck who
kicked the cable. Debugging usually entailed crawling under desks and
following the cable until the break was found.
In contrast, Token Ring had more sophisticated tools (than crawling on your
knees) for finding the breaks. It was usually pretty obvious where the token
stopped being passed and, voilà, you had your culprit.
The battle for the LAN continued for more than ten years, until eventually
Ethernet became the predominant technology. Arguably, it was the widespread
adoption of Ethernet switching that drove the final nail in Token Ring’s coffin.
Other LAN technologies, such as AppleTalk and Novell IPX, have been and
continue to be introduced, but Ethernet prevails as the predominant technology
for local high-speed connectivity.
Thankfully, we have left behind early media such as coax for more sophisticated
technologies.