Fiber Distributed Data Interface (FDDI) is a standard for
data transmission in a
local area network.
It uses
optical fiber as its standard underlying physical medium, although it was also later specified to use
copper cable, in which case it may be called CDDI (Copper Distributed Data Interface), standardized as TP-PMD (Twisted-Pair Physical Medium-Dependent), also referred to as TP-DDI (Twisted-Pair Distributed Data Interface).
FDDI was effectively made obsolete in local networks by
Fast Ethernet which offered the same 100 Mbit/s speeds, but at a much lower cost and, since 1998, by
Gigabit Ethernet due to its speed, and even lower cost, and ubiquity.
Description
FDDI provides a 100
Mbit/s optical standard for
data transmission in
local area network that can extend in range up to . Although FDDI logical topology is a ring-based token network, it did not use the IEEE 802.5
Token Ring protocol
Protocol may refer to:
Sociology and politics
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...
as its basis; instead, its protocol was derived from the IEEE 802.4
token bus ''timed token'' protocol. In addition to covering large geographical areas, FDDI local area networks can support thousands of users. FDDI offers both a Dual-Attached Station (DAS), counter-rotating token ring topology and a Single-Attached Station (SAS), token bus passing ring topology.
FDDI, as a product of
American National Standards Institute
The American National Standards Institute (ANSI ) is a private non-profit organization that oversees the development of voluntary consensus standards for products, services, processes, systems, and personnel in the United States. The organi ...
X3T9.5 (now X3T12), conforms to the
Open Systems Interconnection (OSI) model of functional layering using other protocols. The standards process started in the mid 1980s.
FDDI-II, a version of FDDI described in 1989, added
circuit-switched service capability to the network so that it could also handle voice and
video signals. Work started to connect FDDI networks to
synchronous optical networking (SONET) technology.
An FDDI network contains two rings, one as a secondary backup in case the primary ring fails. The primary ring offers up to 100 Mbit/s capacity. When a network has no requirement for the secondary ring to do backup, it can also carry data, extending capacity to 200 Mbit/s. The single ring can extend the maximum distance; a dual ring can extend . FDDI had a larger maximum frame size (4,352 bytes) than the standard
Ethernet family, which only supports a maximum frame size of 1,500 bytes, allowing better effective data rates in some cases.
Topology
Designers normally constructed FDDI rings in a
network topology such as a "dual ring of trees". A small number of devices, typically infrastructure devices such as
routers and concentrators rather than host computers, were "dual-attached" to both rings. Host computers then connect as single-attached devices to the routers or concentrators. The dual ring in its most degenerate form simply collapses into a single device. Typically, a computer-room contained the whole dual ring, although some implementations deployed FDDI as a
metropolitan area network.
FDDI requires this network topology because the dual ring actually passes through each connected device and requires each such device to remain continuously operational.
The standard actually allows for optical bypasses, but network engineers consider these unreliable and error-prone. Devices such as workstations and minicomputers that might not come under the control of the network managers are not suitable for connection to the dual ring.
As an alternative to using a dual-attached connection, a workstation can obtain the same degree of
resilience through a dual-homed connection made simultaneously to two separate devices in the same FDDI ring. One of the connections becomes active while the other one is automatically blocked. If the first connection fails, the backup link takes over with no perceptible delay.
Frame format
The frame check sequence uses the same
cyclic redundancy check
A cyclic redundancy check (CRC) is an error-detecting code commonly used in digital networks and storage devices to detect accidental changes to digital data. Blocks of data entering these systems get a short ''check value'' attached, based on t ...
as
Token Ring and
Ethernet.
The
Internet Engineering Task Force defined a standard for transmission of the
Internet Protocol (which would be the protocol data unit in this case) over FDDI. It was first proposed in June 1989 and revised in 1990.
Some aspects of the protocol were compatible with the
IEEE 802.2 standard for
logical link control. For example, the 48-bit
MAC addresses that became popular with the Ethernet family. Thus other protocols such as the
Address Resolution Protocol
The Address Resolution Protocol (ARP) is a communication protocol used for discovering the link layer address, such as a MAC address, associated with a given internet layer address, typically an IPv4 address. This mapping is a critical function ...
(ARP) could be common as well.
Deployment
FDDI was considered an attractive campus
backbone network technology in the early to mid 1990s since existing Ethernet networks only offered 10 Mbit/s data rates and Token Ring networks only offered 4 Mbit/s or 16 Mbit/s rates. Thus it was a relatively high-speed choice of that era.
By 1994, vendors included
Cisco Systems,
National Semiconductor, Network Peripherals, SysKonnect (acquired by
Marvell Technology Group
Marvell Technology, Inc. is an American company, headquartered in Santa Clara, California, which develops and produces semiconductors and related technology. Founded in 1995, the company had more than 6,000 employees as of 2021, with over 10,00 ...
), and
3Com
3Com Corporation was an American digital electronics manufacturer best known for its computer network products. The company was co-founded in 1979 by Robert Metcalfe, Howard Charney and others. Bill Krause joined as President in 1981. Metcalfe ex ...
.
FDDI installations have largely been replaced by Ethernet deployments.
Standards
FDDI standards included:
* ANSI X3.139-1987, Media Access Control (MAC) — also ISO 9314-2
* ANSI X3.148-1988, Physical Layer Protocol (PHY) — also ISO 9314-1
* ANSI X3.166-1989, Physical Medium Dependent (PMD) — also ISO 9314-3
* ANSI X3.184-1993, Single Mode Fiber Physical Medium Dependent (SMF-PMD) — also ISO 9314-4
* ANSI X3.229-1994, Station Management (SMT) — also ISO 9314-6
Notes
References
{{Authority control
Local area networks
Link protocols
ISO standards