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| PCI |
Conventional PCI (PCI is an initialism formed from Peripheral Component
Interconnect, part of the PCI Local Bus
standard and often shortened to PCI) is a
computer bus for
attaching hardware
devices in a computer.
These devices can take either the form of an integrated circuit
fitted onto the motherboard itself, called a planar device in the PCI
specification, or an
expansion card that fits into a slot.
The PCI Local Bus is common in
modern PCs,
where it has displaced
ISA
and VESA Local Bus
as the standard expansion bus, and it also appears in many other computer
types.
Despite the availability of faster interfaces such as PCI-X and
PCI Express,
conventional PCI remains a very common interface.
The PCI specification
covers the physical size of the bus (including the size and spacing of the
circuit board edge electrical contacts), electrical characteristics, bus
timing, and protocols.
The specification can be purchased from the PCI Special Interest Group
(PCI-SIG).
Typical PCI cards used in PCs include: network cards,
sound cards,
modems, extra ports such as
USB or
serial,
TV tuner cards and
disk controllers.
Historically video cards
were typically PCI devices, but growing bandwidth requirements soon outgrew
the capabilities of PCI.
PCI video cards remain available for supporting
extra monitors and upgrading PCs that do not have any AGP or
PCI Express slots.
Many devices traditionally
provided on expansion cards are now commonly integrated onto the motherboard
itself, meaning that modern PCs often have no cards fitted.
However, PCI is
still used for certain specialized cards, although many tasks traditionally
performed by expansion cards may now be performed equally well by USB
devices.
Work on PCI began at Intel's
Architecture
Development Lab circa 1990.
A team of Intel engineers (composed
primarily of ADL engineers) defined the architecture and developed a proof
of concept chipset and platform (Saturn) partnering with teams in the
company's desktop PC systems and core logic product organizations.
The
original PCI architecture team included, among others, Dave Carson, Norm
Rasmussen, Brad Hosler, Ed Solari, Bruce Young, Gary Solomon, Ali Oztaskin,
Tom Sakoda, Rich Haslam, Jeff Rabe, and Steve Fischer.
PCI (Peripheral
Component Interconnect) was immediately put to use in servers, replacing MCA
and
EISA as the server expansion bus of choice.
In mainstream PCs, PCI was
slower to replace VESA
Local Bus (VLB), and did not gain significant market penetration until
late 1994 in second-generation
Pentium
PCs.
By 1996 VLB was all but extinct, and manufacturers had adopted PCI even
for 486 computers.
EISA continued to be used alongside PCI through 2000.
Apple Computer
adopted PCI for professional
Power Macintosh
computers (replacing NuBus)
in mid-1995, and the consumer
Performa
product line (replacing LC
PDS) in
mid-1996.
Later revisions of PCI added new features and performance
improvements, including a 66 MHz
3.3 V standard and 133 MHz
PCI-X, and the adaptation
of PCI signaling to other form factors.
Both PCI-X 1.0b and PCI-X 2.0 are
backward compatible with some PCI standards.
The PCI-SIG introduced the
serial PCI Express in
2004.
At the same time they renamed PCI as Conventional PCI.
Since then,
motherboard manufacturers have included progressively fewer Conventional PCI
slots in favor of the new standard. |
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