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The term bus is used to refer to pathways that signals use to travel from one component to another in the computer There are many types of busses, including the processor bus, which is used by data traveling into and out of the processor This bus type was described
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earlier in the Popular CPU Chips section The address and data buses described there are both part of the processor bus Another type of bus is the memory bus, which is located on the motherboard and is used by the processor to access memory
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How do ATX motherboards differ from Baby AT motherboards What is the most commonly used motherboard type Which motherboard form is typically the largest Some differences are that ATX motherboards include 33vDC, have integrated I/O ports, and include a mini-DIN-6 keyboard connector The ATX The Full AT, which measures 12 by 13 inches
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The following subsections focus on various types of I/O buses, the paths between the processors, and I/O components such as peripherals and drives You can access a motherboard s I/O bus by installing expansion cards into the appropriate expansion slots Common expansion card types are shown in Figure 5-2
The first type of I/O bus was the Industry Standard Architecture (ISA) bus This is an 8-bit bus, meaning that data can travel 8 bits at a time between devices Later, in 1984, a 16-bit ISA bus was developed Both the 8-bit and 16-bit ISA busses run at 83MHz Although some expansion cards (such as most sound or modem cards) require only 8 or 16 bits, the ISA bus is becoming obsolete Current motherboards carry only one ISA slot, and most new motherboards no longer include any ISA slots For those motherboards that still have them, the 8-bit and 16-bit slots are different sizes, but an 8-bit card can be used in a 16-bit slot; it uses only the first half of the slot s connectors ISA, EISA, and VESA have largely become obsolete in new computer systems You will generally find that all new computer systems use only the PCI bus and AGP for the video
FIGURE 5-2
ISA, PCI, and VESA (bottom) expansion cards
5:
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The most common bus architecture in new computers is Peripheral Component Interconnect (PCI) It was released in 1993 and is typically found in 80486 and newer systems The PCI bus is either 32 or 64 bits and can run at half the processor s memory bus speed PCI is considered a local bus This means that it moves data at speeds nearer the processor speeds A 64-bit, 66MHz PCI PCI slots are smaller than ISA slots and are standard has been typically white PCI cards and slots are not developed and is now being widely compatible with those of other bus architectures implemented This standard is the Although PCI was initially developed for video foundation for the AGP architecture, cards, PCI cards are also available for networking which is described in the following section and SCSI controllers, among other peripherals
Accelerated graphics ports (AGP) are relative newcomers to the computer industry AGP is a local bus that was designed for video only This architecture is typically considered a port rather than a bus because it consists of a direct link between the processor and the video card only AGP is 32 bits and can run at the speed of the processor s memory bus AGP slots look very similar to PCI slots, but they are not compatible with PCI cards To use AGP, the system s chipset and motherboard must support it The AGP architecture also includes an AGP controller, which is typically a small, green chip on the motherboard AGP cards typically run four to eight times faster than PCI They are now rated as 2X, 4X, or 8X 2X and 4X are very common on consumer The most common bus systems, while the 8X is frequently referred to as architectures in today s computers are ISA, a Pro version Faster cards can run in slow AGP PCI, and AGP Almost all computers contain slots; however, they will only run at the speed of expansion slots for each of these bus types the AGP port
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