Personal computer

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A stylised illustration of a modern personal computer

A personal computer (PC) is usually a computer whose price, size, and features make it suitable for personal usage, generally in the home. The term was popularized by Apple Computer with the Apple II in the late-1970s and early-1980s, and afterwards by IBM with the IBM PC. Generally, personal computers differ from other types of computers only in terms of their components and function. Workstations or servers differ from personal computers primarily by function and grades of components used.

Uses

Personal computers are normally operated by one user at a time to perform such general purpose tasks as word processing, internet browsing, internet faxing, e-mail and other digital messaging, multimedia playback, video game play, computer programming, etc. This is in contrast to most other consumer electronics, which tend to specialize in only a few functions, but tend to outperform general purpose PCs at those tasks. As a result, a video game console (for example) can generally play video games better than an equally-priced computer, but can't do any of a PC's other functions.

The user of a modern personal computer may have significant knowledge of the operating environment and application programs, but is not necessarily interested in or capable of programming for the computer. Therefore, most software written primarily for personal computers tends to be designed with simplicity of use, or " user-friendliness" in mind. However, the software industry continuously provides a wide range of new products for use in personal computers, targeted at both the expert and the non-expert user.

Types of Personal computers

Personal computers are generally divided into categories based on their size, portability, and capabilities.

Stationary computers

  • Desktop computers, frequently simply called desktops, are the largest personal computers. Often they are designed to fit on or under a desk. They frequently have the most expansion capabilities and tend to be the fastest, due to the looser size and heat constraints compared to other types of personal computers. They tend not to include integrated monitors, speakers, keyboards, or other devices, using expansion ports to connect those components.
  • All-in-One computers (often abbreviated AIO) are similar to desktop computers, but tend to integrate some external components into one package. In a desktop, the monitor, computer, and speakers would be separate components connected by cables, while in an AIO, they would be combined into one package, often by building the computer behind the screen. One of the most well-known AIOs is the Apple iMac. An AIO tends to be less powerful and less expandable than a traditional desktop, as it suffers from the same engineering constraints as a portable computer (namely size and weight).

Portable computers

Portable computers are designed for portability, and so are lighter than desktops. They tend to be slightly more expensive than similarly equipped desktops, due to space and heat constraints. Most portable computers contain batteries so that they can be used for short periods without access to an electrical outlet.

  • Laptop computers (also called notebook computers) are small personal computers designed for mobility. Usually all of the peripherals needed to operate the laptop are built in to a single unit. They are operated with a keyboard and mouse, and are often nearly comparable to similar desktop computers in terms of processing power.
  • Tablet computers are computers that feature a touch screen. These tend to be slightly smaller than laptops. They are often operated with a stylus or a pen instead of a keyboard and mouse, although some models do offer both forms of input. They are generally slightly more expensive than non-tablet laptops.
  • Ultra-Mobile PCs (UMPC) bridge the gap between laptops/tablets and PDAs. With a maximum screen size of 7-8 diagonal inches (16-20 cm), they are much smaller than even the smallest laptops at 10-11 diagonal inches, and far smaller than the average 14-15 inch laptop. UMPCs use touch screens, and can run most applications tablets can run. Though far less powerful than most laptops, they can run versions of most computer applications.
  • Personal digital assistants (PDAs) are handheld devices that share many traits with other portable computers. They are often used for checking email or calendering, but lack the versitility of computers, and are limited in terms of their software choices. They are often smartphones, and are sometimes considered a consumer electronics device.

Configuration

Most personal computers are standardized to the point that purchased software is expected to run with little or no customization for the particular computer. Many PCs are also user-upgradable, especially desktop and workstation class computers. Devices such as main memory, mass storage, even the motherboard and central processing unit may be easily replaced by an end user. This upgradeability is, however, not indefinite due to rapid changes in the personal computer industry. A PC that was considered top-of-the-line five or six years prior may be impractical to upgrade due to changes in industry standards. Such a computer usually must be totally replaced once it is no longer suitable for its purpose.

The hardware capabilities of personal computers can sometimes be extended by the addition of expansion cards connected via an expansion bus. Some standard peripheral buses often used for adding expansion cards in personal computers are PCI, AGP (a high-speed PCI bus dedicated to graphics adapters), and PCI Express. Most desktop personal computers have multiple physical PCI expansion slots and a PCI Express (PCIe) bus and one or more expansion slots. Some motherboards contain an AGP bus instead of a PCIe bus, but PCIe has mostly replaced AGP.

Motherboard

For more information, see: motherboard.

The motherboard (or mainboard) is the primary circuit board for a personal computer. Many other components connect directly or indirectly to the motherboard. Motherboards usually contain one or more CPUs, supporting circuitry and ICs for CPU operation, main memory, and facilities for initial setup of the computer immediately after being powered on. Boot firmware or a BIOS is often held in a small piece of non-volatile memory, such as Flash memory. Additionally, it contains connectors for hard drives and optical or floppy drives. In many portable and embedded personal computers, the motherboard houses nearly all of the PC's core components. Often a motherboard will also contain one or more peripheral buses and physical connectors for expansion purposes. Some higher-end motherboards have a secondary daughter board attached to provide further expandability or to satisfy space constraints.

Central processing unit

For more information, see: Central processing unit.

The central processing unit, or CPU, is the part of the computer that executes operations. Computer software programs, including the operating system, consists of millions of processor instructions encoded in binary. Nearly all PCs contain a type of CPU known as a microprocessor. The microprocessor often plugs into the motherboard using one of many different types of sockets. IBM PC compatible computers use an x86-compatible processor. Intel makes most of the processors in personal computers, with AMD being it's closest competitor. Via and Transmeta also make x86 processors. Other types of computers might use Power PC, SPARC or other types of CPUs, however nearly all computers sold to home users use x86 processors.

Main memory

For more information, see: Primary storage.
A four-megabyte RAM card measuring about twenty-two by fifteen inches (55.8 by 38.1 centimeters); made for the VAX 8600 minicomputer (circa 1986). Dual in-line package (DIP)  Integrated circuits populate nearly the whole board; the RAM chips are in the majority located in the rectangular areas to the left and right.

A PC's main memory place (or primary storage) is fast storage space that is directly accessible by the CPU, used to store the currently executing program and immediate data. PCs use semiconductor random access memory such as SDRAM as their primary storage. Main memory is usually much faster than mass storage devices like hard disks or optical discs, but cannot retain data without power and is more expensive than mass storage. Therefore, it is not generally suitable for long-term or archival data storage.

Mass storage

For more information, see: Hard disk.
Internals of a Winchester disk

Mass storage stores programs and data without consuming power. Although semiconductor flash memory has dropped in cost, the prevailing form of mass storage in personal computers is still the electromechanical hard disk.

A computer's hard disk stores most of the user's data, including their operating system, applications, media, and documents. On a Microsoft Windows computer, this is represented by the "C:" drive.

If the mass storage controller (often on the motherboard) provides for expandability, a PC may also be upgraded by the addition of extra hard disks or removable storage drives. Standard internal storage device interfaces are ATA and Serial ATA, with SATA being the faster of the two. Other types of internal storage device interfaces include SCSI and CF+ Type II. A hard drive usually takes up a 3.5 inch or 2.5 inch bay inside a computer.

Removable storage

Removable storage drives include DVD, CD, and floppy disk drives, as well as flash card readers. In most cases, removable storage drives are bigger than hard drives, requiring a 5.25 inch bay. Drives are generally named by what sort of actions they can perform on a type of media. For instance, a "DVD-ROM" drive can read DVDs, because "ROM" stands for "Read-Only Memory". A "CD-R" drive can record once to a CD, and also read CDs, because the "-R" stands for "recordable". A "CD-RW" drive can read and rewrite CDs, because "-RW" stands for "re-writeable".

Graphics - Video card

For more information, see: Graphics card.

The graphics card - otherwise called a graphics adapter, video adapter, or video card processes and renders the graphics output from the computer to the VDU or computer monitor and is an essential part of the modern computer. On older and budget models graphics cards tended to be integrated with the motherboard but, more commonly, they are supplied in PCI, AGP, or PCI Express format.

At the introduction of the IBM PC, many personal computers used text-only display adapters and had no graphics capability.

History

For more information, see: History of computing hardware (1960s-present).


Time share " terminals" to central computers were sometimes used before the advent of the PC, such as the smart terminal — televideo ASCII character mode terminal pictured here.

Mainframes and large 'minicomputers'

Before the advent of the microprocessor in the mid 1970s, computers were generally large costly systems owned by universities, institutions and large companies. To make efficient use of computer time, end users often did not directly interact with the machine but instead would prepare tasks for the computer on off-line equipment such as card punches. A number of assignments for the computer would be gathered up and processed in batch mode. After the job had completed, users could collect the results. In some cases it could take hours or days between submitting a job to the computing center and receiving the output.

A more interactive form of computer use developed commercially by the middle 1960's. In a time-sharing system, multiple computer terminals let many people share the use of one mainframe computer processor. This was common in business applications, and in sciences and engineering.

A different model of computer use was foreshadowed by the way in which early, pre-commercial, experimental computers were used, where one user had exclusive use of a processor. Some of the first computers that might be called "personal" were early minicomputers such as the LINC and PDP-8, and later on VAX and larger minicomputers from Data General, Prime, and others. By today's standards they were very large (about the size of a refrigerator) and cost prohibitive (typically tens of thousands of US dollars), and thus were rarely purchased by an individual. However, they were much smaller, less expensive, and generally simpler to operate than many of the mainframe computers of the time. Therefore, they were accessible for individual laboratories and research projects. Minicomputers largely freed these organizations from the batch processing and bureaucracy of a commercial or university computing center.

In addition, minicomputers were relatively interactive and soon had their own operating systems. The minicomputer Xerox Alto (1973) was a landmark step in the development of personal computers, because of its graphical user interface, bit-mapped high resolution screen, large internal and external memory storage, mouse, and special software. [1] The minicomputer era was an intermediary step from mainframes to personal computer usage.

Computers at home

One early use of the term "personal computer" appeared in a November 3, 1962 New York Times article reporting John W. Mauchly's vision of future computing as detailed at a recent meeting of the American Institute of Industrial Engineers. Mauchly stated, "There is no reason to suppose the average boy or girl cannot be master of a personal computer.[2]"

The ancestors of the modern personal computer did not use microprocessors, which explained their size and high cost. After the commercialization of the "computer-on-a-chip", the cost of manufacture of a computer system dropped dramatically. The arithmetic, logic, and control functions that previously occupied several costly circuit boards were now available in integrated form. Concurrently, advances in the development of solid-state memory eliminated the bulky, costly, and power-consuming core storage used in prior generations of computers.

A programmable terminal called the Datapoint 2200 is the earliest known device that bears any significant resemblance to the modern personal computer[3][4]. It was made by CTC (now known as Datapoint) in 1970 and was a complete system in a small case bearing the approximate footprint of an IBM Selectric typewriter. The system's CPU was constructed from a variety of discrete components, although the company had commissioned Intel to develop a single-chip processing unit; there was a falling out between CTC and Intel, and the chip Intel had developed wasn't used. Intel soon released a modified version of that chip as the Intel 8008, the world's first 8-bit microprocessor[5]. The needs and requirements of the Datapoint 2200 therefore determined the nature of the 8008, upon which all successive processors used in IBM-compatible PCs were based. Additionally, the design of the Datapoint 2200's multi-chip CPU and the final design of the Intel 8008 were so similar that the two are largely software-compatible; therefore, the Datapoint 2200, from a practical perspective, can be regarded as if it were indeed powered by an 8008, which makes it a strong candidate for the title of "first microcomputer" as well.

Development of the single-chip microprocessor was an enormous catalyst to the popularization of cheap, easy to use, and truly personal computers. The Altair 8800, introduced in a Popular Electronics magazine article in 1975, at the time set a new low price point for a computer, bringing computer ownership to an admittedly select market in the 1970s. It was arguably this computer that spawned the development of both Apple Computer as well as Microsoft, spawning the Altair BASIC programming language interpreter, Microsoft's first product. The second generation of microcomputers — those that appeared in the late 1970s, sparked by the success of the Steve Wozniak-designed Apple release, the Apple II — were usually known as home computers. These were less capable and in some ways less versatile than large business computers of the day. They were generally used by computer enthusiasts for learning to program, running simple office/productivity applications, electronics interfacing, and general hobbyist pursuits. By the late 1990's, the "home computer" was becoming a less common label in favor of "personal computer." The graphics and sound capacities of "home" systems were matched by those intended for "business" purposes, with a general decrease in costs. The two market segments fused. These computers were pre-assembled, often pre-configured with bundled software, and required little technical knowledge to operate.

A university computer lab containing many desktop PCs
File:IBM PC 5150 Image.jpg
A release photo of the original IBM PC (ca. 1981)

Back to business

It was the launch of the VisiCalc spreadsheet, initially for the Apple II (and later for the Atari 8-bit family, Commodore PET, and IBM PC) that turned the microcomputer into a business tool. This was followed by the August 12 1981 release of the IBM PC which would revolutionize the computer market. The Lotus 1-2-3, a combined spreadsheet (inspired by VisiCalc), presentation graphics, and simple database application, would become the PC's own killer app. Good word processor programs would also appear for many home computers, in particular the introduction of Microsoft Word for the Apple Macintosh in 1985 (While earlier versions of Word had been created for the PC, it became popular initially through the Macintosh.).

In the January 3 1983 issue of Time magazine, the personal computer was named the "Person of the Year" for 1982.

Today

During the 1990s, the power of personal computers increased radically, blurring the formerly sharp distinction between personal computers and multi-user computers, such as mainframes. Today higher-end computers often distinguish themselves from personal computers by greater reliability or greater ability to multitask, rather than by brute CPU ability.

In today's common usage, personal computer and PC usually indicate an IBM PC compatible. Due to this association, some manufacturers of personal computers that are not IBM PCs avoid explicitly using the terms to describe their products. Mostly, the term PC is used to describe personal computers that use Microsoft Windows operating systems.

Non IBM-compatible personal computers

Though many personal computers are compatible with IBM PCs using either Microsoft Windows or Unix-likes such as Linux, a number of other personal computer types are also popular. Note that in many regions, in popular usage the term "PC" (though simply short for "personal computer") has become synonymous with "IBM PC–compatible."

A leading alternative to the IBM-compatible PC is the Macintosh (thus the commonly heard comparative, "PC vs. Mac"). The Macintosh originally used the Motorola 68000 series, then shifted to the IBM and Motorola PowerPC processors. This makes the term “IBM-compatible” particularly ironic, since the Macintosh was powered by an IBM chip, though neither IBM PCs nor so-called “IBM-compatibles” were.

In January, 2006, Apple shifted its architecture to the same Intel processor family found in many so-called “IBM-compatibles.”

List of other non IBM compatible PC's

Pre-PC systems This is a list of non IBM PC compatible business personal computers (PC), and Personal Workstation (PW) computers, that came on the market before the IBM-PC.

Post-PC systems This is a list of non IBM PC compatible business personal computers (PC), and Personal Workstation (PW) computers, that came on the market after the IBM-PC.

The term "personal computer" is often avoided by advocates of the above computer systems, because of the association with the "PC" in "IBM PC".

IBM-compatible is a historical term since IBM no longer manufactures personal computers. It is still a short-hand way of designating, especially during the period 1981–1997, a computer generally similar to the original IBM PC, XT and AT. Pragmatically, the operational definition of "compatible personal computer" is now "capable of running the current edition of Microsoft Windows".


See also

Notes

  1. Rheingold, H. (2000). Tools for thought: the history and future of mind-expanding technology (New ed.). Cambridge, MA etc.: The MIT Press.
  2. "Pocket Computer May Replace Shopping List", New York Times, 1962-11-03.
  3. http://www.americanheritage.com/articles/magazine/it/1994/2/1994_2_64.shtml
  4. http://www.old-computers.com/museum/computer.asp?st=1&c=596
  5. A History of Modern Computing, (MIT Press), pp. 220–21
  6. 6.0 6.1 6.2 6.3 This means that MS-DOS is ported to this machine, and is using BIOS calls to interface with the hardware, but the architecture of the hardware is completely different. So IBM-PC software that directly writes to (for example) the video screen (which almost all software did) won't work. The differences with the IBM-PC architecture could be huge. Especially the memory mapping and the video display hardware, but even simple things like the way the keyboard was interfaced to the system could be completely different

External links