An early use of the term appeared in a November 3, 1962, New York Times article reporting John W. Mauchly's vision of future computing spoken to a meeting of the American Institute of Industrial Engineers that previous day. Mauchly told the gathering, "There is no reason to suppose the average boy or girl cannot be master of a personal computer." [1]

The first computers that can be called 'personal' were the first non-mainframe computers, the LINC and the PDP-8. By today's standards they were big (about the size of a refrigerator), expensive (around $50,000 US), and had small magnetic core memories (about 4096 12-bit words for the LINC).
However, they were small enough and cheap enough for individual laboratories and research projects to use, freeing them from the batch processing and bureaucracy of the typical industrial or university computing center. In addition, they were moderately interactive and soon had their own operating systems. Eventually, this category became known as the mini-computer, usually with time-sharing and program development facilities. Eventually, the mini-computer grew up to encompass the VAX and larger mini-computers from Data General, Prime, and others. Deployment of mini-computer systems was a model for how personal computers would be used, but few of the mini-computer makers managed to profit from it.

Development of the single-chip microprocessor changed everything, since it dropped the cost of purchase of a computer by an order of magnitude or more.

The first generation of microcomputers that started to appear in the mid 1970s (see home computers were less powerful and in some ways less versatile than business computers of the day (but in other ways more versatile, in terms of built-in sound and graphics capabilities, and were generally used by computer enthusiasts for learning to program, for running simple office/productivity applications, for electronics interfacing, and/or games, as well as for accessing BBS's, general online services such as CompuServe, The Source, or Genie, or platform-specific services such as Quantum Link or Compunet.

Maybe the most important push to IBM compatibles over all other computers was because Albert Clark, an Air Force program manager who was faced with a growing government user base, sharing mainframe time, who were purchasing the various non-compatible home computers to replace their VT-100 dumb terminals. There were as many as 10 different brands that could all emulate a VT-100, but required different actions to boot up and run. Rather than have to justify a single brand of computer with proprietary software and hardware, he chose what, at that time, was arguably the most backward computer of its time. It had no sound card, only a keyboard interface, but it was inexpensive and multiple manufacturers could legally produce them. He wrote the specification for an “IBM compatible” computer for purchase across the US Department of Defense. Contracting officials did not take the compatibility issue seriously so Albert Clark had to approve the next 3 major specifications prior to release to industry for bidding. The eventual result was the purchase of several million IBM compatible personal computers all across the government which encouraged many of the government contractors to buy IBM compatibles “to be compatible with the government.” The result was that the “IBM compatible computers”, Intel processors, and Microsoft became the standard.

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 became the "killer app" that turned the microcomputer into a business tool. Later, Lotus 1-2-3, a combined spreadsheet partly based on VisiCalc, presentation graphics, and simple database application, became the PCs own killer app. Good word processor programs also appeared for many home computers. The low cost of personal computers led to great popularity in the home and business markets during the 1980s. In 1982, Time magazine named the personal computer its Man of the Year.
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 straight CPU power.

Architecture
Personal computers can be categorized by size and portability:

the desktop computer
the portable computer
the notebook or laptop
the tablet computer
the PDA
the wearable computer
Many mass-market IBM PC compatible and Apple Macintosh personal computers are standardized to the point that purchased software is expected to run with little or no customization for the particular computer. Often memory, and peripherals such as video boards and disk storage are easily upgradeable, even by the end user, and even the motherboard can in some cases be changed to upgrade the power of the central processor. Such upgradeability is not indefinite since major changes in the personal computer industry occur every three to five years; a machine that was considered top-of-the-line say five or six years ago may be impractical to upgrade due to changes in processors, memory, and peripherals. This upgrade cycle is in part linked to new releases of the primary mass-market operating system, which tends to drive the acquisition of new hardware and tends to obsolete previously serviceable hardware (see planned obsolescence.

The hardware capabilities of personal computers can sometimes be extended by the addition of expansion cards. The standard expansion bays for personal computers as of 2005 are PCI, AGP, and PCI Express. All personal computers as of 2005 have multiple PCI slots, and all but the cheapest prebuilt PCs have either a single AGP or at least one PCI Express slot, but rarely both. A PC may also be upgraded by the addition of extra drives DVD, CD-ROM, flash drive, Hard drive, etc. Standard internal storage device interfaces are ATA, Serial ATA, SCSI, and CF+ Type II in 2005.

Motherboard
Main article: PC motherboard
The motherboard is the primary circuit board for a computer. Most other computer components plug directly into the motherboard to allow them to exchange information. Motherboards usually hold a chipset, BIOS, nonvolatile BIOS memory, parallel port, PS/2 keyboard and mouse ports and expansion bays. Sometimes a secondary daughter board is plugged into the motherboard to provide more expansion bays and to cut down on its size.

Central processing unit
Main article: central processing unit
The Central processing unit or CPU is the part of the computer that performs most of the calculations that make programs or operating systems run. The CPU plugs directly into the motherboard by one of many different types of sockets. Most IBM PC compatible computers use an x86-compatible processor made by Intel, AMD, VIA Technologies or Transmeta.

RAM - memory
Main article: random access memory
The Random Access Memory of the computer is the "short-term-memory" of the PC, It is much faster than the mass storage devices like Harddisk or CD-ROM, but its contents are lost when the Power is turned off.

Hard disk drive
Main article: hard disk
The disk drives use a sealed head/disk assembly (HDA) which was first introduced by IBM's "Winchester" disk system. The use of a sealed assembly allowed the use of positive air pressure to drive out particles from the surface of the disk, which improves reliability. This technology is now industry standard, with costs, capacities and access speeds which conform to Moore's law.

PSU - power supply unit
Main article: power supply
Essential. Provides steady DC supply from a domestic AC source. Many problems with Old PCs can be traced to a faulty or overheating PSU. Newer power supplies often have voltage regulators that will shut down the computer if the power supply is under strain.

Graphics - video Card
Main article: 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. Graphic cards are also the most glamorised computer component as it is the component which creates all the visual effects on the computer which is essential for playing games

Non IBM-compatible personal computers
Though many personal computers are IBM PC compatible using either Microsoft Windows or open-source forms of UNIX such as Linux, a number of other personal computer types are still popular. The leading alternative is Apple Computer's Power Macintosh platform, based on the PowerPC microprocessor (although Apple has announced[2] a transition to Intel microprocessors beginning in 2006).

Further PC and PW (Personal Workstation) types through time:

Amiga (previously produced by Commodore, now under license from Amiga Inc.)
Acorn Archimedes & RiscPC
Atari ST
BeOS BeBox
Commodore 64 still holds the record for being the most popular.
Pegasos
NEC PC-9800 (At one time, in Japan)
NeXT workstations
Sun SparcStation
SGI workstations like the SGI Indigo and SGI Onyx
The term "personal computer" is often avoided by advocates of the above computer systems, ostensibly because of the association it has to the "PC" in "IBM PC".

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