Components of a Personal Computer
Essay by review • September 10, 2010 • Research Paper • 1,886 Words (8 Pages) • 2,270 Views
COMPONENTS OF A PERSONAL COMPUTER
Can you imagine a world without computers? Computers have changed everyday life in infinite ways that we would have never imagined 50 years ago. Long ago, computers were primarily used to compute numbers and to do word processing. As times have changed, computers have also evolved to help us with our everyday tasks. Nowadays we even use our computers for personal enjoyment by using them for games and finding information on the Internet. One way computers play a vital role in everyday life is a computer that helps manage a nuclear power plant. One computer might take the place of numerous people by checking readings and calculating information. Having a thorough knowledge of how a computer operates and how the components interact is very important in understanding how a computer works.
When using computer terms, it is very confusing trying to refer to different parts. Computers are basically broken down into 2 groups so help organize parts. Hardware is the term used to refer to items that u can physically touch and move with your hands (Dais interview). Software is the term used when referring to items you cannot touch like programs and applications.
The motherboard is the main piece of circuitry inside your PC (personal computer). Like the downtown of a big city, it's where everything happens. The
motherboard is important because the most important things inside your PC cling to it (Dais interview). In fact, for the most part, the computer tower is simply a housing for the motherboard. Although the motherboard contains a lot of items, it is essentially one unit and is referred to as such (Gookin 114). As an example, a mall has many stores, but everyone calls it the mall.
At the heart of every computer beats the microprocessor. The microprocessor acts like a tiny, fast calculator (Ting interview). The microprocessor itself deals with other elements in the computer. These elements provide either input or output. Input is information flowing into microprocessor and output is information that it generates or splits up (Gookin 116). The overall performance of a computer of your PC depends in large measure of its microprocessor. Clock speed is measured in megahertz (MHz), or millions of pulses (cycles) per minute (Waters 61). You might think of a processor clock as a kind of metronome; with each beat of the clock -each cycle- the processor can execute an instruction from the software (Dais interview). So, a processor running at 366 MHz can execute 366 million tasks per second, more or less.
The hard drive is the main storage place for most PC's. They are internal units mounted inside the PC's console case. On some PC's, you can see the front of the hard drive on the case. On other PC's, all you can see is a tiny light that blinks every time the hard drive is accessed. The hard drive itself is a hermetically sealed unit (Gookin 137). Therefore, the mechanism that reads and writes the information can be very precise.
Inside the hard drive are the hard disks. Most hard drives have two or more disks, each of which are stacked on a spindle (Waters 79). A device called a read/write head is
mounted on the actuator arm that allows it to access both sides of all the disks in the drive at once (Gookin 137). Most hard drives are connected directly, using something called IDE or Integrated Drive Electronics (Gookin 138). This special feature allows hard drives and CD-ROMs to be directly attached to the motherboard.
All computers need memory. That is where the work gets done. The microprocessor is capable of storing information inside of itself, but only so much (Dais interview). It needs extra memory just like humans need notepads and libraries. Memory for computers is referred to as RAM (Random Access Memory For example, when you create a document with your with your word processor, each character you type is placed into a specific location in memory (Gookin 145). Once there, the microprocessor does not need to access it again unless you are editing, searching or replacing, or doing something active to the text. After something is created in memory such as a document, command, or graphic, you save it to disk. Your disk drives provide long-term storage for information (Ting interview). Then, when you need to access the information again, you open it back into memory from disk so that the microprocessor can again work over the information. The only thing negative about memory is the fact that it is volatile (Dais interview). When you turn off the power of the computer, all the information that the memory is holding disappears unless you have it saved on disk. Even resetting your computer your computer zaps the contents of memory (Gookin 146).
One of the few PC components that has remained virtually unchanged over the last decade is the floppy disk drive. Floppy disks (called "floppies" or "diskettes") are flexible circles of magnetic material similar to magnetic tape (Waters 82). Both sides are
used to record computer data. The floppy drive grabs the disk's center and spins it within the housing. The read/write head in the drive reaches the surface through a hole in the housing (Dais interview). Floppies were formally known as PC's main portable, reusable
storage media. A floppy can hold 1.44 Kb of information, which just will not cut it today (Waters 82). Today CD-ROMs have all but taken over the role of the floppy.
Most computer programs are distributed on CD-ROMs nowadays. CD-ROMs look just like audio CDs, but they hold much more information. A CD-ROM can hold 650mb of data, which is equivalent to about 250,000 pages of text or 20,000 images (Waters 84). The information on a CD-ROM is read optically by the drive - nothing ever touches the disk (Ting interview). Although an audio CD player can not play CD-ROMs, your computer's CD-ROM drive can play audio CDs.
Computer disk technology is evolving very fast. In recent years, variations on standard CD-ROMs have emerged. One new variation is the CD-Recordable Disk (CD-R) which allows the user to save information on it only once (Waters 86). After information has been saved on the CD-R, the disk locks itself so the saved information can't be erased from it again. Another type of CD-ROM technology is the CD-Rewritable Disk (CD-RW), which allows the user to save to the disk up to a thousand times (Dais interview). Both types of drives are pricey, and not very useful for average PC users. One final type of CD-ROM technology is the DVD-ROM drive. This
represents the very latest and greatest portable storage
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