What Is Inside That Beige Box
By: Top • Research Paper • 1,718 Words • April 2, 2010 • 982 Views
What Is Inside That Beige Box
What Is Inside That Beige Box?
Power Supply
The +3.3V and +5V circuits supply power to all the electronic circuitry in the system (motherboard, adapter cards and disk drive logic boards), and through the port sockets on the motherboard that poke out through the rear of the case, to the peripherals that don't have their own power supply (e.g. keyboard, mouse).
Power supplies are often overlooked, but are essential to the proper operation of your system which requires a good, steady supply of DC power at the appropriate voltages. These voltages must be constant, right up to the maximum current your system will draw under load.
CPU
The CPU (Central Processing Unit) is the brain of the system. It executes all the program code from the operating system and the applications you run, and does most of the calculating and processing of data. It sends commands to direct the actions of all the other components in the PC and it manages the distribution of data to/from those various components.
Inside the CPU are registers, arithmetic and logic units (ALU), a floating-point unit (FPU), control circuitry and cache memory. Registers are circuits designed to hold data so that it can be processed in some way by an ALU or the FPU. Cache memory is extremely fast, but small relative to the main memory. Cache memory is used to store the current set of working data and code. So when the processor needs to read the next bit of data or code, usually it can retrieve it much faster from the cache. On occasions when it must recall data from the (slower) main memory, the CPU is forced to wait instead of getting on with other operations.
The CPU is the fastest component in your system. It works hard only sometimes, maybe when you play a game involving 3D graphics, or perhaps compile a very large program or run a very large spread-sheet; but most of the time it is just waiting for you to press the next key, or for the next bit of data to arrive from the Internet, through your modem.
Main Memory or RAM (Random Access Memory)
Memory is temporary storage where the processor can access program code and data. It is temporary because any information stored there is lost when the system loses power or is rebooted.
A low or high (on or off) voltage state in those small circuits represents a "0" or "1", which are the only two possible states of a binary digit (a "bit"). The high and low voltage state of each circuit is constantly refreshed.
While you work on your computer, all your work is stored here until it's saved to the hard disk or other storage device. This is why it is important NOT to have any interruption to your power supply.
Motherboard
As its name implies, everything inside your PC (apart from the disk drives and power supply unit) is part of the motherboard, or sits in a socket on the motherboard, or is connected to it by cables (e.g disk drives and power supply). So it plays an important structural role.
Boiling it down to its essentials, the motherboard comprises the chipset, Super I/O chip, BIOS ROM, communications pathways called buses and a whole lot of sockets to plug things into.
The chipset, usually a pair of chips, determines a lot of the features of your system. For example it determines what type of CPU and memory you can use. The chipset provides controllers for the buses and transfers data from one bus to another. These controllers are referred to as the North Bridge and South Bridge, unless the manufacturer uses some proprietary name for marketing purposes. The North Bridge connects to the faster buses and the South Bridge to the slower buses. (If you are keen to learn about that, the box below contains a more detailed description.)
Other functions can also be integrated into the motherboard and as I wrote at the beginning there is a trend for motherboards to be designed in this fashion. The most common are integrated video and audio adapters. This can save most of the cost of an adapter card, but the performance is usually at the lower end of the spectrum.
Video Adapter Card
The main components on this card are some video memory, a video processor and a digital-to-analog converter. The computer's CPU and video processor work together to generate a digital representation of an image and store it in the video memory. More advanced video