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Unit III

WHAT'S INSIDE A MICROCOMPUTER?

 

The nerve center of a microcomputer is the Central Processing Unit, or CPU. This unit is built into a single microprocessor chip — an integrated circuit — which executes program instructions and supervises the computer's overall operation. The unit consists of three main parts:

1) the Control Unit, which examines the instructions in the user's program, interprets each instruction and causes the circuits and the rest of the components-disk drives, monitor, etc. — to be activated to execute the functions specified;

2) the Arithmetic Logic Unit (ALU), which performs mathematical calculations (+, -, etc.) and logical operations (and, or, etc.);

3) the registers, which are high-speed units of memory used to store and control information. One of these registers is the Program Counter (PC) which keeps track of the next instruction to be performed in the main memory. Another is the Instruction Register (IR), which holds the instruction that is currently being executed.

One area where microprocessors differ is in the amount of data — the number of bits — they can work with at a time. The computer's internal architecture is evolving so quickly that the 64-bit processors are able to address 4 billion times more information than a 32-bit system.

The programs and data, which pass through the central processor must be loaded into the main memory (also called the internal memory) in order to be processed. Thus, when the user runs an application, the microprocessor looks for it on secondary memory devices (disks) and transfers a copy of the application into the RAM area. RAM (Random Access Memory) is temporary, i.e. its information is lost when the computer is turned off. However, the ROM section (Read Only Memory) is permanent and contains instructions needed by the processor.

Most of today's computers have internal expansion slots that allow users to install acceleration cards or co-processors. As the word implies, an acceleration card is a board that increases the processor speed. A coprocessor is a silicon chip that performs precise tasks and mathematical operations at a very high speed.

The power and performance of a computer is partly determined by the speed of its microprocessor. A clock provides pulses at fixed intervals to measure and synchronize circuits and units. The clock speed is measured in MHz (megahertz) and refers to the frequency at which pulses are emitted. For example, a CPU running at 50 MHz (50 million cycles per second) is likely to provide a very fast processing rate and will enable the computer to handle the most demanding applications.


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