Motherboard - The motherboard is the main circuit board of a microcomputer. It is also known as the mainboard or system board.
CPU - The CPU is the central electronic chip that determines the processing power of the computer.
Memory - Memory is the part of the computer that temporarily stores applications, documents, and stem operating information.
Bus - A bus is an electronic line that allows 1s and 0s to move from one place to another.
Expansion Slots - Expansions slots appear on the motherboard. They are sockets into which adapters are connected.
Ports and Connectors - A port is a connector located on the motherboard or on a separate adapter.
Bays - A bay is a space inside the computer case where a hard drive, floppy drive or CD-ROM drive sits
Power Supply - A power supply changes normal household electricity into electricity that a computer can use.
Sound Components - A sound card lets a computer play and record high quality sound.
Central Processing Unit (CPU)
Does all of the work for the computer
- Does all of the mathematics, mainly addition
- Does all the logical comparisons of values
- Directs the flow of data in a computer
- Controls the operation of the parts of the computer
- A microprocessor is a complete computer on a silicon chip
- A microprocessor does all of the functions of a computer
- stores data and instructions waiting to be used
- follows changeable instructions
- does input, processing, and output
- The Arithmetic Logic Unit (ALU)
- does all of the mathematics in a computer
- does all of the logic comparisons of values
- some common logic comparison symbols
- = equal to
- <>
- > greater than
- <= less than or equal to
- >= greater than or equal to
- <> not equal
- The Control Unit
- directs the flow of information into the CPU and/or memory or storage
- controls which instructions the CPU will do next
- Registers
- Used to store data and instructions inside the processor
- Size of the registers can affect the speed and performance of the processor
- The speed of CPUs is measured in hertzs.
- A hertz is on cycle per second.
- Need to measure time to determine cycles per second
- All computers have a clock built into them for timing the cycles
- The clock is usually located in a small metal box on the motherboard.
- Today, many CPUs can complete over six (6) instructions per second.
- Speeds of modern CPUs
- Most computers have a CPU that can do more than 400 MHz.
- MHz stands for megahertzs
- A MHz is 1,000,000 cycles per second.
- Computers will soon be at speeds of over a gigahertz, 1,000,000,000 Hertzs.
Today, all CPUs are microprocessors
CPUs have three basic parts
Speed of CPUs
Primary memory can be used directly by the CPU
- Consists of silicon chips, usually either VLS or VLSI technology is used to create the chips
- Two forms of Primary Memory
- Read Only Memory (ROM)
- Random Access Memory (RAM)
- Primary memory is also called primary storage
Read Only Memory (ROM)
- Stores instructions that are used by the CPU
- Tells the CPU how to be the kind of computer it is, for example a Windows, Macintosh, or Play Station computers.
- Tells the CPU how to work with the different parts of the computer
- ROM can also hold programs that are directly accessed by the CPU. One such program is the self-test when the computer is first turned on. The self-test tests to seem if all the parts on the main circuit board (mother board) are working correctly.
- The instructions in ROM can not usually be changed
- The instructions are built into the electronic circuits of the chips
- These instructions in ROM are called firmware
- To change the instructions in ROM you need to usually change the chips or do some other special process that is normally not available to an average user.
- The instructions in ROM are nonvolatile. They stay in ROM even when the computer is turned off.
- Access to information is random access.
- Random access means that any piece of information in ROM can be accessed at any given time without access other information first. It is a lot like the tracks on a music CD. You can access any track at any time and in any order.
- The other kind of access is sequential access. You must access the information in the order that they are located. This is a lot like a music tape. You must play the songs in order, or you have to fast forward past songs to get to the one you want.
Random Access Memory (RAM)
- Store data and instructions that are used by the CPU to perform some task.
- These instructions are usually loaded into RAM from a secondary storage device.
- RAM is also used to store instructions that tell the CPU how to work with its parts. These instructions are usually called drivers.
- The instructions in RAM are constantly changing, depending on the needs of the CPU.
- The instructions in RAM are volatile.
- When the computer is turned off the information in RAM disappears.
- The information in RAM needs to be saved to secondary storage before the computer is turned off.
- Access to information is random access.
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