Visualise the first push bike you owned. Done it? You have just loaded an image file from your long term memory (hard disc drive) into your short term conscious memory (RAM - Random Access Memory). Your long term memory has vastly more capacity then your short term memory. This make sense because you can't possibly hold everything you have experienced in your conscious memory. Your RAM is full of whatever you happen to be thinking about at the time.
Now, re-visualise/imagine your bike a different colour. Done it? You've just sent data with some processing instructions down the system bus from your RAM to your CPU (Central Processing Unit) which made the calculation/adjustment of colour to the data before putting it back in your RAM.
Now, see if you can remember tomorrow, what colour you changed your bike to. If you can, you will have successfully stored it back on your hard disc drive. Data in RAM must be stored onto the hard drive because when you start thinking about something else (quit a program and load another) or go to sleep (shut down your computer) then the contents of RAM are lost.
Learning is the process of getting new data in our RAM stored on our hard drives. Computers can do it instantly, humans usually take a little longer.
This diagram (Computer system diagram) may help you understand these processes.
Modern computers systems comprise a linked group of hardware devices. These are:
There are several types of processing chip (or device). The 2 most important general categories are ...
The calculating brain of the computer where all the logical calculating processes are carried out. This carries out all the general calculating processes. Examples include ...
DSP chips are usually designed to carry out specific tasks and are often located on Expansion Cards (see later). Typical examples include ...
3 primary types ...
Formatting All new magnetic media (Floppy disks, hard drives, removable cartridges) need to be formatted before use. Formatting put a filing system onto the disk and prepares it to receive data. Every operating system uses a different filing system which often makes media incompatible between platforms. Read more about hard drives and formatting here.
On the surface of a commercially pressed /manufactured optical disc (CD / DVD ROM) a pit is essentially an indentation or hole (pressed from a glass master) and a land is an area unaffected. A reading laser shines light onto the surface of the disc. The light takes longer to reflect from a pit than a land. This discrepancy in the wavelength of the reflected light allows the laser to produce 1s and 0s.
CD-R/RW and DVD-R/RW work differently by using a laser to change the colour of a light sensitive surface making them susceptible to damage from direct light sources such as sunlight.
Solid state drives are essentially like large Flash RAM storage devices. Typical current capacities are between 256 and 500Gb. These drives are compact,energy efficient, fast and useful as system drives, and sound library drives for DAW systems, but their high cost and low capacities compared to magnetic hard drive storage means they are still not widely used yet (Jan 2015) except in laptops. Also, there are some issues regarding their longevity and decreasing efficiency over time. Nethertheless their speed means a system can boot, and files can load and save, in a fraction of the time taken by magnetic drives.
Additional hardware (printers, scanners, cameras etc) can be connected to a computer using one of 4 primary types of connection. Here are the the current most common ...
|Interconnection type||Connector||Symbol||Speed||Used for|
|Universal Serial Bus / USB 1||Several types including ...||Up to 12 MBits/sec||Printers, scanners, external hard drives, memory sticks, MIDI interfaces, digital cameras etc|
|Universal Serial Bus / USB 2||As USB 1||As USB 1||Up to 60Mb/sec||As USB 1. Used for wide range of devices including digital SLRs and audio interfaces|
|Universal Serial Bus / USB 3.0 (SuperSpeed USB)||Uses an optical connector||Up to 625Mb/sec||Used for wide range of devices including digital SLRs and audio interfaces|
|USB 3.1||Up to 1,250Mb/sec|
|Firewire 400||Up to 49Mb/sec||High end scanners, printers, fast AV external hard drives, semi-professional audio interfaces, DV camcorders etc|
|Firewire 800||As Firewire 400||Up to 98Mb/sec||High end scanners, printers, fast AV external hard drives, semi-professional audio interfaces, HD camcorders etc|
|Ethernet||-||Gigabit = 125Mb/sec
Wifi/IEEE 802.11n = 75Mb/sec
10BaseT = 10MBits/sec
100BaseT = 100MBits/sec
1000BaseT = 1000MBits/sec
|Multiple general uses such as ... Networking (computers, servers, hubs, switches etc), connecting network devices such as printers, audio system networking etc and professional audio interfaces|
|eSATA||-||300Mb/sec and 600Mb/sec||External hard drives|
|Thuderbolt 1||Two channel at 1.25Gb/sec||Potentially anything|
|Thunderbolt 2||2.5Gb/sec (single channel)|
All desktop computers include several expansion slots on the motherboard to which additional processing cards can be fitted in order to extend the functionality of a computer.
The current standard format for these cards is PCI and AGP for hi-end graphics cards. A typical desktop computer will have 4 to 6 expansion slots.
Typical expansion cards include ...
The motherboard is the large printed circuit board to which are attached all the other hardware device. Some of these devices are connected via cables, others plug into "expansion slots", whilst others are soldered or fitted to the board directly.
|Connections to motherboard|
|Via cables||Via expansion slots||Directly|
|Optical drives||Graphics cards|
|Power supply||RAM memory cards|
Software may be divided into three categories. Click here to read about them.