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Computer Organization

Computer Organization. The Nature of Data. Spreadsheets give us a way to create processes that manipulate data We can think of a piece of data as a quantity that can be stored in a cell of a worksheet That cell represents a physical location where the data resides

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Computer Organization

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  1. Computer Organization

  2. The Nature of Data • Spreadsheets give us a way to create processes that manipulate data • We can think of a piece of data as a quantity that can be stored in a cell of a worksheet • That cell represents a physical location where the data resides • Let’s step back a little and look at the computer and what happens when you work on a spreadsheet or other program

  3. Computer Organization (1) A typical computer is made up of a few basic parts: • Processor. This is the “chip” where the work gets done. It might be an Intel chip or AMD or some other kind. Modern chips have multiple processors (“cores”) on them that can share the work. (Often there is yet another processor for graphics.) One measure of chip quality is the speed, measured in GigaHerz. The bigger the number, the faster the processor.

  4. Computer Structure (2) • Memory. This memory is like the memory on a microwave; when the computer is off or loses power, the memory loses its contents (the way your microwave forgets what time it is when you have a power outage). This memory is fast and is connected closely with the processor. The speed is often measured in MegaHerz; again, the faster the better. The size is measured in MegaBytes or GigaBytes. • Storage, often called the disk or hard drive, though in some computers this is made up of the same kind of devices as a flash drive. This storage holds its value when the power is off, but is slower than the working memory. The size would be in GigaBytes

  5. Computer Organization (3) • Cache. This is a part of memory that mediates between working memory and the processor. Having a good-size cache can make the computer faster • Input devices. Keyboard, mouse, and microphone but also many others, such as game controllers, laboratory instruments, etc. • Output devices, such as screen, printer, speaker, and there are many other possibilities, like robot arms or a car’s brake system

  6. What makes it a computer • There are plenty of devices with chips… cars, televisions, washing machines, etc. • What makes a computer special is that it stores its program in memory, just like data, and can accept and execute new programs • It can also potentially modify its own programs (“learn”)

  7. Bits • Everything in the computer, whether it is text, numerical data, music, videos, programs like Excel, macros or other code you write, or the operating system (Windows, MacOS, Linux) is stored digitally in tiny devices that have two distinct physical states • Abstractly these states are represented by the numbers 0 and 1. An individual 0 or 1 is called a bit.

  8. Moving bits • It would be too inefficient for the computer to access and move bits individually • So they are grouped into chunks that are moved around the computer, from the disk to the memory to the CPU, as a group • The bigger the chunk is, the faster the computer can move data. A “32 bit” computer moves data in 32 bit chunks. A “64 bit” computer moves data in bigger 64-bit chunks and can conveniently handle a bigger working memory. • The original chunk was typically a byte (8 bits)

  9. The Operating System • The operating system is the most important program on your computer, in the sense that it controls what happens: if you have multiple programs open, for example, and you type something, it figures out where the characters should go • While the computer is up and running, the operating system is in the working memory so it can be as fast as possible • But when the computer is turned off… the memory is wiped out • So when you turn your computer on, how does it get started with no operating system?

  10. “Booting” • There is typically a special chip that retains its data when power is off; that chip has a small program built in • When you turn on your computer this program loads the actual operating system from the external memory into the working memory • This is called “booting” because it is supposedly like picking yourself up by your own bootstraps • This is what is going on during the minute or two after you turn on the computer before your operating system shows up

  11. Applications • Besides your operating system and some associated programs, your computer also has application programs that actually do the things you want to do: word processing, games, spreadsheets, play music, etc • The typical computer user just uses applications. In this class we will be creating some applications inside of Excel

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