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Micro Processor is the main processing unit of the computer. It is call Central Processing Unit. If pins are broken, it will not work.
A processor typically consists of multiple layers, including the input/output layer, the control unit layer, and the arithmetic logic unit layer. These layers work together to process instructions and data in a computer system.
Input in the sense that it helps process data/information around the system AFAP but output in the sense that the data/information is to the processor and they do the work from there.
It is the brain of you computer. Every thing can be controled using the proccesor. They work more faster when they have a good heat sink on them. If you were to take of the heat sink It would die in the matter of seconds.
Not quite. Encapsulation means to combine data and the methods that work upon that data into a single unit (an object), such that access to both the data and methods is restricted in a controlled manner. Data-hiding is fundamental to encapsulation.
The key for any hardware piece to work with others is the SOFTWARE. That is why anything you buy for your computer (graphics cards, hard drives, etc.) it comes with software (or the driver) to help the computer recognize it and use it for the function its meant to be used for. I hope this is what you were looking for.
The CPU or Central Processing Unit performs all of the calculations required to make the computer work. They are normally made by Intel or AMD (Advanced Micro Devices), however other brands can be found in different computers. Processor speeds are dependent of the age of the computer. New computers often have a processor speed of 2Ghz (Gigahertz - Pronounced: Gig-a-hurt-z) or above.
A computer is an electronic device which manipulates or transforms data. it accepts data, stores data, process data according to a set of instructions, and also retrieve the data when required. Hence it is known as a data processor.
Differences between scalar and superscalar processors generally boil down to quantity and speed. A scalar processor, considered to be the simplest of all processors, works on one or two computer data items at a given time. The superscalar processor works on multiple instructions and several groups of multiple data items at a time. Scalar and superscalar processors both function the same way in terms of how they manipulate data, but their difference lies in how many manipulations and data items they can work on in a given time. Superscalar processors can handle multiple instructions and data items, while the scalarprocessor simply cannot, therefore making the former a more powerful processor than the latter. Scalar and superscalar processors both have some similarities with vector processors. Like ascalar processor, a vector processor also executes a single instruction at a time, but instead of just manipulating one data item, its single instruction can access multiple data items. Similar with the superscalar processor, a vector processor has several redundant functional units that let it manipulate multiple data items, but it can only work on a single instruction at a time. In essence, a superscalar processor is a combination of a scalar processor and a vector processor.
Keeping it simple: the CPU has a register (just like a memory) called the accumulator. It does all the work. It has other registers to keep addresses which normally increase by one each time they are used (but you can order it changed). Into the accumulator you bring in data (bytes from memory). there you can add other data, compare it, copy it to memory, shift it right or left. The compare allows you to jump around in memory ... that's the (boolean) logic of computers. They are very simple, but very fast. All the good stuff is in the programs.
A system unit is the main part processing unit and devises of a micro computer. A system unit includs a board called a mother board that holds a micro processor ship .The system unit is housed within the system cabinet
processor and main memory