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Kimmo Huosionmaa
Problem with the microprocessor is caused by a number "zero" or empty. The idea of the system is that one is when there is electricity in the wire, and zero is when the wire is without voltage. thing. What makes this thing problematic for the microprocessor is to separate two lines of the binary code. This thing might feel very easy to answer, but the problem is that the computer's microchip can only handle numbers one and zero, what means that giving the "break" mark has not many things to choose.
When we have only two things what to choose, and those things must be used for other purposes, must the system somehow separate two different programs, what makes impossible to send the break marks by using some different marks. And the problem is, how to separate the separation mark from other marks.
As I have written in binary code is only numbers one and zero, and when the next series of the binary code is transmitted in the processor, must the computer know, when the first line ends and the second line of the binary code starts. If that is not determined, would the computer not able to tell the difference for a computer of two different programs. When the computer works the clock is determining the time, what means zero in the line of the code and what is the length of the cut in the electric circuit, when the processor is going to begin to drive another program.
The thing, what cuts voltage in the wire is rotating switch, what makes possible to cut the electricity in the wire by using extreme fast speed. Actually, this problem is always existing, when the processor must handle two same numbers one after the other. And the thing is very easy to explain by giving an example, "how to separate two number one or two number zero from each other?".
The answer is very simple, the microprocessor must have the only clock, what determines the length of the electric cuts, and when the length of electricity cutting limits certain time, would that determine that the cut means that there is sending number zero. But how microprocessor would separate break or zero and the end of the program code from each other is a very difficult thing. In theory, there should be a mark, what is send before each mark, but the thing is that it would be done by the second microprocessor and that only transfers this problem to another place in the microcircuit.
Kimmo Huosionmaa
Problem with the microprocessor is caused by a number "zero" or empty. The idea of the system is that one is when there is electricity in the wire, and zero is when the wire is without voltage. thing. What makes this thing problematic for the microprocessor is to separate two lines of the binary code. This thing might feel very easy to answer, but the problem is that the computer's microchip can only handle numbers one and zero, what means that giving the "break" mark has not many things to choose.
When we have only two things what to choose, and those things must be used for other purposes, must the system somehow separate two different programs, what makes impossible to send the break marks by using some different marks. And the problem is, how to separate the separation mark from other marks.
As I have written in binary code is only numbers one and zero, and when the next series of the binary code is transmitted in the processor, must the computer know, when the first line ends and the second line of the binary code starts. If that is not determined, would the computer not able to tell the difference for a computer of two different programs. When the computer works the clock is determining the time, what means zero in the line of the code and what is the length of the cut in the electric circuit, when the processor is going to begin to drive another program.
The thing, what cuts voltage in the wire is rotating switch, what makes possible to cut the electricity in the wire by using extreme fast speed. Actually, this problem is always existing, when the processor must handle two same numbers one after the other. And the thing is very easy to explain by giving an example, "how to separate two number one or two number zero from each other?".
The answer is very simple, the microprocessor must have the only clock, what determines the length of the electric cuts, and when the length of electricity cutting limits certain time, would that determine that the cut means that there is sending number zero. But how microprocessor would separate break or zero and the end of the program code from each other is a very difficult thing. In theory, there should be a mark, what is send before each mark, but the thing is that it would be done by the second microprocessor and that only transfers this problem to another place in the microcircuit.
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