Multicore computing and virtual quantum computer.

 

Multicore computing and virtual quantum computer. 

The quantum computer could be the next-generation computing. The difference between quantum and neural computers is that the last ones can create their thoughts. 

The multicore data processing is the tool, which would increase the capacity of computers microprocessor. This kind of system can also be called the "virtual quantum computer", and that thing bases the traditional technology, which is already in use. 

When we are thinking about the structure of the quantum computer the idea is that the data comes to the system in lines, not rows what the traditional computer uses. The difference between traditional and quantum computers is the speed. Quantum computer would be many times faster than normal computers, and it is visible in the most complicated calculations in the world. 

And the problem is that in the 2D-processor architecture every single microprocessor can handle only one calculation or operand in the time, and this thing would make those processors quite slow if we are thinking possibility that the quantum computer would have many layers in the same time. In the quantum computer, the data will be transferred by using qubits, molecules that are acting like neurotransmitters. 

How to make multilayer computing?

Theoretically, the multi-layer computing is easy to make. There would be three layers, how the system handles data. At first, the system shares the data to every layer at the layers and then they would send the solution, which is put back together. 

But the more interesting solution would be if the data travels with different speeds in some wires. The key is that there are three layers in the wire, and electricity would travel in the wire with a separate speed, which makes them artificial axons. That will make the wire of the system acting as an axon in the neuron. 

And the artificial axons would make the non-organic neural computer possible. Theoretically, the artificial brains or neural computer can be created by using neurons, what is communicating with a computer by using EEG-systems. But the non-organic model, what is using architecture, what bases the artificial neurons, what are not requiring the neurons. 

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The thing is that those layers would affect each other, and that effect will cause the turbulence in the electric vortex in the wire. This distorts the electric signals, and this might be the key to the computer, which can think independently. Neural computer what can learn independently and make independent solutions. That kind of system will be a key element in the next-generation space probes, which will send to other stars. 

But when we are looking at this kind of theoretical system is that theoretically, they are easy to create and simple. Creating a practical solution is more difficult. Quantum computers are in theory very simple machines. That thing is the voltmeter, which is connected to the electric wire. So why that thing is important? 

Quantum computer doesn't require a clock, which makes it very fast and powerful

When we are thinking about the traditional computer the system acts that number zero is just cutting the electricity from the wire. And the problem is how to separate cutting the power from the machine from zero in the binary number system where travels only numbers zero and one? 

And that requires the creation of qubit. Binary bits have two values one and zero, which makes that the system needs another zero. Qubit has values 0, which means that the electricity is cut. The values 1 and 2 are making smooth and fast data handling possible. So what is the model of those systems in the real world?

The regular computer would be acting like an electric circuit, where the switch is cutting electricity and the need to separate the zero from cut electricity requires a clock. In a quantum computer, the model is the voltage meter that follows the levels of the electricity in the wire, which makes the clock useless. But transforming that thing to a practical system is a little bit difficult.  And the problem is that the quantum computer cannot use regular operating systems. 

Virtual quantum computer

But could the qubit travel in wires? Theoretically, there is a possibility to create a system, what is using electric wires the same way with qubits, but there is one problem, how we would send the data to every single microprocessor at the same time? 

If engineers can create the qubit, what can travel in the electric wire, they could make extremely small quantum computers. Or the quantum computer what can be the size of the table PC-computers. The flat cables, which are used in standard PC-computers can theoretically operate like qubits. 

And the thing is that in that kind of computer at the head of every wire in the cable is installed the microprocessor. But how that system can deliver data to every single processor or core at the same time? The answer is artificial intelligence, which would cut the bit rows, mark both ends of those bites, and send them through the flat cable as the line to every processor at the same time. The difference between this and the normal computer is that every microprocessor is acting as an independent computer. But there is lots of work with that kind of solution. 

If this thing works, that can make possible to create the quantum computer, which is not so sensitive to interference what molecular qubits are. 

When those bits are traveling through those microprocessors, that system can collect them back in one entirety. But how this system would operate. The answer is that when the text is written by using a keyboard or using some other data source, those bits would be pre-processed and cut in pieces. Then that data would be read to "stand by" position. 

That position would be the series of small computers, what are sorting cut data in the memory, what is connected to the wire. When the entire input would be completed, the user of that system would push the "red button". That means that the data would send to the processors, what are processing data, and when the processing data is completed the solution would collect the answer to the central processor, where those bites will put back together.