A large number of neurons guarantee that the damage of the brains is always minimum

A large number of neurons guarantee that the damage of the brains is always minimum 

When we are looking at the brains of the people, we might think that they are acting like an extremely interesting and sophisticated assembly line, what mission is to generate new things. The thing is that in the assembly line is working lots of people, and the missions of those people have been cut to the most minimum parts, what it can be cut. When lots of people are working with the products, the bad job of one worker in the process can cause the most minimum damage, which is possible. And then we can replace the word "worker" by using "neuron" we are realizing the reason, why there are so many neurons in the brains of humans. 

In the brains is so many neurons, because each neuron handles only one mission, and that thing means that if there are damages in those areas the damage, what the destruction of one neuron causes is minimum. The thing, that the brains can do is that they can circle the electric vortex in the brain's structure, which means that the same program or electric vortex can come to the same neuron in many times. That means that the brains can process the data. 

The data processing means that when the problem is traveling in the neural network, the data would be transformed a little bit because it must jump across the synaptic transmission, and when the electric signal would be stored in the neurotransmitter it would change a little bit. That thing causes the data what travel in the neural system would be warped, and that warping is called the processing of the data. The reason why neurons are not touching together is that thing denies the viruses moving from the cell to another. 

Data is an interesting thing because we don't think that thing as a product. Data is somehow a virtual thing, but the thing is that we can calculate it. The role of the qubit is the same in the quantum computer like neurotransmitter has in human brains. In the quantum computer, the role of the synapses can be replaced by using the nanotube. And the quantum computer would imitate the human brains in its processes. So can quantum computers more intelligent than a human being?

The answer is that if the quantum computer would have carbon or fullerene-based qubits, that computer can get over 100 layers, where it can handle data. And if we are thinking about the size of the quantum computers those things can be the size of the city. Even that computers would not able to move, it can remote control robots, which are operated under the control of the wireless network. 

But when we are thinking about the structure of the quantum computer, we must realize that the quantum computer would be the large group of the smaller size units, which are communicating with robots. This means that in the robots or "servants" of that artificial intelligence can have the interface, which would have the ability to communicate with the quantum system. 

So, in this case, the second layer of the computing system would be in the robots themselves. The supercomputing powers those robots get when they are connecting by using a wireless network, and the use of quantum computers need sophisticated artificial intelligence. And that requires the powerful supercomputers, which can preprocess the data for the ultimate quantum computer.