Nanotubes and binary computers are acting like human brains in quantum computers

1) Nanotubes and binary computers are acting like human brains in quantum computers

The quantum computer and abiogenesis are things, which are near each other. The quantum computer can control the manufacturing platforms like human controls the same systems. But what would be the form of this magnificent machine? 

And the thing in this kind of system is the ability to process its data is depending on the layers of the qubit. The qubit delivers data to the binary computer or the algorithm that will transfer and translate that data to the operating system that will run over the binary microprocessor. The mission of those layers is to translate the multi-dimensional data to a binary form that it can read from the screen. 

The qubit can be the ball-shaped structure, which travels inside the nanotubes, and inside that fullerene, the ball is the molecule that is frozen in the extremely cold temperature, and when that molecule touches the internal layer of the ball, that thing gives the second series of layers to the qubit. 

2) In this case, I presume that those traveling qubits are fullerenes. If those things are two internal fullerene molecules where the internal molecule is ⁶⁰C molecule and the outer layer is ¹²⁰C size fullerene the qubit would have 180 layers if we are calculating zero or "cutting power" electricity as one layer. 

Then the internal qubit will hit the internal layer of the ball, and that sends the signal to the nanotube, which is part of the internal structure of the quantum computer. After that, the nanoballs are traveling in the nanotube, which is surrounded by small cables, which are connected to each carbon line. 

So the image of this kind of connection looks like axons of the neuron, where the supporting cells are replaced by normal computers, which is using the binary system. The mission of those computers is similar to support cells of the neuron. They would send the electricity to the quantum level and then pick up the data from those tubes. And also their mission is to protect it from the quantum layer from the disturbing electromagnetic signals.

3) And the mission of those structures is to deliver the layer of the qubit to the normal computer. So the qubit can have two layers inside it the outer layer, what touches the layer of the nanotube, and the small molecule what hovers in that moving chamber and allows to give the extra layers to that structure, what is in the key element in the quantum computer. 

The thing is that the quantum computer would be in this case as the series of tubes, where the qubits are moving. The size of those systems is unlimited. So they can be the size of cities. And even if that kind of quantum computer would be connected to the production line, that thing can make many processes very powerful. 

But can the quantum computer be dangerous? Here we must realize that the quantum computer can communicate with sophisticated robots, which are controlled by normal computers. The normal computers are enough for operating the automatized aircraft or some other things. This thing is remarkable when we are thinking about the quantum computer and its abilities. 

Image: https://www.cnet.com/news/quantum-computing-leaps-ahead-in-2019-with-new-power-and-speed/