Quantum computers and artificial intelligence
Quicksilver can act as a neurotransmitter in the new type of neuro computers or neurocomputer simulations.
Neurocomputers can think like humans, but they might base the technology, where nanotubes are transferring the bites or in this case, the quicksilver drops, what is loaded with electricity between the microchips. Quantum computers are not the same thing with artificial intelligence, but the quantum computer would make the artificial intelligence possible, what bases the computer itself. There is a possibility to create computers, which can simulate the human brains by using the new nanotechnical processors, where is not the wire connection between those processors.
In those computers, where the traditional electric wires would be replaced by nanotubes. The quicksilver drops, what are loaded with electricity can be used as the neurotransmitters in this kind of computers, what mission would simulate the actions of human brains. Those extremely small drops would travel in the system in the fullerene tubes, and then they would jump between the small size microprocessors like neurotransmitters. And the electricity, what is stored to those drops can transfer the electricity between the microprocessors.
Quantum computer simulation
The quantum computer simulators would use the virtual qubits what might have a different kind of shapes. One version of those virtual qubits might look like a line of sticks, where would be the electricity, and in that case, the quantum computer would work by using electron beams, what are targeted to those sticks, and that system might work by two ways.
The thing is that when the electron shower or beam hits to one stick, would the value of qubit 0 if the electron shower hits to two sticks, there would be value 1 if the electrons would hit to three sticks, the qubit would get value 2. One thing, where qubits are made by using the shower of electrons, what is hitting to sticks are making one thing possible, what might nobody thought before this.
That makes the number of values limitless, and the sticks would only need a connection to make that thing true. The thing what limits the values of a qubit is the places, where the sticks can be put. And in this case, the small tower, what is made by the iron atoms can work as the stick, and then the electron showers would shoot to those sticks. This technology can use the nano-tubes, where the electrons are moving, and if there would be small magnet rings, that would make possible to focus the electrons precisely to a certain stick.
That thing is necessary for creating that kind of systems or actually, the functional system requires the extremely sharp focus of the electron shower, because if the electron shower effects to more than one stick or tower in the same time, the system would not work. There is one way to make this kind of system operational, which would base the idea of using the photocells, and the sticks would have the plus-polaric electric capacity, what means that those sticks would pull electrons to them. And when an electron hits to that stick that would cause the electric arc, what can be detected by using the photocells.
The problem is that this kind of system would be a little bit too large for creating the functional version of the quantum computer. In the big -size this system could use quicksilver for transferring the electricity for the curtains stick, and this is the reason, why somebody explains some pyramids like the ancient computers. But those things are actually at the hypothetic level, and they are not scientifically proven. But when we are thinking about the use of the quicksilver in the new kind of computers, we must remember that material can similarly transfer data as neurotransmitters.
And that thing would be a help to create the most radical computers in the world and in those computers the nano-sized processors would be separated from together, and that means that the quicksilver drops would transfer electricity between those components. Those computers would emulate the processes of human brains more effectively than ever before. Maybe in the land of tomorrow, the "iron-based" artificial intelligence would be true.
Quicksilver can act as a neurotransmitter in the new type of neuro computers or neurocomputer simulations.
Neurocomputers can think like humans, but they might base the technology, where nanotubes are transferring the bites or in this case, the quicksilver drops, what is loaded with electricity between the microchips. Quantum computers are not the same thing with artificial intelligence, but the quantum computer would make the artificial intelligence possible, what bases the computer itself. There is a possibility to create computers, which can simulate the human brains by using the new nanotechnical processors, where is not the wire connection between those processors.
In those computers, where the traditional electric wires would be replaced by nanotubes. The quicksilver drops, what are loaded with electricity can be used as the neurotransmitters in this kind of computers, what mission would simulate the actions of human brains. Those extremely small drops would travel in the system in the fullerene tubes, and then they would jump between the small size microprocessors like neurotransmitters. And the electricity, what is stored to those drops can transfer the electricity between the microprocessors.
Quantum computer simulation
The quantum computer simulators would use the virtual qubits what might have a different kind of shapes. One version of those virtual qubits might look like a line of sticks, where would be the electricity, and in that case, the quantum computer would work by using electron beams, what are targeted to those sticks, and that system might work by two ways.
The thing is that when the electron shower or beam hits to one stick, would the value of qubit 0 if the electron shower hits to two sticks, there would be value 1 if the electrons would hit to three sticks, the qubit would get value 2. One thing, where qubits are made by using the shower of electrons, what is hitting to sticks are making one thing possible, what might nobody thought before this.
That makes the number of values limitless, and the sticks would only need a connection to make that thing true. The thing what limits the values of a qubit is the places, where the sticks can be put. And in this case, the small tower, what is made by the iron atoms can work as the stick, and then the electron showers would shoot to those sticks. This technology can use the nano-tubes, where the electrons are moving, and if there would be small magnet rings, that would make possible to focus the electrons precisely to a certain stick.
That thing is necessary for creating that kind of systems or actually, the functional system requires the extremely sharp focus of the electron shower, because if the electron shower effects to more than one stick or tower in the same time, the system would not work. There is one way to make this kind of system operational, which would base the idea of using the photocells, and the sticks would have the plus-polaric electric capacity, what means that those sticks would pull electrons to them. And when an electron hits to that stick that would cause the electric arc, what can be detected by using the photocells.
The problem is that this kind of system would be a little bit too large for creating the functional version of the quantum computer. In the big -size this system could use quicksilver for transferring the electricity for the curtains stick, and this is the reason, why somebody explains some pyramids like the ancient computers. But those things are actually at the hypothetic level, and they are not scientifically proven. But when we are thinking about the use of the quicksilver in the new kind of computers, we must remember that material can similarly transfer data as neurotransmitters.
And that thing would be a help to create the most radical computers in the world and in those computers the nano-sized processors would be separated from together, and that means that the quicksilver drops would transfer electricity between those components. Those computers would emulate the processes of human brains more effectively than ever before. Maybe in the land of tomorrow, the "iron-based" artificial intelligence would be true.
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