What kind of computers would we need or want?
When we are creating computers, which can even think, we must remember that there are two ways to make those things. Another way is simply connecting the human brains, and then just start to connect our brains collectively. The thing is by using that kind of data handling or processing systems, there is a possibility that those things give wrong answers because they are similar to us, and that means those computers would have own will. The thing what scientists want is the computer what is solving problems without excuses.
That means that the computers what are giving the right answers to the questions should computer just process the data, what it can collect, but it must not have own will. That means that we would need many new things in computers. The thing is that the system needs very powerful programs, but also the hardware must be different.
The thing is that the new type of theoretical computers are both different than existing computers, and they are also far away from each other. Another computer type would be the high power calculation machine or so-called quantum computer. but another system would be even more complicated thing than a quantum computer. That system is called the "neuro computer". The neurocomputer is even more complicated tool than some quantum computer, what needs the qubit, what has values 0,1 and 2.
The neurocomputer would be 3D processing structure, where the high-power microprocessors are stimulating the neurons, and the as neurotransmitters are acting by some kind of mercury drops. But the thing is that making that kind of systems is very complicating. And maybe someday in the distant future, we can make the combination of the neuro- and quantum computers. Those neuro-quantum computers would need even more radical technology than some simple quantum computer. The size of both computer types or their prototypes will be like some city.
Those theoretical computer systems need of course qubits, but those qubits must have billions of values for making that computer make true. In this version, the very high-voltage ion would travel through the line of pylons, and every time this ion would lose its capacity, and the level of capacity is giving the value for that ion. The idea could be easy to create by using the steel ball and line of nails, and when the ball is touching the nail, it would lose the capacity. And the remaining electricity can meter by using voltage meters, which tells the value of the ball, what is the qubit in this case.
But making a practical version of the computer is a little bit more difficult than just loading the steel balls and meter their voltage by using a voltage meter. The thing is that there are many attempts to create qubits, and some versions are far away from conventional.
One version is to benefit the quantum teleportation for that purpose, and the thing is just to increase the mass of the atom by using electromagnetic radiation, and then the time-slowing effect would help to stabilize the locations of electrons, what allows to deliver values 0,1 and 2 by touching the gate or sensor. So, in this case, the position of the atoms makes them as qubits, and as I have written before touching a gate with one electron gives value 0, two electrons give value 1 and nucleus would give value 2.
But here we must remember that those systems must need extremely high voltage electricity, and that's why those computers would be very large. The functioning quantum and neuro computer need nuclear powerplant for working. The table-sized solutions for those kinds of computers are far away from those theoretical prototypes, which are created when we would create the first qubits.
When we are creating computers, which can even think, we must remember that there are two ways to make those things. Another way is simply connecting the human brains, and then just start to connect our brains collectively. The thing is by using that kind of data handling or processing systems, there is a possibility that those things give wrong answers because they are similar to us, and that means those computers would have own will. The thing what scientists want is the computer what is solving problems without excuses.
That means that the computers what are giving the right answers to the questions should computer just process the data, what it can collect, but it must not have own will. That means that we would need many new things in computers. The thing is that the system needs very powerful programs, but also the hardware must be different.
The thing is that the new type of theoretical computers are both different than existing computers, and they are also far away from each other. Another computer type would be the high power calculation machine or so-called quantum computer. but another system would be even more complicated thing than a quantum computer. That system is called the "neuro computer". The neurocomputer is even more complicated tool than some quantum computer, what needs the qubit, what has values 0,1 and 2.
The neurocomputer would be 3D processing structure, where the high-power microprocessors are stimulating the neurons, and the as neurotransmitters are acting by some kind of mercury drops. But the thing is that making that kind of systems is very complicating. And maybe someday in the distant future, we can make the combination of the neuro- and quantum computers. Those neuro-quantum computers would need even more radical technology than some simple quantum computer. The size of both computer types or their prototypes will be like some city.
Those theoretical computer systems need of course qubits, but those qubits must have billions of values for making that computer make true. In this version, the very high-voltage ion would travel through the line of pylons, and every time this ion would lose its capacity, and the level of capacity is giving the value for that ion. The idea could be easy to create by using the steel ball and line of nails, and when the ball is touching the nail, it would lose the capacity. And the remaining electricity can meter by using voltage meters, which tells the value of the ball, what is the qubit in this case.
But making a practical version of the computer is a little bit more difficult than just loading the steel balls and meter their voltage by using a voltage meter. The thing is that there are many attempts to create qubits, and some versions are far away from conventional.
One version is to benefit the quantum teleportation for that purpose, and the thing is just to increase the mass of the atom by using electromagnetic radiation, and then the time-slowing effect would help to stabilize the locations of electrons, what allows to deliver values 0,1 and 2 by touching the gate or sensor. So, in this case, the position of the atoms makes them as qubits, and as I have written before touching a gate with one electron gives value 0, two electrons give value 1 and nucleus would give value 2.
But here we must remember that those systems must need extremely high voltage electricity, and that's why those computers would be very large. The functioning quantum and neuro computer need nuclear powerplant for working. The table-sized solutions for those kinds of computers are far away from those theoretical prototypes, which are created when we would create the first qubits.
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