What if somebody copies the mechanic computer's structure to the quantum computers?
The mechanic computers are immune to EMP pulses. And that thing makes them interesting, even if they are old-fashioned systems. The small nanotechnical mechanic computers can be used as backup systems for simple, one-purpose systems.
Nanotechnology makes it possible to create very small mechanical components. And it's possible. The small mechanic computers can assist the digital computers in cases where EMP (Electromagnetic pulse) damages digital computers.
Digital computers are more effective and multi-use than mechanic computers, and that's why they replaced mechanic computers. But it's possible. That mechanic computers work as background systems, for special cases.
Colossus
When we think about digital computers the first electric "computer" before ENIAC was Colossus, the top secret code-breaking machine. They used electric wires and electric processing systems. Allies used Colossus to create fake and false information for the German commanding system during the Normandy disembarkation. The machine that was used to break German Lorenz Enigma encryption was an electromechanical system called Bombe.
The Colossus was the first programmable computer in the world. That system was in use until the 1960's. The Colossus was the first machine that allowed to read opponent's messages and in vital moments of WWII to deliver disinformation to the enemy commanders.
The pin, or camera system, was created for the Colossus. an be used to turn binary data into qubits. In the Colossus program were the small holes in paper that traveled between the lamp and photocells. Today the system can share the data into the bites and then send it to photoelectric cells.
Then that data can travel as lines in those data handling lines. This kind of structure can repeat one after one. The system can share data with smaller and smaller bites in the system. There are more and more adjacent data handling lines.
In quantum computers, the quantum entanglements can create similar structures as cogwheels made in mechanic computers. If researchers can create enough complex 3D quantum systems. It makes it possible to create a 3D structure.
Their quantum entanglement transports information using similar tracks with mechanic computers. And that thing will make it possible to create new types of quantum solutions.
The historical connection with Bombes and "Colossus" to quantum computers is similar. In those systems, history repeats itself. The quantum computers are the bombes of today. Users cannot preprogram quantum computers.
And still today the user uses quantum computers through digital computers. There is no way to use quantum computers straight through the keyboards.
Then we can think about mechanic computers. Especially, "Colossus", was the fundamental system. It's possible to make a quantum version of "Colossus". That theoretical system would be the 3D quantum entanglement structure that follows the drawings of the "Colossus".
In those systems, small skyrmions can used for the same purpose as radio tubes. The system can create as an example, a virtual triode (Three electrodes) radio tube by making three data input/output points in skyrmion. In a photonic model, the system can use a laser ray that travels in a ring-shaped structure. Then the laser rays will be aimed at three points of that laser ray.
The most incredible version of the mechanic computer's digitalization could be the structure where small black holes are put in the form that mimics the bombe's wheel structure. Then quantum entanglement between those black holes will transmit information in the system, just like cogwheels transport information in mechanic computers.
https://en.wikipedia.org/wiki/Bombe
https://en.wikipedia.org/wiki/Colossus_computer
https://en.wikipedia.org/wiki/Cryptanalysis_of_the_Lorenz_cipher
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