"Quantum computer setup at the University of Sussex with two quantum computer microchips where quantum bits are transferred from one microchip to another with record speed. Credit: University of Sussex" (ScitechDaily.com/Major Breakthrough in Developing Quantum Computers That Can Solve Critical Challenges of Our Time)
The requirement for successful quantum computing is that the system can operate without breaks. Error detection can create by using two or more quantum computers. But how to make quantum computers operate without breaks? And the problematic thing is that quantum entanglement and superposition that quantum computer use remains only less than a minute. Then the system must adjust the quantum entanglement again.
The transmitting side of quantum entanglement must be at a higher energy level than the receiving side. Or the information is not traveling in that system. When both sides in quantum entanglement reach the same energy level.
That breaks the quantum entanglement. Sometimes the situation where quantum entanglement reaches the same energy level is called a filling. When both sides of quantum entanglement reach the same energy level the quantum entanglement fills. And that forms the standing wave between those superpositioned and entangled particles. Then that standing wave kicks those particles away.
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The quantum computer is:
1) Quantum processors
2) Co-processors (AI-controlled support systems) predict when quantum entanglement turns to a stable energy level. And drive information to the second quantum processor when the quantum entanglement in the first processor starts to break.
Another purpose of the support system is to start adjusting the second processor at the right moment. Data jumps between those two quantum processors. And that makes it possible to use quantum computers without breaks.
If the system can predict the moment when quantum entanglement fills. Or both sides of quantum entanglement reaching the same energy level would make it possible to create a quantum computer that operates without breaks.
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The idea is: when quantum entanglement starts to fill. The system starts to adjust the second quantum processor. And then drive data to the second processor that continues the first processor's work. The fact is that the filling of the quantum entanglement will not happen in a moment. When the energy levels between the ends of quantum entanglement are closing each other data flow between those particles will be slowing. And the support system that observes the quantum entanglement starts to adjust the second processor and drive data in it.
The best way to solve this problem is to use two quantum processors side-by-side. When the quantum entanglement starts to fill, that means it starts to reach an energy balance the first quantum chip can transmit the information to the second quantum chip. And that thing continues the operation.
The breakthrough is that the quantum system can transfer data between two quantum chips without limits. And that makes revolution for computing. Quantum systems are effective tools. But that technology is still young. If we want to use quantum computers for something else than purely theoretical work, the major problem is how to handle breaks. If some computer controls robots. It requires non-stop operating capacity and perfect error management. And that new system can make break handling more effective.
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