The quantum computer's bottleneck is the binary network. The fact is that binary networks can transmit quantum information. However, they cannot transport that data in quantum mode. Before regular networks can carry information between quantum computers, the system must transfer information into the binary form.
Quantum systems can transmit data from qubits into binary networks. The system drives information from all quantum states to row. The quantum system drives all quantum states one after one with information from those states to the binary network.
The receiving system must know the serial number of the data package so that it can collect information. Or if the receiving system wants to create identical qubits with the transmitter, the system requires information about the qubit's state, and where the information package is coming from.
We can think of the qubit as an apartment building. There each state of the qubit is the the floor. And the information package is like a room or flat. When receiving the system rebuild the qubit, it must know which floor and which room the data package is coming from. When a quantum computer transmits information to the binary computer, it can introduce it on screen the receiving system requires the serial numbers of the data packages.
The problem with those models is that this requires time. Every time. When a quantum computer must transform a qubit into binary data, it requires time. If the network can transport information in the quantum mode. That makes everything easier.
The problem with quantum computers is their ultimate power. The only system that can check the answer is another quantum computer. The system can send information back to the same quantum computer. Or, quantum computers can operate as series. That makes the quantum system more effective and faster.
The first computer makes calculations. And the second one calculates it backward. But that requires. That information can travel between computers without changes.
The ability to transport information between quantum computers is important for error detection. The system can involve two or more quantum computers that operate as a series. That allows researchers to create a good error-detection system. In that model, the error-detecting quantum system just calculates the same calculations backward that the first computer made. And if the answer is the original information, the quantum system has no mistakes.
The optical cable can act as a virtual qubit. The quantum system can transport every qubit's state sharing each state for its optical fiber. That means every qubit state travels in independent optical fiber. That allows us to drive information through the network as a tower. But the system can get full-scale benefits only from the systems that can transport the qubit as a qubit from one place to another.
The magnetic qubits make it possible for the particle-accelerator-based systems can transport this qubit as a qubit. Then the receiving system catches the traveling qubit. And starts to make the superposition into it.
https://scitechdaily.com/quantum-computers-need-a-quantum-internet-heres-why/
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