The new quantum computers can be table-sized

The next-generation quantum computer can fit in the mobile telephone. That means the computers are turning to the quantum era. And that is the end of silicon. The breakthrough in quantum computers is making fiction possible. 

The new diamond-based quantum computers can work at room temperature and they can be more powerful, fit on the desk, easier to operate, and especially cheaper than any other quantum computer in the world. The thing that makes those new diamond-based, compact-size quantum computers the most effective system in the world is that they can form the two-state quantum system.

Each of those quantum computers has an internal quantum system, but those small-size quantum computers can form the network or macro-qubit. Those computers can install to the ring around the radio transmitter. The radio waves can be used as data transporter of the qubit. In that kind of radio-based system, every frequency is a certain layer or state of the qubit. 

And that radio transmitter can send the data to those quantum computers and act as the qubit. That kind of multi-level quantum computer system can be the most powerful in the world. They are operating as the network, and that thing can act as the base for AI, which is more intelligent than humans. 

The thing in artificial intelligence is not how many neurons or layers the qubit can have. The thing is how fast those layers are handling and surround data in the system. In computing how effectively the system uses its components and how the software interacts with hardware are important. 

The colossal-size quantum computers can also be used as the controllers of the satellites. But that kind of system must use the remote control or the giant computer must build in the space. And that thing is the most expensive solution in the world of computing. 

When quantum computers are turning more common that thing will turn it cheaper. Large numbers of production make it possible that more and more software is also made for quantum computers. The ability to drive programs on the quantum platforms is making those machines the same way universal as the modern PC:s are. 

The advantage of quantum computers is so fast that the most modern quantum computers can be old-fashion after one month or even the next day. Another thing is that the automatized programming process is making quantum computers faster than we even expected. 

When the researchers are thought that developing the quantum computer is a similar process as developing Turing´s machine those people were wrong. The automatized data handling processes, assistance from supercomputers, and the ability to preprogram the quantum computer automatically before each operation make even the first quantum computers faster than researchers believed. 

In all computers, the computer must preprogram before every operation. That means the computer must stop and the memory of it must be empty. Before the new code has loaded to the processor. The problem with the microprocessor is that nobody can see outside is it stopped. 

If the processor is not done and the data line is empty. That causes a terrible mess. For avoiding that mess computer asks the processor: "are you ready?".

Then processor answers "yes" and that thing allows to send the data to it. That process takes time, and even less than a millisecond halt is easy to notice if the problem consists of billions of calculations.  In quantum computers, the state that receives the mission must be ready in the same way as a regular computer. But in a quantum computer, the busy layer can send the data to another layer or state without the need to stop the machine first. 

In the time of Turing, that thing was made by hand. But in modern days, the preprogramming of the computer is done by using the automatized processes. And that makes modern binary computers faster than some Turing's machines can be. 

As I wrote in quantum computers, only one of its states or layers must be ready for receiving the information. And that makes the system more immune to programming errors. If there seems to be an error in the program code. The system sends the part of the program where is the problem to another layer. 

Then that layer can deliver the data to the other layers. And when the quantum computer is made and ready to use it can solve the complicated algorithms that are needed for creating more and more powerful quantum computers that have more and more states in their qubits. 

()https://sifted.eu/articles/diamond-quantum-computer/

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