How to store data in quantum computers?

There are two ways to store data in quantum computers. They are different from each other. But they are both useful and they have their benefits. 

1) The data can store in the qubit. That thing requires that the qubit must be in a very stable environment. That storing the data is possible. The long-term storage of data is difficult. The reason for that is that the qubits are extremely sensitive to outcoming radiation and electromagnetic noise that destroys the data structure from the qubit. 

But if data is stored in the form of a qubit that data is ready to use right away. And those qubits can hover between the graphene layers for use in quantum computers. 

In error-detection systems, error detection can happen by using two quantum computers. There are two quantum lines and qubits will duplicate and then send to those lines at the same time. 

Then those computers will first compile the answers between those two data handling lines. And then they can compile the answers that different computers get. If there are no anomalies that thing makes sure that the answer is right. 

Or when the copy of the transmitted qubit is sent to the receiver. The receiver sends the checksum to the transmitter. Then the sender checks, that if the data is identical. If data is matching, nothing affected the qubit. While it travels between sender and receiver. So the data that is sent has maintained its shape while it traveled in the quantum channel. 

2) Data can store in the binary mode. The idea is that each layer or the state of the qubit will drive to the regular hard disks. So if we want to store 5 state qubits, we need five databases where the information from each layer or state of the qubits is stored. 

And the computer requires instructions on how to return those databases to qubits. Each of the databases must have a number that determines where each database must dump. So as an example database number three will be driven to the third layer of the qubit. 

So where to use those data storage models? 

The quantum computer might have two types of memory short-term memory or so-called fast operating memory. In that system, the qubits are a suitable way to store data. And the binary form of the data storage can use for long-term data storage. 

Short-term data storage is needed in error-tracking systems. The data will store in qubits when it will send to the quantum system. And in that process, the quantum computer takes the copy of the qubit. Then it sends the data to two quantum lines at the same time. Then that system compiles the answers. If there is a difference in those solutions. There is the possibility that something affects the qubit. 

But the error correlation system might also use binary storage. Of course, data like algorithms can store in binary mode. But there is the possibility that there is something like a heavy eruption of the sun. Or some strong gravitational wave that can disturb the qubit. 

There are developing systems. That can warn quantum computers about that kind of threat. But the AI-based system can also make it possible that the sensors like gravitational wave detectors and solar eruptions warning systems can send the warning to the quantum computer.

 And that thing makes it to back up the data to the binary storage. Storing data is important in the case,  that there is some kind of environmental anomalies. The quantum computers are the equipment of tomorrow. And they are advancing all the time. 

https://miraclesofthequantumworld.blogspot.com/

Maybe spies are storing data for decrypt by using quantum computers in the future.

Image I

In the NewScientist is an article about topics that spies are storing data for decrypting by using quantum computers in the future. That thing is not science fiction. There is the possibility that the agent stores the captured data in a USB stick. And then in the future that data can be driven to a quantum system. The capacity of quantum computers is limited and there is data in a row waiting for its turn to download in the quantum systems. But the idea for capture and storing data for the analysis in the future is not very difficult to make in practice. 

Nothing is stable in the world of computing. Things that are feeling safe today might be dangered quite soon. Spies and hackers can capture data to electronic storage. And then they can compute that data by using quantum computers when they can get access to the quantum computers. 

When computing quantum systems are turning more common. That means the data that is well encrypted today can turn into a risk for security in the future. The quantum computer can easily break any code that is made by using the primary computer. 

Hostile operators can open those documents that are encrypted by using primary systems quite fast. By using quantum systems. Those are becoming more common in the future. This means that we should seriously think about our data security and prepare for the next generation computing revolution which turns all our systems old-fashion. And old-fashion systems are always a great risk for security at all levels.  

Maybe the new and powerful data handling tools with artificial-intelligence-based image recognition algorithm. That can link with the data centers that are calculating trajectories. And make material analysis can help to solve the historical mysteries. The systems can calculate trajectories of bullets by using the captured images. And the automatized rendering of the images brings new details from the old photographs. 

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This famous V-2 was shot by the British or under the surveillance of British authorities during "Project Backfire". Just after WWII in 1945. And the question is, how many of these kinds of details will uncover by the internet?

The original image description about this image goes "

V2 missile at X + 2 seconds after launch during British tests for Project Backfire in Cuxhaven, Germany in 1945". (https://v2rockethistory.com/how-rockets-fly/) 

The interesting detail about this famous image of the V-2 rocket is that the rocket itself was launched by British troops during "Project Backfire" in Germany in 1945. That means this rocket was launch under British control. And probably the idea of the "Operation Backfire" was that the German rocket staff introduced British personnel about the use and support of that weapon. 

(https://v2rockethistory.com/how-rockets-fly/)

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The system can search and connect data from many different sources. And that thing can bring new data about the well-known press photos. The ability to collect data from different sources and connect it to its entirety makes the research of history more effective than it ever was. The system can also wash the noise from old tapes and bring new information from the cases that are forgotten or ever mentioned before. 

The same method can use in intelligence work. Intelligence is the same way data handling with every other research. And if artificial intelligence can use as the collection of data, that thing makes many well-known facts more interesting. The ability to handle data with more powerful computers brings details that have never been seen before in the front of great publicity.

https://www.newscientist.com/article/2293341-spies-may-be-storing-data-to-decrypt-with-a-future-quantum-computer/

Image I:https://www.arnnet.com.au/article/584951/dell-networking-enterprise-solutions-partners-ip-infusion/

https://aboutspaceandtech.blogspot.com/