The first quantum computers are on duty.

 

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The first quantum computers are on duty.

First tiny quantum computers are on duty. They are calculating the traffic solutions or the sharper saying: logistics optimization problems(1) and probably looking for the zero points in Riemann's conjecture. The thing is that even if those quantum computers are primitive and very big machines, they will be revolutionize computing.

Even primitive quantum computers can run more complicated software than normal computers, and the research and development or R&D process of those computers are extremely fast. Quantum computers can calculate more complicated calculations than any computer before this. Quantum computers can run more complicated simulations like protein synthesis.

Those computers can also calculate the movement of the gas layers over the virtual model. So the CAD-images can download to quantum computers, and those systems can calculate the heating points of the body of the aircraft without a physical model. By benefiting the powerful calculating power of the quantum computer the artificial intelligence-based R&D process can fix the errors in the lifting bodies of the aircraft.

The artificial intelligence-based research and development process is one of the most powerful tools in the world. In the novel Peace on Earth famous Science Fiction novelist Stanislaw Lem introduced artificial intelligence-based systems, where the SUPS (Super Simulator) would create a weapon system. And then that weapon system would fight against selective simulators.

When the simulation is over the selective simulator would send the feedback for the super simulator that would tell the errors of those models. Then super simulator would fix those errors. That thing would make it possible to create technological evolution, which bases the idea that the simulation computers would create in turn the new type of systems.

The fact is that those systems would not have any kind of feelings. They are just machines that are collecting data from different sources, and then connect that data to the product. These kinds of things are limited things, which might make artificial intelligence the best engineer in the world. If we want to compare those algorithms with human engineers, every single engineer has their specialty. So not a single human engineer cannot handle everything.

But the computer doesn't have imagination. The development work is actually like connecting the bites to the puzzle. The system can search for data and then connect the puzzles, what it finds from the media libraries or the Internet if the system is advanced enough. But advanced artificial intelligence requires sophisticated code, which is hard to drive.

Independent calculating software requires more complicated code, and complicated code requires more and more powerful computers. The next generation of quantum computers can maybe make the research and development work independently without the human need to make anything else than give orders, what the system must make.

The thing is that the computer can use the imagination of human brains, and the orders like "make me a ship what is 120 meters long, what has the ro-ro capacity and 30 people crew". Those parameters might be the minimum of tomorrow's quantum system requires for making the CAD drawings for the system.

Another version of this command might make me the RORO ship, which might use the Harbor of Gdansk. Then the system would find the data of the harbor. And the largest ships that can operate from that harbor. And then make the ship that fills those requirements.

Then the artificial intelligence searches the necessary data from the internet and then offer the problem solutions. Then the system can just select the best possible modules and put them together. But at this level, artificial intelligence requires more complicated code than ever before.

(1) https://scitechdaily.com/tiny-quantum-computer-solves-real-logistics-optimization-problem/

Image: https://www.forbes.com/sites/ibm/2020/01/16/the-quantum-computing-era-is-here-why-it-mattersand-how-it-may-change-our-world/

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