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The next-generation quantum chip looks like a chessboard.

The next-generation quantum chip looks like a chessboard. 


The ideal neural network is multiple independently operating microprocessors. The most powerful version of that kind of system is a neural quantum network. The neural quantum network is like a regular neural network. That works on binary computers. 

However, the neural quantum computer is more powerful than any binary network ever can be.  The reason why researchers are working in this kind of area is that. New material types require extremely highly accurate cooperation between sensors and systems that manipulate molecules and atoms. 

The brand new quantum chip makes the controlled quantum neural network closer than ever before. The new quantum chip has 16 squares. Those squares can activated by using number and letter combinations. In that model, the quantum computing system can use a similar system as a chessboard. 

The chessboard-like structure where every single square is independently operating microchips. In that kind of structure, microchips can operate independently trying to solve multiple problems every time. The CPU (Central Processing Unit) or the top processor that shares information with those processors can cut information into pieces. 

Then that system can send those bites to all processors. And after data travels around chips they can deliver their answer back to the CPU that collects information bites back to one entirety. In that model group of binary computers or binary microchips can operate as virtual quantum computers. This structure makes the system more powerful than regular computers. 


"Photograph of the quantum chip hosting the 16 quantum dot crossbar array, seamlessly integrated to a chessboard motif. Every quantum dot, like a pawn on a chessboard, is uniquely identifiable and controllable using a coordinate system of letters and numbers. Photo credit: Marieke de Lorijn for QuTech. Credit: Marieke de Lorijn for QuTech" (ScitechDaily.com/Checkmate! Quantum Computing Breakthrough Via Scalable Quantum Dot Chessboard)


The chessboard-looking microchip entirety can operate with multiple programs at the same time. And that makes this kind of system a suitable control unit for man-shaped robots. But the thing that can be a game-changer could be the superconductor, which superconductivity the system can adjust by using pressure. 

Adjusting pressure is possible to create superconducting material where superconducting can cut when the system doesn't require it. This kind of system can be suitable for next-generation mass memories. 

The ADNR (Aggregated Diamond NanoRods) are the strongest known materials. They are stronger than diamonds. The reason for that is those carbon atoms are so close to each other. And that thing makes ADNR so strong. The ADNR can be the base element for the room- or high-temperature superconductors. The superconducting wire can travel inside the ADNR tube. 

The ANCR nanotubes can form a new type of armor. The  ADNR nanotubes can form a structure that looks like gold neckless. But the ANCR nanotubes form this ring. And that thing could someday work as one of the hardest armors in the world. 

The LK-99 was not superconducting at room temperature. But if it is possible to create a superconductor that can transport electricity without resistance in temperatures -99 to zero Celsius that kind of material can be promising for the next-generation quantum systems. The idea is that the high-temperature superconductor requires pressure to stabilize its structure. 

In that kind of system, the pressure system can adjust superconductivity. The material can be in the two-camber box. When superconductivity is needed the pressure system increases pressure in that chamber. When superconductivity must be cut, the pressure system decreases pressure in the chamber where the superconducting material is. 


https://scitechdaily.com/checkmate-quantum-computing-breakthrough-via-scalable-quantum-dot-chessboard/?expand_article=1


https://en.wikipedia.org/wiki/Aggregated_diamond_nanorod

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