The problem with previous ultra-fast operating computers is that they are not stable. That thing means the system must re-adjust itself after a certain time. That means there is a cut in the most powerful operating capacity. During that break, the system must store data somewhere. Or it must transfer it to another system.
And during that process, data travels outside the system's surveillance. When the data package is outside the system some outside effect can change the form of data. And that means the system will make the wrong answer.
The computing system eliminates errors simply by using two lines where data travels. If those lines get different answers. There is a possibility that the system has a wrong answer.
The system eliminates the possibility that some outside effect affects information by using asynchronous asymmetrical data transport protocols. That means that two lines are sending information at different times. When another data package follows the first one the system can detect differences.
The problem with long-term calculations is what if there is an error? The solution is the AI-based system that copies data from the main way to the backup hard disks. There the AI detects if there are differences. So the system must not make entire calculation series again, which could take even months.
"The researchers have for the first time succeeded in demonstrating a device, based on a 2D magnetic material, at room temperature. The 2D magnetic crystal is shown as blue, yellow, and white balls and is a mix of Iron, Tellurium, and Germanium atoms. The big turquoise arrow indicates the magnetization direction of the 2D magnet." (ScitechDaily.com/Magnetic Quantum Leap Unleashes Ultra-Fast Sustainable Computers)
"The crystal with gray color is the carbon atoms of the graphene channel. The smaller turquoise arrows indicate the spin-polarized electrons injected from the 2D magnet into the graphene channel. Here, the 2D magnet act as a source for spin-polarized electrons and the graphene channel for spin transport and communication. Credit: Chalmers/Bing Zhao". (ScitechDaily.com/Magnetic Quantum Leap Unleashes Ultra-Fast Sustainable Computers)
The system can use a restored backup copy for retake calculation from the point where the error is detected. The backup copies don't require the system must stop. The router must just double the data package and then it can copy to the backup hard disk. And if the system uses two lines the AI can compare differences between data packages that it stores in two backup hard disks.
In long-term calculations, the system must make the intermediate data backups as soon as possible. When those intermediate solutions are made often enough. That allows the AI can search for the differences between data packages stored in the hard disks. And if there are differences the system must not start the entire calculation from the beginning.
The new nanomaterial is making it possible to create the stable quantum leap, which makes it possible to create a stable form of the state where the system can operate with maximum power. The long-term use of maximum power eliminates the possibility that something will destroy the information. The system can use routers that send a copy of the data that travels in the main line. Then the AI-based control system will just compare differences in that data.
https://scitechdaily.com/magnetic-quantum-leap-unleashes-ultra-fast-sustainable-computers/
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