"Researchers have developed new molecular designs that mimic brain processes to boost computing power and efficiency. This novel approach supports robust AI applications and represents a significant advance in sustainable computing. Credit: SciTechDaily.com" (ScitechDaily, Unlocking AI’s Future With a New Molecular Computing Breakthrough)
The future of computing can be molecular, says an article in ScitechDaily.com. The fact is that helix molecules like DNA can be key to room-temperature quantum computing. The idea is this. There are two DNA molecules side-by-side. Then, the system drives data into the first molecule. After that, the data packet jumps into another DNA. That means the DNA transforms the row-type data into linear data. In that case, the DNA pair acts as a qubit.
The qubit is the tool that turns row-form data into linear data. And it's possible to use a quantum computer as multiple simultaneously operating binary computers. Or it can operate as the fastest man-made computer. If we think of robotics the slow quantum computer can operate as the robot's brain. The idea is that the robot can use the quantum system as multiple independently operating binary computers. This kind of system cannot jam, because another layer comes to help if there is some kind of error.
The other version of a room-temperature quantum computer can be the tool that looks like an old-fashioned C-cassette or tape drive tape. This kind of mechanical quantum system can operate as a robot's brain.
In that small iron bites travel in the nanotube, those iron bites can connected to the protein tape. Then the protein transports data stored in those iron bites to the receiver. But basically, if we want to make the room temperature quantum compute, we can just use a system, based on the old-fashioned audiotape.
In the past, the sound was recorded into those tapes using the system that recorded each music instrument separately into a single track. So if we want to transform the old-fashioned tape or C-cassette into the qubit we just need to drive data to that tape, each track in the tape is one state of qubit. Those tapes can be the protein fibers there the data travels in small iron bites.
The system drives data to each of the qubit lines using a switch. And when the switch has loaded its data to all data lines the system moves data that can be the molecular tape forward simultaneously. When that data arrives at the receiver the system moves those data packages to the side that transfers them into the row form. I don't know how fast and practical this system could be. But it's better than nothing. And we must realize that all systems can't do everything. In robots, the purpose of the quantum or virtual quantum system is to make sure that the robot will not jam. Not to solve cosmological problems.
The slower but compact mechanic quantum computers can used as the robot's brains. The thing is that the quantum computers are coming. They come into everyday life anyway. Another way to make portable quantum computers is to remote control the high-power quantum systems remotely. In that case, even mobile telephones that can have access to the quantum computer that is in the computer center can interact with it. The client sends the problem to a quantum computer. And then the quantum computer returns an answer when it completes its run.
https://scitechdaily.com/unlocking-ais-future-with-a-new-molecular-computing-breakthrough/
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