The new photonic microchips are extremely fast. They can make many things faster than traditional microchips. And the quantum computers require that thing. Quantum computers are tools. That can make calculations faster than any binary computer on Earth. But as we know. The traditional computer can make any calculation as quantum computers. The binary computers just make those calculations far slower. And that means that quantum computers make things faster.
But both computer types must follow the orders of mathematics. Even the fastest calculation tool is helpless without formulas. They need to make solutions that we can accept. So, we can say that even the best and fastest computers are helpless without mathematicians. However, the computer requires programs that turn mathematical formulas into understandable forms for the computer.
Hardware and software are both important. Without software, the computer doesn't do anything. The software has three layers. The programs, operating systems, and kernel. The last one interacts with the hardware like microchips and other tools like mice, display adapters, and sound circuit cooperation.
Or then we must realize that the computer requires programs that it can do anything. The programs and operating systems are things. That is vital for computers. And of course, computers require input and output tools like keyboards, microphones, and screens. And then there must be an internet that computer programs like AI use to for search information. Here we see what kind of problems we have with computing.
We develop processors but we should also develop programs that support those new processors. Things like biological processors that involve living neurons are not solutions for all problems. The microchip must transmit data to neurons and receive it. But that means the computer must program the neuron.
We can think about things like "iron-based AI". That term means the computer chip or microchip that has the large language model, LLM in its kernel. We have the "iron-based (A)I) in our nervous system. We can say that when we learn something we program our nervous system.
That kind of microchip is a tool that involves miniature computers. So that means that the layer where that tool called LLM exists doesn't matter. It can be an independent program or it can be a layer in the operating system. If the LLM is the layer on the operating system all commands to the computer travel through the LLM. The thing is that the AI is the computer program that is in some layer in those computers. The thing is that the network-based solutions offer laptop users the ability to use complicated AI-based systems over the internet.
Those complicated and hard systems exist only in the remote computers far away from the users. The code is driven by supercomputers. And the home, or office users can give orders to the LLM through the internet. That means the user can have lightweight systems, and the rough force that is needed is in some cave, maybe far away from the place where that operator sits.
Intensive interaction over the net requires extremely fast and safe communication. The system requires highly secured data highways there information is out of the hands of outsiders. The system must pack the data into the form so that the attackers cannot see or touch those data packages. This is the difference between quantum and binary networks. In binary networks, the data is just mixed in the encryption process into the form that its reorder is difficult. In quantum networks, the system denies the attacker to see the message.
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