The quantum computer can be more than the sum of its parts (Part II)

The physical parts of a quantum computer are really important. But the purpose of quantum computers or any other computer is not just being. They are made for something that benefits their producers. The purpose of the data handling system is to handle data. So the computers are the entirety, which contains the physical system, operating system, and the commercial or productive application. 

This is the thing that we must realize when we are making the data system. Without an operating system and working, applications is impossible to prove the full-scale power of the data handling system. Quantum computers are still at a primitive level.  And their power will rise when they would turn more common. But they are proven their superior in data handling and extremely heavy and complicated calculations. 

But without the operating systems and the systems that are handling inputted data even, the best computers are a piece of plastic, silicone, and metal. When we are saying that the computer is the triangle of the operating system, hardware, and application. We must realize that also simple things like outputting the data in the form that the user will understand it. If the data cannot display after computing. There is no mean for making computers. 

Even if we want to make the most powerful computers in the world, there must be some motive behind those machines. Without a very good argument motive, there is no financial support for that kind of program. Even the best and the most powerful technological systems are without purpose. Without good arguments, the systems are not made because they are leaving without financial support. 

The best argument for increasing the scale of quantum computing is data security. The quantum systems can make the most secure network in the world. But the question is how to demonstrate the effect of the system? The thing is that quantum systems can break any code that is made by using binary computers. 

But otherwise thinking quantum computers can use also for making codes that are unbreakable for binary computers. That means quantum computers can deny the hacking where is used binary computers. But the binary systems are vulnerable to the attack that is made by using quantum computers. 

The purpose of quantum computers is to make data-handling processes easy. The reason why the new computers are needed must mention because of motives for making new and powerful computing systems. Motive is the key element for making new things. And the argument for quantum computers is that this technology is that these kinds of systems are increasing the security of the data handling network. 

https://thoughtandmachines.blogspot.com/

When are the first everyday quantum computers coming for users?

The beginning of the quantum era will be cloud-based quantum computing. Quantum computers will use over the internet. 

The first every-user quantum computers would be servers that are operated through the Internet. But sooner or later the first quantum laptops are coming to the supermarkets. The silicon-based microchips might say for a while as controllers of the subsystems. But that kind of system will turn to old fashion. 

Practical quantum computing can be already at the door, but what does that term mean? When we are talking about practical computing, we are forgetting that there are many types of computers. And the most powerful systems are far away from our desks. They are deep inside the ground and regular users do not even know about their existence. We can have access to those computers through the "cloud". 

The cloud means that the user doesn't know what type of computer working with the problem. That is reserved for that certain user. The AI can help the cloud for solving the capacity problem. When the user asks the computer time from the cloud. In the intelligent cloud, the AI-based system will share the problem with the computer, which is the most suitable for the operation. 

If the formula doesn't require the most powerful computers that problem can deliver to the servers that are lower level. That thing can make by using the ticket, where is asked the purpose of the formula. And that thing will reserve the most powerful systems for the most complicated calculations. The regular encryption algorithms don't require the same calculation power as calculations needed for complex protein simulations. 

The twilight of silicon-based computers doesn't mean that the separation between regular and supercomputers will not end. In the quantum era, the separation looks similar to that is today. 

And that is:

-Quantum supercomputers

-And regular quantum  computers

The era of silicon-based computers is ending. But the problems with computing are staying the same. Quantum computing allows more and more complicated algorithms. And that means the algorithms are starting to turn heavier and longer. Nobody knows the future of quantum computing. And nobody knows when the first quantum laptops are in the superstores. But the advantage is faster than any time before. 

The nervous connection can revolutionize computing the same way with quantum computing. 

The human nervous system can connect to the computer by using the next-generation data gloves that are delivering EEG curves to the computer. Or the neural connection can install in the mouse or mousepad, where the receivers and transmitters are exchanging information straight between nerves and computer. 

But the quantum technology allows controlling the computers by using the BCI (Brain-Computer Interface). Or we must rather say NCI (Neural Computer interface). The neural port to the computer is not necessarily in the head of the user. The computer can communicate with the human nervous system by using any point of the human nervous system. The next-generation data gloves are using the neural connection. 

The idea of the human nervous boosted computers is that the system uses the "empty brain capacity" for making the solutions. The interface will put the data travel around the nervous system before it will return to the processor.

That means the interface uses the hand nerves for transmitting data to the human nervous system and back to the computer. Or the system can be installed on the mouse or mousepad, and that thing allows that the computer puts the data travel through the human nervous system, and back to it. This kind of system can bring an extremely powerful capacity to computing. 

()https://visionsoftheaiandfuture.blogspot.com/2021/08/when-are-first-everyday-quantum.html