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4 types of computers of the future (and what we will do with them)

BingMag.com 4 types of computers of the future (and what we will do with them)

30 years ago having a home phone line was a sign of up-to-date and up-to-date technology, today home phones have given way to smartphones and computers. Individuals who have the ability to process commands in natural language and execute artificial intelligence models. But in the next 30 years, these devices will be replaced by newer tools, some of which we may have only seen in science fiction movies, such as flying cars, spaceships, service robots, and more. The next few decades will be years of computer development, but the next three decades will probably not be as predictable as the previous decades. Now companies are trying to go beyond Moore's Law and produce systems. Start a powerful classic. On the other hand, we are moving to new patterns of computing. It is clear that at some point we will go beyond the traditional form of supercomputing. But what these developments will be like in the next three decades, 50 years, or another century is another question.

Given this, in this article we imagine a world in which four computer systems Most (classical, photonic, hybrid, and quantum) have reached a level of maturity that can be used. Experts are optimistic this will happen in the next 30 years.

Classic computers

BingMag.com 4 types of computers of the future (and what we will do with them)

We have bad news for those who think that classical computers will soon be replaced by quantum computers. You should know that classic computers will be with us even after 2050.

Comparing binary systems with quantum computers is like comparing pen and paper to hard disk colliders. The average person does not need direct access to a quantum computer or hard disk collider in their lifetime, but we all benefit from it.

Think of your smartphone. There will be a similar device in the next 30 years. Smartphones in the form of glass gadgets or brain implants may have existed at the time, but the concept and function are the same. We still need on-board processing to run specific algorithms and applications, something that smartphones now use.

Like today's smartphones, future models must be powerful enough to run services. Cloud to connect. The binary of the future will do most of the work of today's binary. But for tasks that require more power (than we expect from future computers), classical computers can act as an interface for more powerful systems.

Photon computers

BingMag.com 4 types of computers of the future (and what we will do with them)

These types of computers will be attractive systems that do not yet exist, but the big idea behind them is that instead of electricity from photons Used for processing. Electrons can travel at high speeds, but photons can travel at the speed of light, because, as you know, they are light themselves. Manage light. Researchers at IBM and the Skolkovo Institute of Science and Technology have recently developed a photon switch that is a device that can be used instead of silicon transistors. Photon computers can be thousands of times more powerful than supercomputers. Today's binaries are faster and require less power because of how they work. It is predicted that this technology will be perfected in the next 3 decades, and the biggest advantage that will be visible to everyone is the emergence of the fifth level of self-driving vehicles. But what does level 5 of vehicles mean? Self-propelled vehicles at their highest level can move completely independently without the need for human supervision.

Also, thanks to photon computers, a giant supercomputer can be housed in a small car. Of course, in this case, the "giant supercomputer" will be replaced by the "photon microcomputer", which with one hundredth of energy can produce 100 to 1000 times more power than its classic fathers.

Hybrid computers h2>

BingMag.com 4 types of computers of the future (and what we will do with them)

In this section we refer specifically to hybrid quantum-classical systems. Photon computers can work with quantum systems, but that needs to be explained. We have already mentioned that quantum systems in some cases need classical systems to act as their portal, interface or controller. But there is another pattern in which the system switches between classical and quantum computing, or combines the results of both to be able to execute a particular algorithm.

Interestingly, these systems can be the first Quantum computers can be purchased in stores. Keep in mind that we will not be able to bring quantum computing to the level where we can build a time machine in the basement for the next 30 years.

In fact, quantum systems serve as solutions to specific problems in Are considered. You can not edit and edit video faster by installing an API on the IBM Q system and choosing to enable quantum mode. And quantum algorithms (for mathematical calculations that are very complex for traditional processors) can run airport flight scheduling software.

Consider similar systems currently in place at the elementary level; Over the next 30 years, large businesses (those valued at more than $ 1 billion) will purchase and install advanced generation of these quantum-hybrid systems as their IT infrastructure.

Quantum Computers

BingMag.com 4 types of computers of the future (and what we will do with them)

The interesting part of the story is here! Quantum computers are about 20 years away from us, and depending on who the user is and what their purpose is, they may never need quantum computers.

Today, quantum computers are in the experimental phase and in laboratories. They are made, but they are expensive and can be used to solve one or two math problems. It is not possible to predict when practical and applicable quantum processes will be available.

But it can be said that these systems will revolutionize the next 30 years. Really functional quantum computers can help us develop cold fusion, warp machines, and artificial intelligence. We do not intend to exaggerate the capabilities of quantum computers, but their application in the fields of chemistry, drug discovery, and pathology is incalculable. Millions can be saved and thousands of diseases can be eradicated thanks to science.

  • Quantum computers; A way to explore the mysteries of nature

But if we are talking about strange things at long distances or processing at the speed of light, we can not say for sure about the future. It may take 10 years, 30 years, or even 100 years for these technologies to mature.


Source: The Next Web

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