Quantum Computing in the Next Five Years
Quantum Computing in the Next Five Years

Quantum Computing in the Next Five Years

How Quantum Computing Will Change Traditional Industries in the Next Five Years

Quantum computers have the potential to revolutionize our world in many ways. Most people think that quantum computers are supercomputers, but they’re wrong; they’re a different kind of computer altogether. While regular computers work with a binary code of zeros and ones, quantum computers have a non-binary code system, meaning that they can be both zero and one at the same time.

Due to the nature of these devices, they’re more accurate and efficient than regular computers. In fact, experts say that quantum computers will replace supercomputers. But don’t be confused—quantum computers are not here to replace traditional computers at home. Quantum computers are just more powerful than supercomputers and capable of making complex mathematical calculations. Unless you’re a data scientist, you don’t need one.

Yet, quantum computers are expected to transform many aspects of our life. Here we show you some of the biggest ways quantum computers will change traditional industries in the next five years.

Online Security

In the wrong hands, quantum computers could crack our encryption systems. The encryption systems we use nowadays could become obsolete, and quantum computers could easily decrypt them. Once we’ve created a consolidated quantum encryption system, our level of security will improve.

The bank industry will highly benefit from the implementation of quantum encryption. Another sector that will improve privacy levels is the government. The overall online security system will be improved by quantum computers.

Artificial Intelligence

Artificial Intelligence (AI) is already pretty advanced. Today, some of the most advanced tech tools are powered by AI. AI usually works with machine learning—and, more specifically, deep learning—which is a simulation of the learning system in our brain. Just like we do, machines can learn from experience.

But learning requires vast amounts of data. By working with quantum technology, AI can improve its processing levels. This means that computers could process data quicker and more efficiently to make AI-driven products more intuitive.

Weather Forecasting

We all know how many lives could be lost due to unpredicted weather changes, and how much money people could lose. Weather forecasting could be improved by using quantum technology. Today we already have machine learning algorithms that are helping climate change organizations predict weather events, and most of the time they are pretty accurate. But what happens when it’s not?

Quantum computers’ nature is uncertain, and so is ours. Their ability to process large amounts of data and make complex calculations in a matter of seconds makes it easier to predict things like climate change. This is why quantum technology would have such a big impact on our lives. Imagine being warned by climate change organizations that there is going to be a devastating phenomenon near your location months in advance. This could give you and your neighbors time to prepare.

Drug Development

The drug development process involves a lot of data analysis; different chemical combinations need to be tested to find the best match. To develop successful medicines and cures chemists deal with big data processing, so they usually need machine learning software or supercomputers.

This is the reason it usually takes so much time to find cures or treatments for diseases. Besides, they’re dealing with human lives, so they need to be as careful as possible. Quantum computers could accelerate and facilitate the drug development process, giving people with complex conditions a cure that improves their quality of life.

Conclusion

Quantum computers will not only revolutionize the tech industry; they will also improve our lives. From cybersecurity and weather forecasting to drug development, our quality of life will drastically improve. Although the technology is still in the early stages, we can expect a lot more from quantum computing in years to come.