Quantum computing can change optimization, machine learning and cryptography – Technology – Emerging Technology


According to researchers, quantum computing can bring immense advantages in four areas; Simulation, optimization, machine learning and cryptography.

Using the phenomena of quantum mechanics, quantum computing has the potential to solve a number of society’s most difficult problems.

Digital Nation spoke to Dr. Anna Phan, Asia Pacific Quantum Alliance Lead at IBM, and Dr. Mohammad Choucair, CEO of Archer Materials, to better understand how quantum computing works and why it is useful for businesses and society.

“Quantum computing is a fundamentally different type of information processing compared to today’s classic computers like our laptops and our telephones,” says Phan.

“Today’s computers manipulate individual bits that store information as binary, zero, and one states. In comparison, quantum computers use quantum mechanical phenomena to manipulate information. To do this, they use quantum bits or qubits, ”she says.

The immense computing power of quantum computing is so great that it can be used to solve previously stubborn problems, says Phan.

Main areas

According to Choucair, new solutions in simulation, optimization, machine learning and cryptography could potentially result in hundreds of companies delivering value to end users in the coming decades.

“Quantum Computing has the potential to influence almost every sector that depends on computing power.”

Not only is quantum computing expected to enable record market share gains and higher profitability for companies using these computers, it is also expected to transform the industry.

Phan believes that the problem-solving capabilities of quantum computers could redefine competitive advantage and change the way industry works.

Phan says quantum computers “could open the door to new scientific discoveries, life-saving drugs, improvements in supply chains, logistics, and modeling of financial data. They are therefore expected to change industries and have a disruptive effect because quantum computers have the potential to solve exponentially complex problems ”. Problems that classic computers cannot. “

While the technology has been discussed for decades, its widespread use could be a long time coming.

“Quantum Computing has come a long way in the last decade, don’t get me wrong, but it’s still in its infancy and broad, you know, applications and commercial applications are still years away,” says Choucair.

“Quantum Computing is currently in what is known as the NISQT era, which stands for noisy mid-scale quantum technology. It is expected that this phase will continue for the next decade. “


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