Top 7 Quantum Computing Applications in 2024: Glimpse into the Future

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Imagine a world where computers can solve problems that currently can’t be solved. Well, that’s what quantum computing offers.

Instead of using just 0s and 1s like regular computers, quantum computers use special bits called qubits. Qubits can be both 0 and 1 at the same time, giving them extra power.

This means quantum computers can consider many possibilities simultaneously, which makes them much faster at certain tasks. Practical quantum applications, for example, help create new medicines and develop much smarter artificial intelligence than what we have now.

Currently, most quantum processors are relatively small, and researchers are still working on building larger, more powerful quantum computers. However, organizations and researchers are already looking into various quantum computing use cases.

Key Takeaways

  • Quantum computers can look at many possibilities at the same time, which makes them much faster at certain tasks.
  • Quantum computing is a fast-growing field that could change many industries.
  • Quantum computing use cases for finance include handling complicated investment portfolios, evaluating risks, and setting the prices of assets.
  • Quantum artificial intelligence uses the special abilities of quantum computers to improve machine learning.
  • A big challenge is making quantum computers work more reliably.

Let’s explore some practical quantum computing applications.

Top Seven Quantum Computing Applications

Top 7 Quantum Computing Applications

1. Cybersecurity

Quantum computers use qubits to perform calculations much faster than regular computers. This can make current encryption methods, such as RSA, less secure. To keep data safe from quantum attacks, new encryption methods are being created with the help of quantum AI software.

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One method, called Quantum Key Distribution, uses quantum mechanics to keep messages safe. If anyone tries to intercept the messages, it will be noticed immediately.

Example of Quantum Computing in Cybersecurity: EU’s Quantum Flagship

The European Union’s Quantum Flagship initiative, a large-scale research project, is working to develop quantum technologies, including for cybersecurity.

The EU wants to create new, special codes called quantum-resistant algorithms. These codes will help protect online information from being stolen by powerful quantum computers in the future.

By using these new codes, the EU hopes to keep its online information safe and stay ahead of other countries in protecting its digital environment.

2. Drug Discovery

Quantum computers can make very detailed models of molecules and how they react. This helps scientists find new medicines faster by predicting how they’ll work in the body.

Quantum computers can also analyze a lot of biological data to find possible medicines more quickly. This can save time and money when developing new drugs.

Example of Quantum Computing in Drug Discovery: Pfizer & XtalPi

For example, Pfizer is working with XtalPi, a U.S.-China tech company, to use quantum computing for faster drug discovery. XtalPi makes very detailed models of molecules to see how new medicines might work in the body. This helps them find new medicines more quickly than using traditional methods.

3. Finance

Quantum computing use cases for finance include managing complicated investment portfolios, evaluating risks, and setting asset prices.

Quantum artificial intelligence can analyze a lot of financial data and do complex calculations to make better predictions about investments and strategies.

This includes helping to understand risks in the financial market, determine fair prices for financial products, and make better decisions for buying and selling.

Quantum computing can also boost computer-driven trading by looking at market information and finding patterns that regular computers might miss.

Example of Quantum Computing in Finance: JP Morgan Chase

JPMorgan Chase is one of the first banks in the world to try out quantum computers and hire scientists to work on new ways to use them.

The bank has created new ways to use quantum computers for such things as portfolio optimization, figuring out the price of options, understanding risks, and many different kinds of machine learning tasks. These include fraud detection and natural language processing.

4. Artificial Intelligence & Machine Learning

Quantum artificial intelligence uses the special abilities of quantum computers to improve machine learning. Quantum AI can process data faster and solve complex problems more efficiently.

This means it can recognize patterns, classify data, and make predictions more accurately. Quantum-enhanced algorithms can process enormous volumes of complicated information and find things that regular computers might miss.

Example of Quantum Computing in AI & ML: Google

Google’s Quantum AI Lab is working on quantum AI software to improve machine learning. Researchers are working on new algorithms that use quantum computing to improve image recognition and language processing.

Their aim is to speed up training times and make AI models more accurate. This could improve AI’s ability to give personalized recommendations and analyze data more effectively.

5. Material Science

Quantum computing helps scientists look closely at how atoms and molecules behave. This means they can learn more about materials than they could before.

With this detailed knowledge, they can create new materials with special features, such as superconductors that work at higher temperatures or materials that store energy better.

These advances are important for electronics, energy, and manufacturing. Quantum computers can also predict how current materials will act in different conditions.

Example of Quantum Computing in Material Science: IBM

IBM is using its quantum computers to study and develop new materials, such as high-temperature superconductors.

IBM’s scientists run simulations to see how atoms and molecules in these materials behave and figure out how to improve them.

They test different material combinations and predict their traits to create superconductors that work at higher temperatures. This could lead to new improvements in electronics and energy technology.

6. Healthcare

Quantum computing in healthcare use cases means using powerful computers to look at large sets of genetic data.

This helps to predict diseases more accurately, tailor medicine to each person and improve treatment plans. Quantum AI software looks at complicated genetic data to find patterns and connections. This helps researchers understand genetic disorders better and create more personalized healthcare solutions.

Example of Quantum Computing in Healthcare: Cleveland Clinic & IBM

IBM and the Cleveland Clinic introduced the first IBM-managed quantum computer in a private company in the United States.

The IBM Quantum System One at Cleveland Clinic is the first quantum computer in the world focused solely on healthcare research, aiming to speed up new treatments for patients.

Quantum and other advanced computers can help clinical researchers solve difficult scientific problems and find new ways to treat diseases such as cancer, Alzheimer’s, and diabetes.

IBM Quantum System One at Cleveland Clinic
IBM Quantum System One at Cleveland Clinic. Source: Cleveland Clinic

7. Energy

Quantum computing can help enhance energy efficiency. It can improve power grids, energy storage, and how energy is produced and distributed.

Quantum AI software can study complicated energy systems and offer better ways to manage energy, cut down on waste, and use renewable energy sources more effectively.

Example of Quantum Computing in Energy: BP & Orca

BP is collaborating with Orca to explore the potential of quantum computing in the energy sector.

They try to find out how quantum computers can help use energy more efficiently, manage resources better, and speed up research on new energy sources.

By using Orca’s knowledge of quantum technology, BP aims to improve its operations and come up with new ideas for the future of energy.

The Bottom Line: What’s Next for Quantum Computing

Quantum computing is a fast-growing field that could change many industries. Although it’s still early days, there have already been important advances, and the future looks promising.

One big challenge is making quantum computers work more reliably. Scientists are working on ways to keep them from making mistakes. They’re also trying to build bigger quantum computers with more qubits.

Once these problems are solved, quantum computers could be used for many things. They’ll help us discover new medicines, enhance cybersecurity, improve artificial intelligence, and solve really complex problems that regular computers can’t handle.

It will be many years before we use quantum computers in our daily lives; however, they should become more useful and available in the next 10 years, helping us tackle important problems.

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Linda Rosencrance
Tech Journalist
Linda Rosencrance
Tech Journalist

Linda Rosencrance is a freelance writer and editor based in the Boston area with expertise ranging from AI and machine learning to cybersecurity and DevOps. She has covered IT topics since 1999 as an investigative reporter for several newspapers in the greater Boston area. She also writes white papers, case studies, e-books, and blog posts for a variety of corporate clients, interviewing key stakeholders including CIOs, CISOs, and other C-suite executives.