Quantum computing is a revolutionary new form of computing that uses the principles of quantum mechanics to perform calculations and operations at a much faster rate than traditional computing. With its ability to process vast amounts of data in a fraction of the time, quantum computing could revolutionize the way we solve complex problems and could have a profound impact on our lives in the near future.

By harnessing the power of quantum mechanics, quantum computing could revolutionize the way we develop artificial intelligence, search large databases, and even create new materials and medicines. With its potential to revolutionize so many aspects of our lives, quantum computing is sure to have a great impact on our future.

Paul Benioff of Argonne National Labs first proposed the concept of a quantum mechanical computer in 1981. It is widely acknowledged that David Deutsch from Oxford University came up with the crucial concept for research on quantum computing. He began to consider whether it may be possible to create a computer that only used quantum laws.

In October 2019, Google AI Quantum, with the help of NASA, demonstrated a quantum computer they made, to do calculations as much as 3,000,000 times faster than faster than the known supercomputer. They called this **Quantum Supremacy**. Later in December 2020, a group at USTC also used a quantum computer to do calculations even faster than Google. Now, IBM has made a new quantum computer called **IBM Eagle**

It is possible for quantum computing to completely alter computation as we know today, and it is already starting to change how we interact with computers. Quantum computing is anticipated to usher in a new era of computing and fundamentally alter how we approach complex problems over the course of the next ten years.

The key to quantum computing is its ability to process information at a much faster rate than traditional computing systems. This is because quantum computers are able to take advantage of the properties of quantum mechanics to process information quickly. Quantum computers are able to use the properties of entanglement and superposition to process multiple pieces of information at once, allowing them to solve complex problems much more quickly than traditional computers. As a result, quantum computers are able to solve problems that would take traditional computers years or even decades to solve.

One of the most exciting applications of quantum computing is in artificial intelligence (AI). Quantum computers are able to process large amounts of data much faster than traditional computers, which makes them ideal for AI applications. In addition, quantum computing can help AI algorithms learn more quickly and accurately, as well as make more accurate predictions. This means that quantum computing could be used to revolutionize the way AI is used in many fields, including healthcare, finance, and science.

Another major benefit of quantum computing is its ability to speed up financial transactions. Quantum computers are able to process large amounts of data quickly, which could allow for faster and more secure financial transactions. This could have a huge impact on the way we conduct business and could lead to faster, simpler, and more secure financial transactions.

### What is the difference between normal computing and Quantum computing

First of all, let’s call our familiar computing as **Classic Computing**. They as we all know uses an on state and on off state (1 and 0) to represent information and to process it. These values are binary digits, or bits. The billions of transistors and capacitors at the heart of computers can only be in one state at any point. As we progress to smaller and faster circuits, we begin to reach the physical limits of materials and the threshold for classical laws of physics.

This is where Quantum Computers gain its advantage. Quantum computers can use elemental particles such as electrons or photons. Each particle is given a charge, or polarization and it is called a **quantum bit**, or **qubit**. The nature and behavior of these particles form the basis of quantum computing. The two most relevant aspects of quantum physics are

**Quantum Superposition**– a scientific idea that says things can be in two different places at the same time. It’s like a magical trick where things can be in two places at once.**Quantum Entanglement**– a scientific theory that says two things can be connected and know what the other is doing, even if they are very far away from each other. It’s like a special connection between two things

Do you know that the 2022 Nobel Prize for Physics was won by **Alain Aspect, John Clauser and Anton Zeilinger** for their **Experiments on ‘entangled’ quantum particles**.

The way we store and access data may also undergo a revolution thanks to quantum computing. Quantum computers are able to store and access data much faster than traditional computers, which could have a huge impact on the way we store and access information. This could lead to more secure storage solutions and faster access to data.

Quantum computing is expected to fully change the way we use computers over the next decade. It has the potential to transform the way we solve complex problems, revolutionize artificial intelligence applications, accelerate financial transactions, and revolutionize the way we store and access data. It is an exciting technology that will undoubtedly have a significant impact on the way we use computers in the future.

## FAQs

*1. What is quantum computing?*

Quantum computing is a revolutionary new form of computing that uses the principles of quantum mechanics to perform calculations and operations at a much faster rate than traditional computing.

*2. What are the benefits of quantum computing?*

The key to quantum computing is its ability to process information at a much faster rate than traditional computing systems. This is because quantum computers are able to take advantage of the properties of quantum mechanics to process information quickly.

*3. How does quantum computing work?*

Quantum computers are able to use the properties of entanglement and superposition to process multiple pieces of information at once, allowing them to solve complex problems much more quickly than traditional computers. As a result, quantum computers are able to solve problems that would take traditional computers years or even decades to solve.

*4. What are some potential applications of quantum computing?*

A major benefit of quantum computing is its ability to speed up financial transactions. Quantum computers are able to process large amounts of data quickly, which could allow for faster and more secure financial transactions. This could have a huge impact on the way we conduct business and could lead to faster, simpler, and more secure financial transactions.