How awesome are quantum computers? What kind of computer is a quantum computer?

Very good, its ability is very huge, the computing power is beyond people's imagination, reaching a very powerful limit, which makes people very amazed.

That's very good, because now there is a great need for computing power, and its computing power is tens of thousands of times that of ordinary people.

The advent of quantum computers has helped to solve problems that are difficult to solve even with existing computers.

The differences between a quantum computer and a normal computer are as follows:

1. The main characteristics of quantum computers are that they run slowly, while ordinary computers are slow.

2. Quantum Changhu computer has strong ability to process information and has a wide range of applications. Computers are generally slower.

3. The more information processing capacity of quantum computers, the more beneficial it is for quantum computers to implement calculations, and the more accurate the calculations can be, but the more ordinary computers process more and the load will be, and the slower it will be.

Origin. The concept of quantum computers originated from the study of reversible computers. The purpose of studying reversible computers is to solve the problem of energy consumption in computers.

Some of the basic arguments of quantum theory do not seem "mysterious", but its inferences seem very "mysterious". Let's assume that a scrambler rents a "quantum" distance, which is the minimum distance between the two endpoints a and b.

According to quantum theory, an object can reach B directly from A without passing through any of the points between A and B. In other words, the object suddenly disappears at point A and appears at point B at the same time. You can't find an example of this in the real macrocosm of reality other than myths.

Quantum theory has broken the "common sense" and "intuition" that people have built up in the macrocosm.

<> when it comes to solving complex math problems, quantum computing has long been thought to be more powerful than traditional computers – at least for non-specialists. However, due to the limitations of prior art, these theories have not been proven. Now, IBM research scientists have mathematically demonstrated that quantum computing is indeed faster than conventional computers when it comes to solving certain problems.

However, the key lies in the specific (certain) problem. In an interview with EE Times, Bob Sutor, IBM's vice president of quantum ecosystems and strategy, said that mathematical evidence concretely proves the difference between quantum computers and traditional computers in handling specific types of operations.

This study confirms that quantum computers are faster – because of the innate properties of quantum mechanics and quantum computing, you would think that the tasks or behaviors handled on a quantum computer are different. Quantum computing will clearly have an advantage in this regard.

<> "The number in the figure represents the smallest unit of indivisible positive and negative electromagnetic information - qubits (qubit) (named physicist John. John Wheeler famously said, "It from bit."

After the development of quantum information research, this concept was sublimated to the point that everything originates from qubits) Note: Bits are bits.