Do you think quantum computers are a dangerous technology?

I don't think quantum computers are a dangerous technology, just like Pandora's box, they have both advantages and disadvantages. Just like a traditional computer to calculate the private key, it may take years or even longer, obviously not unrealistic, but the implementation of a quantum computer can shorten the paper order and speed up the entire computing process, so once the quantum computer makes a breakthrough, then many existing so-called security encryption systems will all be subverted. Quantum computers can also simulate quantum phenomena for other purposes.

Even quantum computers can simulate molecules with great precision, and these simulations can help us better understand the properties of various proteins, which can lead to medical changes and save humanity.

I don't think quantum computing is a very dangerous technology, because quantum computing, it mainly uses the methods of physical science, focusing on measurement and calculation, so I think it just needs to use the function of the human brain and the function of science and technology, and then achieve a kind of scientific and technological computing, so I don't think there is any danger of coefficients, I think since it is technology, it is the crystallization of the human brain and innovation.

I think quantum computers should be considered a dangerous technology, because if you can't master it well, it may lead to loss of control, which is also a big blow to human beings, so if you want to study it, you'd better make sure you can master it yourself, otherwise it will be like a bomb in the world of the Internet.

I don't think quantum computers should be considered a dangerous technology, they should be considered a technology that is very beneficial to us, because at the current level of science and technology, quantum computers are still not presented, and we do not have the ability to study these, but when they are studied, it will be very meaningful to us human beings.

I think there may be danger, the processing power of quantum computers is 10,000 to 100 million times that of existing supercomputers, using quantum computers, the encryption passwords currently used, can be cracked in a few seconds, it can be seen that the power of electronic computers is great, the functions are comprehensive, and the efficiency is high, so we must use it reasonably to avoid being used by criminals.

Everything has good and bad aspects, and there is no such thing as a good or bad thing. The same goes for quantum computers. It's like a handful.

Whether he is dangerous or not depends on the person who uses it, not the ** itself. Quantum computers can benefit mankind if they are used well, and they can also endanger the security of the world if they are not used well.

Google's Quantum AI Lab claims that quantum computers run 100 million times faster than traditional computers. Therefore, once a quantum computer is successfully developed, the computer transmits the most rigorous form of encryption, which means that all the world's passwords can be cracked instantly, and the potential political and economic impact will be huge. Current encryption methods to protect financial data and military secrets may be vulnerable to quantum computing.

I think it's a dangerous technology, because many people don't know how to use it, so it's dangerous, and it's a new invention to know how to use it, and it won't be superstition, and it's currently digging holes for others, laying traps, and people's terrible degree.

Quantum the world blows so much including IBM, in addition to propaganda or used in large areas, visible in life? It's all areas that most people don't understand. Isn't this a trap of the West?

Quantum computers have a far superior ability advantage over classical computers when it comes to solving specific problems, and this is due to its ability to compute in parallel.

A quantum computer is a type of computer that uses quantum mechanics to perform certain calculations more efficiently than ordinary computers. So, a quantum computer is a computer, but it's not simply an "advanced" computer. It's very different from what we know as a "computer" – they don't work in the same way.

For example, if a classical computer is a candle and a quantum computer is a light bulb, both are meant to emit light, but they are lit in different ways and in different ranges. Even if you keep improving the candle, you can't make a light bulb.

Classical computing uses a series of zeros and 1s to store information. Each unit in the 0 and 1 series is called a bit, and a bit can be set to either 0 or 1; Quantum computers use qubits to store information. Each qubit can be set not only to 1 or 0, but also to 1 and 0.

Quantum computers are capable of carrying more content at the same time. Ordinary computer units can only process one bit at a time; Quantum computers can process one "qubit" at a time, which greatly increases the processing speed.

Quantum computers not only have a lot of storage power, but they also have a lot of parallel computing capabilities. Just like turning on a light in a room, light can pass through all the gaps in the wall in an instant. This is the principle that quantum computers are capable of high-speed parallel quantum computing.

Quantum computers have the ability to compute in parallel when dealing with specific problems.

Analysis: A quantum computer follows the laws of quantum mechanics to perform high-speed mathematical and logical operations, and a physical device that stores and processes quantum information.

It is characterized by a power advantage that far exceeds that of classical computers, and this is due to its parallel computing capabilities.

General-purpose quantum computers are expected to play a role in weather forecasting, code breaking, material design, cloud technology development, big data optimization, drug analysis, and other fields.

Definition of a quantum computer:

A quantum computer is a kind of physical device that follows the laws of quantum mechanics to perform high-speed mathematical and logical operations, store and process quantum information.

A quantum computer is a kind of physical device that follows the laws of quantum mechanics to perform high-speed mathematical and logical operations, and to store and process quantum information. When a device processes and calculates quantum information and runs quantum algorithms, it is a quantum computer.

Quantum computers are the product of a multidisciplinary cross-integration, and the computing speed of quantum computers is many times faster than that of existing computers.

Quantum computers are characterized by fast running speed, strong ability to process information, and wide range of applications. Compared with ordinary computers, the more information is processed, the more advantageous it is for quantum computers to perform calculations.

Whereas traditional digital computers are made up of binary digits (0 or 1), quantum computers are made up of qubits. Qubits are capable of representing both 0 and 1 (also known as quantum superposition) to some extent. The ability of qubits to represent multiple numerical values allows quantum computers to perform far more computing power than traditional computers.

Traditional computers are built from logic gates, a combination of transistors that can combine numbers in a variety of ways, but this construction is mostly invisible to the person who wrote the program. Programs and algorithms are not written according to logic gates, but use higher-level concepts. Current quantum algorithms are somewhat more familiar to electronics engineers than software engineers.

This is because quantum algorithms often represent quantum loops rather than the more commonly used programming language concepts.

Recently, Microsoft announced that it will start the next big move: quantum computers. By the end of the year, Microsoft plans to unveil a new quantum computer language, as well as a quantum computer simulator.

With these new technologies, developers will be able to develop and test quantum programs that perform quantum operations.