Huayang Group blockchain
Sichuan Huayi sharing blockchain Technology Co., Ltd. is a limited liability company (wholly owned by a legal person invested or controlled by a natural person) registered in Tianfu New District, Cheng, Sichuan Province on June 7, 2018. Its registered address is located at No. 238, 2 / F, unit 5, Building 29, No. 158, Section 2, Huayang new hope Avenue, Tianfu New District, Cheng, Sichuan Province
the unified social credit code / registration number of Sichuan Huayi sharing blockchain Technology Co., Ltd. is 91510100ma6cgfld7j, and the legal person is Mei Jiafei. At present, the company is in business
Sichuan Huayi sharing blockchain Technology Co., Ltd., within the province, the current registered capital of enterprises is general
view more information and information of Sichuan huayishuan blockchain Technology Co., Ltd. through network enterprise credit
as mentioned just now, artificial intelligence has achieved good results recently. A machine can give birth to a person. In fact, any machine defined will always surpass a person. Just like cars and airplanes designed nowadays are faster than people, and computers are more powerful than people. In essence, artificial intelligence will not go to an emotional, thoughtful, and often empirical thing
generally speaking, when an image is described by a computer, it will basically see an image, which will be expanded according to pixels, with grayscale, depth and so on to form some data. Can artificial intelligence have a deeper sensory understanding of this data? See this image, see deeper meaning than traditional computing? For example, I even know what kind of painting style. This is what we are going to discuss today
when AI meets quantum computing
what is the source of AI's ability? The theme of today's meeting is big data. Why add a big one in front of it? Because this is a dynamic work. In an era of more and more information, how to get things that are concive to the quality of life from the vastness of things is the first thing to describe this data. This means that the object to be described is graally changing from the traditional data to various complex data
the core resource of artificial intelligence is computing power. Twenty years ago, a robot used 32 CPUs to achieve a speed of 120mhz. Now there are 2000 CPUs and 300 GPUs. The improved computing power greatly enhances the ability to deal with learning or intelligence. But now the question is, how can we transition to quantum? Can computing power be improved infinitely
Moore's law predicted the classical calculation half a century ago. Every 18-24 months, the number of components on the integrated circuit can be doubled, and the calculation performance can be doubled. Classical computing power, from 32 nanometers to four nanometers and even smaller nanometers in the future, is generally believed that Moore's law can be applied for 10 years at most
we know an example. On the basis of physical science, an electron can no longer be separated. It can never go from more than 90 nanometers to more than 60 nanometers, to more than 40 nanometers, to more than 30 nanometers... In the future, it can go to the level of a few nanometers or even smaller nanometers. From the perspective of scientific principles, macro problems are governed by Newton's three laws. However, at the nano level, Newton's laws are no longer applicable and will enter a new science, that is, quantum mechanics, which we often talk about. The basis of description is different
on the other hand, there is also the problem of heat dissipation. In our research, we also found that the principle of classical computer devices, heat dissipation is inevitable, which is determined by the principle. For example, if you buy an early computer with a fan for cooling, the higher the integration, the more serious the heat consumption
in principle, quantum computation is reversible, and there is no heat dissipation, so it can self cycle in it. In this way, there is no heat dissipation, and it also follows the law of quantum mechanics. This is a good prospect and direction of quantum computing in the future
in addition, quantum mechanics is the pillar of modern technology. Quantum theory began to be put forward more than 100 years ago, and now transistors, lasers and high temperature superconctors will have an instry development and proction
it will bring endless "temptation"
for a long time in the past, we all passively observed and explained quantum mechanics. I saw some phenomena, and I got some applications based on this phenomenon. For example, laser is the result of the development of quantum mechanics. Laser is everywhere, including projection, which is also laser projection
the first quantum revolution was the development of transistors and lasers, which supported the development of the whole information revolution in the past. Recently, with the accumulation of technology in the past two or three decades, we can control quantum to a certain extent, and can control single molecule or atom< There are three directions in quantum information: one is quantum cryptography. In July, China's first and the world's first quantum satellite was launched in an orbit of 500 km, realizing a secure password transmission
one is quantum communication, which is also the trunk line of the national development and Reform Commission. From the end of this year and next year, it will be a ground wired network and an air wireless network between cities, from Beijing to Shanghai and from Shanghai to Hefei
the other is quantum clock and quantum sensor. In recent years, precision measurement has been well promoted and applied. About a month ago, the European Union adopted a quantum manifesto, such as navigation without GPS. There are some quantum sensors, about 1 billion euros, with an investment in the 2020 plan
generally speaking, it has a very good development prospect. Why is quantum much better in recent years? The reason is simple. What is the classic storage unit of computer? Generally, it is a high electric frequency and a low electric frequency. The high electric frequency represents 1 and the low electric frequency represents 0. It is called binary. Quantum mechanics tells us that the high electric frequency and the low electric frequency exist at the same moment
the so-called quantum superposition and quantum coherence, if I have a 16 bit computer, or a 32-bit computer, its input is the 16th power of 2 or the 32nd power of 2 in the electric frequency
quantum computing is to carry out superposition. At this time, the source of high speed is in this place. The power of 2 can be in all States, and the calculation can be done in this place. On this basis, we do quantum computing, quantum cryptography, quantum Internet, quantum clock, and even quantum sensors< In quantum computing, including international projects in the United States and Japan, as well as Microsoft and IBM, the Chinese Academy of Sciences has a national computer program with relatively large investment, and the business community has graally begun to enter this area. For example, Ali and China University of science and technology have also become quantum computer laboratories. In general, what is the relationship between quantum mechanics and artificial intelligence
if there is such a relationship
if it's artificial intelligence, if it's just acceleration, it used to need 1000 or 10000 machines, but now (with quantum computers) it may be four, forming fast computing power
another area, quantum mechanics, is to solve the traditional model in the model, which is another direction
quantum computing is computing, communication is communication, and artificial intelligence is artificial intelligence. By means of coherent superposition, the calculation is realized, and the incomparable super computing power can turn the NP problem of complexity into P problem
for those who are the foundation, whether it is classical or quantum, we are dealing with the problem of efficiency, turning some things that are far away into some results
large number decomposition, which is often used in the financial instry, gives you a very large number and finds out what its two prime numbers are. It takes 150000 years for a classic trillions times computer, and only one second for a quantum computer. In computing data processing, it is a basic way. If we use a billion times classical calculation, it will take a hundred years, but we can rece the speed. Only one trillion times quantum calculation may take 0.01 seconds
the computing power of quantum artificial intelligence provides a revolutionary tool for the development of artificial intelligence, which can exponentially accelerate the learning ability and speed, and easily cope with the challenge of big data
and the latest theoretical progress
in the field of artificial intelligence, Google began to establish quantum Artificial Intelligence Laboratory, including Microsoft, which is doing some artificial intelligence. In recent years, even before alphago came out, there have been some researches in the academic circle. The classification problem in artificial intelligence is a common task in big data. According to the existing data embodiment rules, we can judge which kind of new data belongs to. As shown in the figure below, MIT has made the following theoretical progress in this area:
another theoretical progress is the joint research of MIT and Google, which found that quantum artificial intelligence algorithm can accelerate the feature extraction process:
the overall research progress is shown in the figure below (the two red parts are made by our laboratory, which put this system on the quantum model machine, To demonstrate this experiment. It was a job last year.)
finally, I'd like to give you an example of quantum computing applied to artificial intelligence. This exponential acceleration is feasible. We can read out the state of qubits through our special instruments and equipment:
MIT and some media reports. As the data becomes larger and larger, now the 60th power of information 2 is proced every year, which is 60bits, About one million hard disks can store data; However, the amount of information needed to describe the universe will reach the power of 2 to 300, that is, 300 bits. According to the current bit resources, it is impossible to store them
the computing system made by IBM contains five qubits, about ten in other laboratories. In the next five to ten years, it will be a great ability to reach 30 qubits. That is to say, the space can reach the 30th power of 2. In the big data side, quantum artificial intelligence has a huge advantage in computing power, and can achieve such a curve overtaking< In the end, I would like to say that the first quantum revolution had a profound impact on the development of transistors and lasers, and the second quantum revolution must have a great role in promoting human beings. We should not be afraid of some progress in science, because machines are man-made after all. Now I don't see a machine with human emotions to destroy people. My view is not like this.
In the field of quantum communication, China's research team has led the world. In the field of quantum computing, even if China is not the world leader, it is very close to the world leader. According to public information, at present, China's quantum communication has realized instrialization, GuoDun quantum has been listed on the gem in 2019, and has launched a number of qdk (quantum key distribution) devices to the market. Quantum computing started relatively late in China, and there are not many companies carrying out commercial operation. Domestic commercial start-ups engaged in the research and development of quantum computing have launched the first integrated quantum measurement and control system in China, and have rich procts in the field of low temperature measurement and control. With superconcting and semiconctor quantum computer as the research and development direction, 6-bit superconcting quantum chip and 2-bit semiconctor quantum chip have been released, among which the semiconctor quantum chip level is in the international advanced ranks. In terms of quantum precision measurement, there is still an order of magnitude technical gap between China and foreign advanced countries. However, the achievements in quantum radar are relatively advanced
in commercial applications, quantum secure communication has been applied to the government, finance, electric power, national defense, Internet and other instries. In terms of the banking instry alone, in the early stage, a number of banks have implemented quantum secure communication procts and applications such as RMB cross-border payment management system, intra city data backup and encrypted transmission, and banking threat information sharing platform. According to the development trend of quantum communication application described in the Research Report of British government science office, the application of quantum communication is still in the early application stage. In the future, with the maturity of networking technology and the miniaturization and mobility of terminal equipment, the application of quantum communication will also be extended to telecommunication network, enterprise network, personal and family, cloud storage and other fields. It is expected to proce a series of new applications such as quantum cloud computing and quantum sensor network for a long time, and really enter the era of quantum Internet
it is only when the Central Bank of any stable country publicly reserves bitcoin that it has investment value
when all countries ban bitcoin, the value will return to zero.