"Old man Rupert, have you collected data for all temperature ranges at the detection limit?"

In the Max Planck laboratory in Germany, Andre stared at the analysis results of the supercomputer in his hand, and shouted to Professor Rupert next to him without looking back.

"It's been completed, the mathematical model of all temperature ranges has been built, have you done the evolution model from low temperature to high temperature?"

Professor Rupert threw a large stack of reports in front of Andre and asked about the most important things.

"Old man, don't worry, this is a world-class problem, if it weren't for the mathematical model built by that genius girl in Huaguo who inspired us, not to mention the evolution model from low temperature to high temperature, the mathematical model of a single temperature range made a group of mathematicians die suddenly and couldn't think of this."

Professor Andre picked up the pen and wrote on the manuscript paper while saying: "Plasma turbulence has always been an unsolvable chaotic system in the academic world, and the helium-3 particles emitted by the firing gun will collide with data every time, how many times do you say that the plasma will collide?" How many times has the data changed?

Not to mention that the launcher does not shoot one, at least 300 guns are needed to form the detection data of the system, and the number of collisions will increase with the temperature of the plasma, and the number of particles emitted will also increase with the increase of temperature.

There is a saying in the theoretical world that there is no solution when the amount of data reaches a certain level, but this genius girl uses her wisdom to perfectly avoid this problem.

The Goldbach conjecture was solved by the mathematical tools created by the integration of the circle method and the sieve method into number theory, and now through inverse calculations, the concept of space geometry is added to directly break a gap in the chaotic system of plasma turbulence, and in this way it spreads to the entire turbulent system......

It is found that there is a clear relationship between the low temperature range and the high temperature range, the key R value of the 3000 temperature range is 2.04 times that of the 9800 temperature range, and the critical R value of the 9800 temperature range is 1.97 times that of the higher temperature range, followed by 1.93 times......

With the increase of the temperature range, this multiple is smaller, that is, the higher the temperature, the smaller the difference in plasma turbulence, which is the relationship between low temperature and high temperature.

Add this connection to the evolution of fluid mechanics, and then to the geometry of space, and the thing is done. ”

"It's that simple?"

Professor Rupert couldn't believe it, the problem of plasma turbulence that has plagued mankind for decades has been solved so simply?

"Simple? No, it's not easy. ”

Professor Andre shook his head: "If there is no mathematical model for the genius girl in Huaguo to solve the temperature range, this problem may not be solved in a hundred years, and this also needs to be substituted for space geometry, which can connect algebra and geometry and solve this level of difficulty problem, if there is no Teskey guy, I estimate that it will take a few years to solve it."

There is also a plasma temperature of controllable nuclear fusion is 10 million degrees Celsius, and our detection limit is 1.39 million degrees Celsius, which needs to evolve step by step to 10 million degrees Celsius.

This thing is like the critical line of superconductors, we don't know if the temperature will change abruptly at millions of degrees Celsius or tens of millions of degrees Celsius, of course I hope not, otherwise the problem of plasma turbulence is estimated to never be solved.

Now, according to this model formula, the 11.5TFlop/s supercomputer roared under high load for almost two hours, and calculated that the detection limit temperature of 1,391,000 degrees Celsius should be at 1,398,653 degrees Celsius, and the difference in the key R value is 1.48 times, so that the data of plasma turbulence in the temperature range of 1,398,653 degrees Celsius is ......"

"You said that it took almost two hours for the high load to calculate the data for the next temperature range?"

Professor Rupert keenly grasped the key point, jumping a temperature range for almost two hours, 1.39 million degrees Celsius to 10 million degrees Celsius, less than 900 temperature ranges, 298, 1800 hours of high-load calculations?

This is a supercomputer, not a super-diamond, which can be passed on forever.

If the continuous high-load operation is 1800 hours, it is estimated that the supercomputer can also sell scrap iron, and if the operation is not continuous, it will take more time, and maybe other research institutes will take the lead in breaking through.

"The computing power required is a little bit bigger, but we can apply to the ITER project and your German government for resources, to unite the three of us and the importance of plasma turbulence, and I think this application is fine."

Professor Andre took his notebook and began to organize the data to write a paper, and when the turbulence model of the controlled nuclear fusion temperature was calculated and verified by the stellarator, the paper could be published.

This is the main purpose of his visit to Max Planck's laboratory, as long as the temperature of controlled nuclear fusion is calculated all the way to the point where there are no accidents, and this paper is published, he will definitely have a place in the reputation of controlled nuclear fusion breakthroughs in the future.

"Okay, then I'll apply." Professor Rupert didn't hesitate and hurriedly walked outside.

......

"The data of the 795,900 temperature range is analyzed."

When Max Planck Lab hurriedly applied for supercomputing resources, in the Yangcheng Laboratory on the other side of the world, Zhang Qing and Lin Meng looked at the data refreshed by the operation on the screen and began to analyze it quickly.

Through this data of 795,900 temperature ranges, with previous experience, the mathematical model of this temperature range was constructed more than 20 minutes later, and the relevant calculation formulas were imported into the supercomputer for calculation, and the roar from the supercomputer on the third floor instantly sounded outside the window.

The performance of the laboratory supercomputer instantly exceeds the warning line and enters the overclocking state, and the excess computing data is distributed by the joint control platform and sent to other supercomputers and quantum computers across the country through the data dedicated line channel.

When the plasma problem was raised to 460,000 degrees Celsius, Lin Meng supplemented the mathematical model of evolution with the obtained data.

After the model was verified and confirmed by more than a dozen temperature ranges, Lu Yi decisively stopped the continued detection of the laboratory prototype and concentrated manpower and energy into the calculation.

"Xiaohui, can you do a little automation, the calculation results can be automatically substituted into the model for the next temperature range calculation."

Inside, Lin Meng and Zhang Qing were busy with the rest of the laboratory, and Lu Yi was not idle, and found Li Minghui to make his request.

The mathematical model of evolution has been determined, and what is done now is to import the model data of the current temperature range into the evolution model, so as to calculate the data of the next temperature range.

The temperature range data is obtained, and then the mathematical model of this temperature range is constructed, and the evolution model is imported and then the next data is analyzed and calculated, and then the mathematical model is constructed......

This is a mechanical reciprocating process that should be programmable.