A simple and standardized management move successfully separated Guo Tailai's area of ​​processing large lenses from other things. No one would care about this little episode. Even the telescope project team felt that Mr. T was really giving face. Harvard had fired a professor who deliberately made things difficult for him before, and Mr. T made changes to repay his kindness and gave face to each other. Everyone was happy.

It is important to say a thousand words that are important to process large lenses continuously at high speed, efficiency and high quality. As long as you do this, nothing will be a problem.

The hangar originally designed to have a part of high-precision processing workshop, and there is no shortage of anti-shock grooves, constant temperature and humidity equipment, just transfer a batch of equipment from the original studio to re-tune.

Guo Tailai plunged into the hangar and began to re-arrange and install these equipment. High-precision equipment takes a long time just to install and debug, which is inevitable. Of course, on the surface, this is the case. In fact, Guo Tailai has at most half of the time to arrange the hangar processing workshop, and most of the time, he still processes and arranges his own auxiliary equipment in the new factory area.

Whether it is the future re-made MiG29 or a brand new military vehicle, it requires complete tool support. If you want to do a good job, you must first sharpen your tools!

As soon as I got busy, I had no idea of ​​time. In the blink of an eye, it was the end of July. The supercomputer that Guo Tailai had ordered from the computer had finally completed all the production and assembly and was ready to be delivered for trial operation.

Speaking of which, the computing institute is also very motivated. It did not directly use the equipment that had been completed last year to perfunctory Guo Tailai. Instead, based on the latest chips, it has built a new set of supercomputers according to the infrastructure. After all, when there is an order, everyone is willing to use better equipment to challenge faster speeds.

The data service company has temporarily bought a not-so-large office building and is preparing to install this supercomputer system in advance. Now that the water temperature drop system has not been fully developed, we can only choose an ordinary computer room to resettle it first. After the water temperature drop technology is completely solved, the supercomputer and data server will be placed underwater.

Today is the day of official delivery. That is to say, starting from today's acceptance of the supercomputer, all the calculations required by the design company can be calculated frantically through this supercomputer. Because the design company has been waiting for this supercomputer for half a year, and has revised the three versions of various solutions with great excellence. In addition, they have also done a lot of preliminary work.

In the past, the aerodynamic design of aircraft was not supercomputed, so it could only be done in a blower tunnel. Make a 1:1 or 2:1 model, with densely covered with small strips of paper on the surface, observe the state of the strips being affected by the airflow, how the colorful smoke will flow, what kind of turbulence will form, etc., manual summary and manual calculation. In fact, most of the older generation of aircraft designs are actually done in this way, and the design team of An 225's chief engineer and their design team are no exception.

However, after several years, the old team has re-learned the latest technology from Guo Tailai and has been exposed to the latest computer technology. Of course, they know that using supercomputers is definitely much more efficient than manual computing.

However, a supercomputing system only refers to a collection of a series of hardware and software with a complete operating system. What to calculate and how to calculate must be designed and programmed by the design team itself.

This sentence sounds light, but the simple word "how to calculate" can directly form a technical monopoly. The core technology of some flight design software is here, and it is not something that anyone can do casually.

Whether it is fluid mechanics or aerodynamics, most ready-made theories are empirical formulas. In practice, it requires a lot of practical experience. China started late in aviation design and had a lower strength, so there may not be no reason for this.

However, who is from the Aviation Department of the design company, from the chief 225 chief tutor, who is an inexperienced newcomer? Their experience is the best thing to make up for these gaps, and this is the core technology. Isn’t this a complete aircraft appearance dynamics design software explained by these Ukrainian national treasure aircraft designers and the flight action mechanics calculation program implemented by software designers, and after other necessary visual packaging, isn’t it a complete aircraft appearance dynamics design software?

With the increasing experience of these designs, the data is constantly being supplemented, and the models are constantly being enriched, this software will become more and more perfect and more practical. It is really successful and can design the supersonic passenger plane that Guo Tailai needs. As long as Guo Tailai is willing to take out this software, it will definitely not be as simple as filling the gap in China.

Guo Tailai was still very interested in supercomputing. Seeing the staff of the computing office introducing the performance of this supercomputing in detail and actually demonstrating it, Guo Tailai nodded frequently. However, all the 100-mega-nanometer robots in his body have been dispatched to understand and simulate the working principle of supercomputing, copy the operating system, and simulate a simple supercomputing system in the body at any time.

However, this is not the point. The point is that Guo Tailai has left a group of nanorobots here, so that he can control this supercomputer through a satellite network at any time, so that he can use the supercomputer's computing power when needed and help him make detailed calculation results.

In addition, since the supercomputer has been placed in the computer room, some plans can be carried out. Guo Tailai can make a batch of chips himself, place them openly in this large computer room to cover up, and do some extra things Guo Tailai needs to do, such as the design and calculation of a certain aircraft he is interested in.

Of course, this is a later story. You don’t need to consider it for the time being. Even if you are making chips, you need to order a large number of silicon wafers. Supercomputers cannot be built with just a few CPUs. They need at least tens of thousands of chips to start.

After receiving the supercomputer, Guo Tailai continued to work in the hangar, too lazy to pay attention to the things outside.

Perhaps it is because Guo Tailai has been calm recently after he came back. No major news has been released, and no new products have been launched. It seems that he has really withdrawn from the supercar industry and has stopped. Some people seem to have seen an opportunity and started to brew some things.

Since early August, some vague news has begun to be revealed on the Internet. The reason why Mr. T no longer plays supercars is because Jiang Lang has exhausted his talents. He only relies on the high-power engine to force the vehicle performance. Any car designer can do it, right? As Shuniu Hehenkinen said, the 5,400-horsepower engine should be used as any performance, right?

Otherwise, why didn’t Mr. T design a truly excellent off-road performance car, but just pursues extreme speed supercars? Isn’t it because some requirements of off-road vehicles are higher? The powerful engine alone may not be able to achieve strong off-road performance, right?
Chapter completed!