Among them, it is worth mentioning that the vast majority of the maximum $27 billion is used to acquire semiconductor equipment companies, and the real funds used for research and development should not exceed 15 billion yuan!

As a result, in less than two years, Sugon R&D Center really relied on the financial strength of its own company to catch up with the world's R&D progress and successfully developed a full set of 90nm chip production equipment!

The more you learn, the more shocked you will become, and the more you will understand what a terrifying truth this represents!

So it's no wonder that several presidents are so shocked, so surprised, so incredulous, and even wonder if the Dawning R&D Center is fake!

However, at this time, Lin Chen ignored people's surprise and shock, and when the reporters at the scene reacted and pressed the camera one after another, Lin Chen continued to speak:

"On January 20, 2004, we set up the project to develop the lithography machine, and it was not until mid-May this year that we officially completed the development of the fifth-generation immersion lithography machine capable of producing 90-nanometer chips.

In the end, it took more than half a month to cooperate with other domestic chip production equipment to produce the first 90nm mobile phone chip, and the whole process took one year and five months!

It can only be said that the lithography machine is really worthy of the pearl of industrial civilization, this thing is indeed very difficult to develop, and some of the problems even many of our academicians will have a headache, thinking that it is difficult to make a breakthrough in the short term.

But in the end, we still stumbled to overcome many problems, and it took one year and five months to successfully break the blockade of foreign science and technology, and produced the fifth-generation immersion lithography machine with all independent intellectual property rights. ”

At the bottom of the stage, the reporters and guests who heard Lin Chen's words also nodded slightly.

The lithography machine can be so famous, the research and development of this thing must be very difficult, although they don't know how difficult it is, but they know that the lithography machine is difficult to get out.

At this time, Lin Chen, who was in the center of the stage, then spoke:

"Of course, it is not all bad to encounter problems, because when we encounter problems, we need to solve problems, and in the process of solving problems, we also make up for the weaknesses of Daxia Technology.

For example, in the field of high-end metal materials, a major breakthrough has been made because of the lithography machine project!

We have a lot of Daxia reporters at the scene, I don't know if you still remember Academician Luke and the surface nano technology of metal materials he developed? ”

Hearing Lin Chen's words, a middle-aged reporter from Daxia at the scene slowly raised his hand, and after getting permission, he said:

"We naturally know that in 2003, Academician Lu Ke was named a Daxia academician by virtue of the two major research and development achievements of nano-twin copper technology and nano-surface technology of metal materials.

Mr. Lin Chen, I heard you just mentioned the surface nano technology of metal materials, have you successfully solved the problem of mass production of metal surface nano technology? ”

Hearing the question from the middle-aged reporter in Daxia, Lin Chen nodded with a smile, and then said proudly:

"That's right, we have indeed successfully overcome the problem of mass production of nanotechnology on the surface of metal materials, so that this amazing technology is no longer just in the laboratory, but really applied to industry and life.

From now on, many of our high-end metal materials will no longer have to spend huge amounts of money to import, although the comprehensive quality of our domestic metal materials is not as good as other people's high-end metal materials.

However, with the nano technology of metal material surface that makes metal materials have stronger surface hardness, wear resistance, fatigue resistance and corrosion resistance, the overall performance of domestic metal materials can also compete with many imported high-end metal materials.

It can be said that this alone can reduce the import of high-end metal materials in Daxia by tens of billions of dollars!

Therefore, we not only developed a lithography machine on the way to develop the lithography machine, but also made many technological breakthroughs in the process of solving problems. ”

"Bang Bang ......"

Hearing Lin Chen's words, the people at the scene applauded, and they were amazed by the amazing achievements made by the lithography machine R&D team.

After all, new materials and technologies are invented every year around the world, and almost all of these new materials and technologies have extraordinary advantages.

Theoretically, if human beings can mass-produce and apply these newly discovered new materials and technologies, then the level of human science and technology will increase by several orders of magnitude.

But unfortunately, although new materials and technologies are discovered every year, in fact, almost all of those new materials and technologies have one characteristic, which is that they can only be manufactured in the laboratory!

For example, after graphene was discovered by humans in 2004 last year, mankind found that graphene has extraordinary properties in various fields.

But in the end, graphene, like other newly discovered materials, can only stay in the laboratory, and it is a great problem to really want to mass produce and apply it to industry and life.

The surface nanotechnology of metal materials invented by Academician Luke has obviously encountered such a problem.

Small-scale experiments in the laboratory are fine, but they are extremely difficult to apply to human industry and life.

At this time, the lithography machine R&D team successfully turned the supernatural technology such as nano technology on the surface of metal materials from theory to practice.

Its significance is even more important than the invention of nano technology on the surface of metal materials, after all, the invention of such technology is nothing, but whether it can be applied to industry and life is the most important thing.

After all, what's the use of making a new material the size of a human hair at a huge cost in the lab?

Therefore, at this time, people are applauding the lithography machine R&D team, applauding the lithography machine R&D team for successfully integrating a magical black technology into future industry and life, and applauding for the strength of human civilization to go further.

In this regard, this warm applause lasted for half a minute, and after the applause stopped slightly, Lin Chen continued:

"In fact, in addition to the successful mass production of nanotechnology on the surface of metal materials, there are other materials and technologies that have made great breakthroughs.

For example, the high-performance glass required by the lithography machine, such as the ultra-secret processing technology of glass, and the use of other metal materials or linear motor technology in the lithography machine.

Of course, in addition, in fact, there is another breakthrough that must be mentioned, and the significance of this breakthrough is not much worse than the formal mass production of nanotechnology on the surface of metal materials. ”

Hearing Lin Chen say this, the thousands of reporters and thousands of guests at the scene all showed curious eyes.

They already know the importance of nanotechnology on the surface of metal materials and the significance of mass production.

Through this magical black technology, it can make metal materials obtain super wear resistance, fatigue resistance, corrosion resistance, surface hardness and other advantages, which can be called turning decay into magic.

At this time, Lin Chen mentioned that the importance and significance of a breakthrough in something is not much weaker than the nanotechnology on the surface of this metal material, I don't know what this thing is?

(End of chapter)