Stein's 222 chapter on technology generation difference is that the semiconductor laboratory of Fuzhou University is one of the most famous and leading semiconductor laboratories in the world.
The reason why it is said to be the most advanced semiconductor laboratory in the world is that many of its design ideas and design results come from this laboratory, including Pentium III chip design, scattered SLC and MLC chips, and related semiconductor integrated circuits Cultivated in the hands of talented people.
Regarding the research and application of integrated circuits and semiconductors, politicians in the United States may have strategic confusion or unclear strategies due to some of their own purposes.
However, in the capitalist and technological circles of the United States, everyone's thinking is indeed very clear.
The future must be a world of computers and the Internet, and the core of the computer Internet is semiconductors.
To always lead the world, you must keep your semiconductor technology in a leading position in the world.
The emergence of carbon crystal storage completely disrupted the plans of the American elite team including Fisher.
Because in the face of carbon crystal storage, the traditional storage methods in the past are not worth mentioning.
This means that the technological strategic advantages that the United States has spent decades building are gone.
This feeling is as if you have spent decades and finally learned the carpenter's carving technique.
Looking back, I found that the engraving technology in the market has been replaced by machines. No matter how good your technology is, no one is willing to hire you.
So are you still spending energy on researching slc, mlc or flc chips of flash memory?
Do you still use traditional means to study computer cpu integration?
This is the first big question facing the American technology community.
Fisher just got off the phone with the professor in the physics lab.
Both parties agreed that silicon carbide crystals, a key technology that can store information, can be applied not only to carbon crystal storage.
If Changtian Technology and Xiaguo Academy of Sciences continue to research in this technological context, carbon crystal storage can be made into faster and smaller computer chips.
If the scientific and technological circles in the United States continue to study chips or storage in the traditional way.
This is no matter how much money and time you spend, your technology will lag far behind carbon crystal technology.
But if you give up the traditional research methods, go to study carbon crystal storage.
The results obtained may be even worse.
After all, as far as carbon crystal storage technology is concerned, the entire American scientific and technological community still has a limited understanding of it in the immature paper written by Stanford University 10 years ago.
Just relying on this immature paper, nothing useful can be studied.
The more he thought of this, the more flustered Fisher became.
7 p.m. Western Time.
In the first academic lecture hall of Stanford University, dozens of participants came one after another.
These people are experts from the School of Computer Science and the School of Materials, as well as expert professors from the Semiconductor Laboratory and the Physics Laboratory.
Fisher also saw some familiar faces, the heads of Intel, Seagate's own Western Digital.
Presided over the meeting was the Dean of the School of Physics, Alexis of Jewish origin.
The meeting has not yet started, but the atmosphere has become very serious.
Alex stood on the podium and said: "I believe that professors and gentlemen should know the topic of our emergency meeting this time."
"I believe that everyone has received a scientific research paper from the Physics Laboratory of Xiaguo Academy of Sciences in the past two days."
"About silicon carbide crystals."
Alex walked around the podium impatiently and said: "If this is just a scientific research paper, it would be better, the most important thing is that at the same time this paper was published, Xia Guo had already made a related products."
"I know that some time ago, our physics laboratory and semiconductor laboratory have obtained relevant samples and conducted tests. I have also seen relevant test reports."
"Today I called everyone over to explain a situation."
"The National Academy of Sciences, and the Pentagon have paid considerable attention to this matter."
"The security of semiconductor materials and technologies is the security of the country."
"Today we are just holding a meeting here, and you need to go down and form relevant plans and reports."
Alex stood on the podium and said: "Everyone can express their opinions and express their opinions now."
"I now? To ask three questions. "
"The first question, can the technology related to silicon carbide crystals be replicated in our laboratory?"
If the relevant technology can be copied, the entire US technology community will try it in one breath.
"The second question, can our traditional semiconductor technology compete with carbon crystal semiconductor technology?"
"The third question, if we answer the first two questions in the negative, do we have a way to prevent Xia Guo from developing related carbon crystal semiconductor technology."
After throwing out these three questions, Alex said: "Please express your opinions."
"Mr. Fisher, you were the first to know about this news, please tell me your opinion."
From getting the things stored in carbon crystals to seeing the papers of the Xiaguo Academy of Sciences today, Fisher has actually been thinking about these three issues.
He stood up and said: "As you all know, the physics laboratory and the semiconductor laboratory have conducted research on carbon crystal storage at the same time."
"We found that, according to the current technical means, we have no way to figure out the principle of carbon crystal storage, let alone imitate related technologies."
Fisher said very helplessly: "I don't know if everyone is willing to listen, but I must tell the truth."
"Compared with traditional semiconductor technology, silicon carbide semiconductor technology is already a cross-generational technology. The two sides are not on the same level. To be precise, there has been a generation gap."
This is actually the first question answered. According to the current technology of the United States, there is no way to replicate it.
"This also answers the second question. It is something that has already formed a technological generation gap. Therefore, if we continue to develop traditional semiconductor technology, there is definitely no way to catch up with carbon crystal technology."
"After 5 years and 10 years, the technical advantages brought by carbon crystal technology will become more obvious."
"As for the third question." Fisher said, "I have no way to answer it."
After Fisher finished his speech, he stopped, and the whole venue was full of excitement.
Many experts and scholars began to argue and discuss.
"Can't be copied? There is a technology gap? How is this possible?!"
"Xia's computer industry, especially the semiconductor industry, is more than 30 years behind the United States. It is absolutely impossible to catch up overnight!"
"There must be some skills in carbon crystal technology, otherwise why would such an advanced technology be mastered by Xia Guo, who is backward in computers and the Internet?"
Fisher made a wry smile after discussing with everyone, and he chose to close his eyes and rest.