Wu Hao nodded and said: "The advancement of this technology is that it can integrate the original complex multi-layer lens group structure into a crystal. In this way, the volume is reduced and the accuracy of lens refraction is improved.
.More importantly, the previously complex lens structure can be printed inside the crystal in a manner similar to 3D printing.
This will lay a solid foundation for us to develop complex lens groups used in photolithography machines."
After hearing his words, the leader nodded and said: "This is the power of independent innovation. If we did not insist on independent innovation and rely on our own efforts, our key technologies would still be controlled by others.
Today, we have developed 5 nanometers, and tomorrow we will be able to develop 3 nanometers, 2 nanometers, and even 1 nanometers. We must use practical actions to tell those countries and adversaries who want to block and restrict the development of our technology and want to block it.
Our development is absolutely impossible.
If you block us, you will be like a mantis trying to use a chariot, and you will eventually be crushed by the wheels."
Bang bang bang bang...
When everyone present heard this, they broke into excitement.
Indeed, the successful development of this lithography machine today can be said to be a great success in the international community. The conspiracy of our opponents and enemies to hinder our development and progress has completely failed, which also marks our successful breakthrough in core technology and crowd-out.
Entering the world's advanced level in the field of photolithography machine technology.
After finishing speaking, the leader whispered to Wu Hao: "I remember that the photonic chip you showed last time also used this technology."
After hearing the leader's words, many people present, especially Lao Ma and the others, looked at Wu Hao. As for photonic chip technology, it has been kept secret since Wu Hao and the others developed it. Regarding this, the outside world knows
Very little is known. We only know that Wu Hao and the others successfully developed the world's first super photon computer by relying on this photon chip technology, and its floating point computing power has reached the forefront of the world's supercomputers' floating point computing power.
Many people present had visited the Dao Super Photon Computer, but they only had a superficial look. Wu Hao and the others did not show the real core technology.
In fact, after the release of this super photonic computer, many companies secretly began to study this technology. However, they all failed without exception. The core technology is this compound lens group technology. In a piece of composite crystal material
Inside, special processes can be used to print or carve out several lenses, which form a dense lens group, thus creating a complex integrated optical path.
These integrated optical circuits are intertwined with each other and ultimately constitute a photonic chip.
This technology has always been regarded as an important core process technology by Haoyu Technology, and it has been kept strictly confidential until now. Even the compound lens group crystal used in this photolithography machine is processed by Haoyu Technology
.The specific dimensional parameters are provided by the R&D project team here, and then they are manufactured there, and then transported over for testing.
So to put it bluntly, the real control of this Core Technology Co., Ltd. is still in the hands of the controller Wu Hao and others, not only in terms of shares, but also in terms of technology.
This is also the reason why other shareholders who want to make a move must first test Wu Hao's opinion. Although there is a cooperation agreement signed, if Wu Hao and the others really want to do something, they can rely on this agreement alone.
It's also unstoppable.
Wu Hao smiled and nodded: "Yes, the photonic chip and the composite lens group in this lithography machine actually have the same principle. They are both multi-structured lens groups composed of several lenses.
They can both be regarded as an integrated optical circuit. The structures of both are very complex, but their directions are different.
And relatively speaking, the structure of the photonic chip is more complicated. We need to carve a large number of lens groups into a four-by-four cube to form a complex integrated optical circuit system. This is a bit like our silicon-based chips.
It is also a very large scale integrated circuit itself.
In a sense, this photonic chip is an analog silicon-based chip, but there are very significant differences depending on the light."
After hearing Wu Hao's explanation, everyone present, whether they were leaders, corporate bosses, or technical staff, showed very strong interest.
For technicians and experts, this is definitely a new and cutting-edge technical field that they have never been involved in. Due to professional habits, they are full of instinctive interest in all unknown advanced technologies and knowledge. What's more, this is still a new and cutting-edge technical field.
A chip technology that is more advanced than silicon-based chips.
For these corporate bosses, this is also an opportunity for them to gain insights. They also want to find out the specific information of this photonic chip so as to formulate corresponding response strategies. If possible, they are very happy to learn from it.
made.
As for the leaders, they are more concerned about the development prospects and value of this technology. Judging from Wu Hao's explanation, this is definitely a new technology no less than silicon-based chips.
So compared with our traditional silicon-based chips, what are the advantages of this kind of photonic chip? A leader asked.
Wu Hao glanced at the leader, then smiled and introduced to everyone: "There are many advantages, such as low energy consumption, and we can break through the limitations of Moore's Law. Of course, its biggest advantage is that it can operate under limited conditions.
Under the manufacturing process, it can exert unlimited performance and computing power.
The super photon computer in our company campus has currently undergone a large-scale upgrade. We have replaced the photon computing module with a more advanced photon chip computing module, and this has also greatly improved its computing power.
of improvement.
Its current floating-point computing power has exceeded that of the most advanced supercomputers in the world, and has reached a level that is difficult for traditional supercomputers to reach in a short time.
It can be said that except for quantum computers, traditional supercomputers can no longer surpass it."
Hearing Wu Hao's words, the scene exploded. This was the first time they heard the news. It turned out that Wu Hao and the others had quietly developed a new generation super photon computer that was ahead of all supercomputers.
The leader showed a happy look and said: "Okay, I didn't expect you to release a large satellite for us without saying a word.
It's amazing. In today's society, we need companies and entrepreneurs like you who are down-to-earth, hard-working, and do things quietly.
Of course, we also lack technical experts who work hard and strive for excellence in their own positions and professional fields.
These are all valuable and worth learning from all of us.”