Due to the limitation of light source resolution, traditional DVU lithography machines have very high manufacturing costs, time costs, and energy costs when the resolution reaches 28 nanometers.

For example, if the world wants to use DUV lithography machines to produce 14-nanometer chips, it can only use repeated exposure technology.

As a result, there are problems of excessively high comprehensive manufacturing costs, time costs, and energy costs.

On the contrary, the EUV lithography machine is different because it only needs to be exposed once, so the production efficiency is naturally improved and the energy wasted is also reduced.

What’s even more amazing is that EUV lithography machines, due to their resolution advantage, are naturally good at producing chips with a process technology below 7 nanometers.

Therefore, the domestically-developed EUV lithography machine we developed is a very excellent lithography machine, and its upper limit is actually not limited to 10 nanometers.

Of course, if we want to conquer the 7nm, 5nm, and 3nm in the future, we need to work hard on research and development! "

After hearing Lin Feng's words, the people at the scene applauded excitedly again, cheering for Lin Feng's passionate speech.

It has to be said that after listening to Lin Feng's words, they were really looking forward to the future of Daxia Chip.

Xingtu Technology spent 5 people and more than half a year to finally successfully master the localization of the 10-nanometer process technology.

At this time, when Lin Feng claimed that he would achieve the stronger 7nm, 5nm and even 3nm, people at the scene, including those on the Internet, all believed that there was a great chance of success.

Under such circumstances, how could they not be looking forward to it?

In response to this, after the applause subsided a little, Lin Feng continued to introduce the 10nm process technology with the help of the video.

It also talked about who made great contributions during the entire 10nm process development process, what difficulties were encountered in the process, etc.

Through Lin Feng’s explanation, people at the scene and on the Internet had a more realistic sense of the research and development of the 10-nanometer process technology.

Therefore, they admire and thank the more than 5 R&D personnel from Xingtu Technology and various scientific research institutions across the country.

It was their collective efforts that finally created a miracle in more than half a year, successfully breaking the foreign blockade and developing a number of chip production equipment with 10-nanometer process technology.

Time passed slowly, and in the blink of an eye, more than 10 minutes had passed. Lin Feng, who had finally finished talking about the research and development history of the -nanometer process technology, waved his hand.

Then a picture of a graphics card appeared on the projection screen behind Lin Feng, with notes next to the picture.

The name of the graphics card above is codenamed 'Xingtu S80 Gaming Graphics Card'!
That’s right, the naming rules of the graphics cards released this time are obviously paying tribute to the previous Moore’s Law S80 graphics card.

After all, the team responsible for developing graphics cards is the Moore Thread startup team in the previous life.

When Lin Feng wanted to enter the graphics card business, in addition to acquiring VIA's graphics card department, he also bought their graphics card business and R&D team.

The biggest move was to successfully poach the startup team of Moore Thread and let them jump from Invida to join Starway Technology.

This is because graphics cards or computing cards are too important. After all, the computing power required by artificial intelligence Jarvis is really too great.

Therefore, Lin Feng provided the job-hopping team with the greatest resource support, not only giving them super high salaries, but also giving them Hawking-level gene enhancement potions that can increase their IQ to 160+.

Therefore, from the initiation of the graphics card development project to the present, Xingtu Technology has successfully developed two graphics cards in no more than one year.

Of course, Lin Feng also contributed a lot in this process, helping them solve many problems that would have stuck them for months.

So these two graphics cards were developed by both them and Lin Feng.

That’s why they were able to develop so quickly, and successfully launch two graphics cards at the same time in less than a year.

Of course, let’s get back to the scene.

At this time, the people at the scene and the people in the live broadcast room were quite curious about the "Xingtu S80" graphics card. They didn't know what the performance of this "Xingtu S80" graphics card could be, and they didn't know what kind of graphics card it could actually match with NVIDIA.

“As you can see, this is our Xingtu S80 graphics card, which has two versions, that is, two configurations.

The biggest difference between these two configurations is that the high-end configuration has two graphics chips, while the low-end configuration only has one graphics chip.

Their names are Xingtu S80 and Xingtu S80 Plus.

First, let me introduce its minimum configuration, which is the version with only one graphics card chip. "

While Lin Feng was speaking, the performance parameters of the low-end version of the "Xingtu S80" appeared on the projection screen behind him.

Capacity name: Xingtu S80
Process technology: 10nm process technology.

Number of transistors: 462 billion transistors.

Core frequency: 3.2GHz~4.5GHz.

Number of stream processors: 9728

Video memory bus width: 256bit.

Video memory capacity: 16GB.

Video memory type: GDDR6 video memory (GDDR6 video memory standard customized by Xingtu Technology).

Memory bandwidth: 716GB/s.

3D API: DirectX 12 supported.

Maximum resolution: 7680×4320 (8K resolution)
Bus: PCIe 5.0 (Xingtu Technology customizes the PC bus standard, compatible with the PCie3.0 bus standard.)
Rated power consumption: 350W.

Featured technologies: support ray tracing, support MUSA architecture, support multi-graphics card crossfire technology, support deep learning super sampling technology, and perfect support for Unreal 4 game engine.

Output interface: 1×HDMI interface……

Looking at the performance parameters above, everyone at the scene opened their eyes wide, with disbelief written all over their eyes.

Because the above parameters are so luxurious, is this really the low-end version of the configuration, rather than the high-end version?

Because the above hardware parameters are a bit exaggerated, to the point where it's hard to believe.

People don't feel much about other things like video memory bus width, video memory type, etc., but they feel a lot about those parameters that can significantly improve game performance.

Take stream processors for example. The more stream processors you have in gaming, the better, because the game screen displayed in front of people is itself a process of continuous calculation.

Because the game screen is too complicated, if you want to speed up the screen, you can only use the method of synchronous calculation.

That is to say, the computing tasks are assigned to each stream processor to be responsible for the calculation.

Therefore, the more stream processors there are, the better. The more stream processors there are, the less queuing there is.

In the end, when players play games, they can clearly feel a significant increase in frame rate without any lag.

Therefore, the number of stream processors is definitely a key data that affects game performance.

But now this so-called low-profile S80 graphics card actually has 9728 stream processors. Doesn't this mean that there will be no delay when playing games? (End of this chapter)