And the rice and OV are also very scheming.

That is, you will continue to cooperate with Qualcomm and also maintain contact with Xinghuo Technology.

They have launched some high-end models of their own brands in China.

It is also a model that uses carbon nanotube chips. Of course, the level is equivalent to the mid-range model of H Company.

But even so, they have a fight with the fruits that have been reduced to the dimension.

At the same time, they also bought high-end phones from this shoe brand overseas.

It's true that these models are quite popular overseas.

After all, Company H has not yet made plans to violate overseas markets, after all, it is also considering that it does not want to anger the boss.

So at present, it is just focusing on the domestic market, but Dami and others don’t have any concerns about this.

On the one hand, they also kept in touch with Qualcomm and continued to acquire large quantities of their chips.

Then it is made into a mid- and low-end model and is sold in domestic and overseas markets.

In addition, some models equipped with carbon nanotube chips have been produced and bought in overseas markets.

And you should know that those foreigners also like to try it out very much.

After all, this carbon nanotube chip is so awesome, everyone wants to know if this chip is that powerful.

Unfortunately, the carbon nanotube chips provided by Xinghuo Technology for rice and OV are definitely not the top 28-nanometer process.

In fact, in the past year, Spark Technology's carbon nanotube chips have been upgraded again.

Now it has been upgraded to a 20nm process.

However, the top-notch chips are still in the testing stage and have not been launched on a large scale.

Even if it is listed, it must be used by the institutions that need it the most.

For example, domestic research institutions that urgently need to use large supercomputers, and various national laboratories.

Then there is the military, and then there is Company H.

After all, these institutions need these top-level chips the most.

Especially those scientific research institutions, in the past two years, there has been a supply of carbon nanotube chips.

Many domestic scientific research institutions have achieved rapid progress in the academic field.

For example, the Chinese Academy of Sciences has made a series of breakthroughs in the synthesis of starch.

All of these cannot be separated from the help of supercomputers, and they rely on these supercomputers.

And various auxiliary computing and modeling tools provided by Spark Technology.

Only then can they get rid of the constraints of the United States and conduct multiple simulation experiments.

This greatly reduces the detours they have to take and allows them to succeed faster.

This is inseparable from carbon nanotube chips, supporting operating systems, and various scientific research auxiliary software.

Not to mention the military.

The demand for high-end chips is also thirsty for talent.

For example, with this kind of super chip, our aircraft combat capabilities can at least be improved a lot.

For example, our J20, many people know that the most critical part of the aircraft is the engine.

This is true, but what many people don’t know is that for fighter jets, there is actually another ability that is very important.

That is super strong battlefield recognition and discernment ability.

For example, the American Apache is already very awesome, but why did a longbow Apache come out later?

Many people say that a super radar is installed.

Indeed, a radar was installed, but the problem was that they also updated the super awesome combat system.

For example, if someone is a few kilometers away, he can detect and track sixty targets on the battlefield at the same time.

It was also determined that the most threatening helicopters were the ones, and the first attack was carried out.

It may sound simple, but you can know how difficult it is if you have done it.

Just relying on radar combined with infrared detection systems to discover enemies, and then we have to judge which enemies pose the greatest threat to us.

Then follow up and perform precise strikes.

For example, after launching a missile, you must guide the missile to know the range of the missile entering the terminal guidance.

Among them, they all rely on the aircraft's combat system to support it.

The reason why the American F22 and F35 are unique is because they have a super combat control system.

For example, many people know that the helmet of the F35 pilot is worth millions of dollars.

Why is it so expensive? Because it's just a super combat computer.

For example, aiming and tracking are entirely the iris tracking system on the pilot's helmet.

Come and track the pilot's iris reaction, that is, your eyes are looking at the enemy plane on the front view.

The aiming system on the plane follows your eyeball to judge the enemy plane and track the enemy plane.

In other words, as long as you lock the enemy's target with your eyes, the fire control system on the plane will also lock the target.

This is comparable to the original aircraft, which requires radar scanning, discover enemy aircraft, and then launch.

Later, air early warning aircraft must be used to guide missiles in the air.

Only after knowing that the missile enters the end guidance range of the last section can the real attack be considered to be completed.

And now it's simple. As long as your eyes lock the target, launching a missile is done.

This is the awesomeness of their fire control system.

At present, there is no other company in the world that can reach the level of the United States.

Of course that was the past. Since our Air Force upgraded carbon nanotube chips on its combat helmets and added super artificial intelligence specially developed by Spark Technology in cooperation with the military.

Our combat system is only stronger than that of the United States.

What is beyond the visual range of transmission, no matter after launch, etc., for us now, it is a small CASE.

Of course, the military has only replaced the 28-nanometer carbon nanotube chip, which is not new for two days.

In terms of cost-effectiveness, it is estimated that all of them will not be replaced so quickly into 20-nanometer carbon nanotube chips.

However, a batch will be purchased and assembled on some special combat equipment for testing.

On the other hand, Spark Technology has also developed a large number of 35-nanometer carbon nanotube chips.

This is reverse research and development, and it is also to make the best use of this carbon nanotube chip and make the biggest profit.

Part of this chip is provided to electric vehicle manufacturers in need.

The other part is to supply companies such as rice and OV.

And these companies, with these things, immediately began to be equipped all over the world.

Although mobile phones equipped with this chip cannot be compared with H's mate50 series flagship phones.

But you can still call the board with the flagship phone of Fruit.

Because the computing power of this 35-nanometer process carbon nanotube chip is actually comparable to that of fruit A14.

However, because it is not as good as the 28-nanometer process carbon nanotube chip used on MATE50, there is still a slight lack of computing power.

In this way, they still have to inherit the graphics card on their phones.
Chapter completed!