Two Thousand One Hundred and Forty-Nine Comprehensive Upgrade

And rice and OV, they are also very scheming.

That is to continue to maintain cooperation with Qualcomm, and at the same time maintain contact with Spark 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 actual level is equivalent to the mid-range model of H company.

But even so, it gave them a fight against the reduced-dimensional fruit.

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

Not to mention, these models are still quite popular overseas.

After all, Company H has no plans to accompany the overseas market. After all, it is also considering that it does not want to anger the boss.

So at present, we are only focusing on the domestic market, but the rice and others have no scruples in this regard.

On the one hand, they also keep in touch with Qualcomm and continue to acquire their chips in large numbers.

And then made into low-end models, sold in domestic and overseas markets.

In addition, some models equipped with carbon nanotube chips were also produced, which were sold to overseas markets.

And you must know that those foreigners are also very fond of early adopters.

After all, this carbon nanotube chip is so good, everyone wants to know whether this chip is so powerful.

It is a pity that the carbon nanotube chips provided by Spark Technology for rice and OV are definitely not the top 28nm process.

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

It has now been upgraded to the 20nm process.

However, this top-of-the-line chip is still in the testing stage and has not been listed on a large scale.

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

For example, domestic scientific research institutions that urgently need the use of large supercomputers, as well as various national laboratories.

Then came the military, and after that came the H Company.

After all, these institutions are the ones who need these top-of-the-line chips the most.

Especially those scientific research institutions, because of the supply of carbon nanotube chips in the last two years.

It can be said that many domestic scientific research institutions have made rapid progress in the academic field.

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

These are all inseparable from the help of supercomputers, and it is these supercomputers that rely on them.

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

Only then can they get rid of the shackles of the old beauty, and can conduct many simulation experiments.

This greatly reduces the detours they have to take, allowing them to achieve success faster.

And this is inseparable from the carbon nanotube chip, as well as the supporting operating system, and various scientific research auxiliary software.

Not to mention the military.

The demand for advanced chips is also eager for talents.

For example, with this super chip, the combat capability of our aircraft can at least be improved by 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 the super battlefield identification, and discrimination ability.

You, like the old American Apache, are already very good, but why did a longbow Apache come out later.

Many people say that it is to install a super radar.

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

Gu Ru's family can detect and track 60 targets on the battlefield at the same time when they are several kilometers away.

And determine the ones that pose the greatest threat to helicopters, and conduct the first attack.

It sounds easy, but once you've done it, you'll know how hard it can be.

Only rely on radar combined with infrared detection system to detect enemies, and then judge those enemies that pose the greatest threat to you.

Then track and strike with precision.

For example, after launching a missile, it is necessary to guide the missile to know the range of the missile to enter the terminal guidance.

These are all supported by the combat system of the aircraft.

The reason why Laomei's F22 and F35 can dominate the world is because they have a super combat control system.

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

Why is it so expensive, because that is a super combat computer.

For example, aiming, and tracking, it is completely the iris tracking system on the pilot's helmet.

To track the pilot's iris response, which means your eyes are looking at the bandit on the front screen.

And the aiming system on the plane will follow your eyeballs to judge the enemy plane and track the enemy plane.

That is to say, as long as you lock the enemy's target with your eyes, the fire control system on the aircraft will lock the target.

This is comparable to the original aircraft, which relies on radar scanning to detect enemy aircraft and launch them.

After that, airborne early warning aircraft will be used to guide the missiles in the air.

The real attack is not completed until the missile has entered the terminal guidance range of the last segment.

And now it's simple, as long as your eyes lock on the target, launch the missile and you're done.

This is the brilliance of other people's fire control systems.

At present, there is no second company in the world that can achieve the level of Laomei.

Of course, that was before, since our Air Force upgraded carbon nanotube chips on combat helmets and joined the super artificial intelligence specially developed by Spark Technology and the military.

Our combat system, compared to the old beauty, can only be said to be only strong but not weak.

What over-the-horizon launch, no matter after launch, etc., for us now, it is a small case.

Of course, the military has only replaced carbon nanotube chips with a 28-nanometer process, which has not been fresh for two days.

Considering the price/performance ratio, it is estimated that it will not be all replaced with 20-nanometer carbon nanotube chips so quickly.

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

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

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

Some of these chips are provided to electric vehicle manufacturers in need.

The other part is the supply of rice, OV these enterprises.

And these companies, with these things, immediately began to fill the world with equipment.

Mobile phones equipped with this chip, although not comparable to H company's flagship mate50 series.

But the flagship machine of Heshuo can still be called a challenge.

Because the computing power of this 35-nanometer carbon nanotube chip is actually equivalent to that of the fruit's A14.

However, because it is not as good as the 28-nanometer carbon nanotube chips used on the MATE50, the computing power is still slightly lacking.

In this way, they still have to inherit the graphics card on the mobile phone.

But this is no longer important, the important thing is that they finally have a weapon to challenge the fruit!