Not to mention, Pan Dechuang is really not talking nonsense, he really gave Stephen a good direction.

"That's right! I've really gotten the horns of a bull before! ”

"I always feel that it is useless to produce low-end chips, and the computing power cannot meet our needs."

"But Xiao Pan's proposal is so good, a low-end chip really can't meet our requirements, but if you produce two more, it may be enough!"

Stephen couldn't help but applaud Pan Dechuang's proposal.

If we want to talk about this technology, it has to be said that in recent years, Moore's Law has begun to gradually become ineffective.

The main reason is that in recent years, with the improvement of semiconductor industry technology, the chip manufacturing process produced by people is getting smaller and smaller.

From the original more than 100 nanometers, it has broken through to the current 3 nanometers and 5 nanometers.

As the human chip manufacturing process becomes smaller and smaller, the potential of silicon-based chips mainly used by people has been exhausted.

And as the process becomes more sophisticated, the cost increases.

Therefore, many manufacturers are now looking for a breakthrough direction to meet their pursuit of higher and higher computing power.

And this is represented by the orange company and the chrysanthemum company.

In the past two years, the two of them have come up with a very similar idea, that is, chip superposition.

That is to say, if the computing power of one chip is not enough, then two chips, or even three chips, are superimposed together.

to meet the system's demand for computing power, and the orange company has long been in this regard.

For example, a computer chip they recently launched uses superposition technology, which is to superimpose the previous generation of computer chips they developed.

Goose Chrysanthemum Company has also been trying to superimpose mobile phone chips recently.

to solve their problem of insufficient high-precision chips.

And the so-called chip superposition is not as everyone thinks, stacking two chips up and down.

In fact, two chips are connected in parallel, which is not a new technology in the chip production circle.

Someone tried it a long time ago, and it worked.

However, this kind of chip superposition also has to face several problems, the first of which is the packaging process.

Because the biggest problem with this thing is packaging, you connect two chips in parallel.

So what do you do if the electrons wander between the two chips, and if you go the wrong way, or get lost?

Therefore, the process of this package is extremely high.

The second is the problem of power consumption, originally one chip is enough to consume energy, and now you have two in parallel.

Although the problem of computing power has been solved, this power consumption has also been amplified!

And this amplification is not as simple as a direct doubling, and the power consumption is likely to be multiplied upwards in geometric multiples.

There is also heat dissipation, which will also become the latest problem.

Therefore, this chip superposition is by no means as simple as talking about it.

As soon as Pan Dechuang came up with the idea, Stephen immediately began to consider the feasibility of this approach.

As a result, it seems that there are really many companies that have solved this problem.

For example, the OEM of oranges, as well as some affiliated enterprises of Chrysanthemum Company.

After all, the orange company has already made a superimposed chip, and the chrysanthemum company, although it has not been directly stated.

But it has also been hinted on many occasions that they have mastered the technology to break through the shackles of chips.

For Stephen, this is a very good hint for him.

Maybe he can't solve this problem right away, but with the hacking skills he has mastered.

He can take advantage of the unpreparedness of those two companies and quietly observe the technology mastered by these two companies in this packaging.

Then we will combine the strengths of the two worlds, and then optimize and absorb these technologies.

Finally, they used their own bionic chips.

But before that, the first thing he has to solve is the problem of ordinary chip production.

"Well, I've calculated, even if we produce low-end chips, we currently need some 28-nanometer chip preparation technology."

"First of all, silicon wafer ......"

Stephen talked about the plans and ideas for building a chip factory, while Pan Dechuang and Yang Yinuan listened very carefully at this time.

"Silicon wafers, we can purchase from outside, and there are still quite a lot of domestic wafer factories at present."

Pandechuang said to Stephen, who nodded.

"Hey, although in my imagination, this bionic chip needs to use a lot of new processes and new materials to achieve perfection."

"For example, carbon nanotubes, as well as Josephson Festival, but the problem is that now, many equipment is missing, so we can't develop materials."

"Therefore, the bionic chip of the new technology must not be done, and it can only be ...... based on silicon wafers."

After speaking, he glanced at Yang Yinuan deeply, and the meaning was very clear.

Brother, you're working harder!

Yang Yinuan could only smile bitterly and nodded at him, this time when he returned to the other world, he would participate in a western expedition.

He wants to see the different mountains and rivers of Falken, and then collect as many prehistoric ruins as he can in this land.

Even if he couldn't collect it, at least on the side of Qingshan City, he had obtained Zhao Gongtang's palace.

This palace, he hasn't had time to investigate it carefully.

Anyway, according to the prehistoric map provided to him by Yang Yuanqing, he always felt that there was something hidden under this palace......

After coming back to his senses, Stephen had already begun to continue planning with Pan Dechuang.

"Although we need silicon wafers, our etching of silicon wafers is different from ordinary silicon-based chips."

"So I thought about it, as long as there are 28-nanometer chips, it should be enough, and when we etch, we can do it in a completely new way."

"The most important thing is that after etching, we need to develop a thread placement machine ourselves."

Pan Dechuang also has some understanding of the chip manufacturing process.

He knows that the current chip production process is to first leave a shadow with photoresist on the chip, and then take it to the optical components for exposure.

After exposure, it is etched with chemical solution, and after etching, the circuit you want will appear, and then the transistors will be laid into the circuit layer by layer.

But what he didn't expect was that this bionic chip still needed a silk laying machine......

This machine alone distinguishes this bionic chip from ordinary chips.

Although he doesn't quite understand what this thread laying machine is for, he also knows that this kind of equipment must be the key to the production of bionic chips.

"This kind of equipment is the key to our production of bionic chips, because it is related to the laying of Josephson Festival..."

Stephen explained to the two...