Daguo Science and Technology started from the copycat system

"Well, next, I will contact Motorola and try to buy it with around 10 billion. 12 billion or even 13 billion is too exaggerated."

Hearing what Rebus said, Lin Chen nodded slightly and said:

"Well, this matter is entrusted to you, although there is little hope, but try your best to do it.

Every 100 million yuan saved can lead to an extra 100 million R\u0026D expenses, and every 100 million more R\u0026D expenses will make us stronger in the future, so let's do our best. "

"yes."

Rebus nodded slightly again to show he knew.

Seeing this, the moods of the other people at the scene were also different.

Some people feel that the pressure is huge, while some people feel that Sugon Technology is a bit reckless, carrying a big burden that makes it possible to go bankrupt at any time.

But no matter what, they knew that since Lin Chen had made up his mind, he should do his best to do it well.

So no matter what their mentality is, they also decided to go all out.

At this time, Lin Chen turned his head and looked at Li Qianqiang, the sales director who was in charge of Suguang mobile phone sales, and said:

"Has the overseas sales of Sugon mobile phone been completed?"

Rebus and Li Qianqiang were in charge of this matter. During this period of time, Lin Chen had put all his energy on the Shuguang R\u0026D Center, and was using his rich knowledge and the virtual laboratory of the King of Cottage System as the R\u0026D center. Solve many puzzles.

Therefore, it is not clear what the specific situation of Sugon's overseas sales of mobile phones is, and which country it is going to sell first.

"Currently, Sugon's mobile phone sales license in overseas countries has been approved, and overseas dealers have also been found. Our sales department is planning to officially sell it on March 25 after advertising in overseas markets."

"Is it like this?"

Lin Chen nodded slightly in approval.

This mobile phone can’t be sold abroad if you want to sell it abroad. If you want to sell it abroad, you must obtain a sales license and corresponding certificates from that country.

Therefore, although Sugon Technology has released the Sugon F1 mobile phone and Sugon A1 puls mobile phone early, with the progress of those foreign offices, it is not too late to spend more than a month to get the sales license and corresponding certificates.

"Rebs, I'll leave this matter to you. Sugon's overseas sales are related to whether we can be favored by the bank, and then decide whether to lend us money to buy a chip factory, so you have to do your best in this matter."

"Well, I see."

Rebus nodded slightly in agreement.

Seeing this, Lin Chen nodded slightly and fell into deep thought.

Now that it has decided to buy a chip factory with a loan, it has to make an early decision on what process technology Sugon's mobile phone chips will use next.

First of all, according to the external market conditions, the Texas Instruments mobile phone processor OMAP1710, which adopted the OMAP 1 architecture, was officially released at the beginning of this year, which uses the latest 90-nanometer process technology.

Among them, the OMAP1710 processor is the upgraded version of the OMAP710 mobile phone processor of the current Sugon F1 mobile phone and Sugon A1 puls.

If OMAP710 is just a first-generation product that has just been born, and its performance is weak and its functions are not perfect, then OMAP1710 is a formally perfect product with super performance.

Historically, Nokia has been fond of using this processor, and there are dozens of mobile phone models using this processor.

For example, Nokia 6630, 6680, 6681, E50, E60, E61, E62, E65, E70, N70, N71, N72, N73, N80, N90, N91 and N92, so this processor is really quite classic.

Among them, the OMAP1710 mobile phone processor uses a 90-nanometer process technology, which is actually quite advanced in the current era.

Because the world's most advanced process technology capable of small-scale mass production is only 90 nanometers, and the official breakthrough time of 90 nanometers in Bay Island TSMC is also the beginning of this March.

As for the birth of the next-generation 65-nanometer process technology, it will have to wait until 2005.

Therefore, the 90-nanometer process technology adopted by this OMAP1710 processor is actually very advanced, and the 90-nanometer process technology will also be the mainstream in the next year or two.

But it is a pity that Sugon Technology has no way to obtain this 90-nanometer process technology, because as a 90-nanometer process technology that officially announced a breakthrough and small-scale mass production this year, its production cost is too high.

Announcing a breakthrough and being able to mass-produce on a small scale does not mean that it can be mass-produced. Small-scale mass production and mass production are different concepts.

Because small-scale mass production means super high production costs, and super high production costs mean huge losses.

The reason for the loss is the yield rate problem. It is a joke to mass-produce before the yield rate problem is solved.

Waiting for the 90nm process technology to solve the problem of yield rate, according to common sense, there is no hope for half a year or even a year.

The history of later generations is also the same. Although 90 nanometers made a breakthrough in 2003 and were able to be mass-produced on a small scale.

But in fact, in the second half of 2003, 90-nanometer processors were not mainstream, because 90-nanometer processors were too expensive.

It will be 2004 and 2005 when the 90nm process technology will be mass-produced.

Therefore, it is not a wise choice to use 90nm process technology to develop mobile phone chips. First, even if 90nm is designed, the production capacity cannot keep up with the demand of Sugon Technology.

Second, the price of production is too expensive, which is not affordable by consumers.

If Sugon Technology really wants to adopt 90nm process technology, it is normal for the purchase price of a single chip to exceed 700 yuan.

Therefore, although the 90-nanometer process technology is very advanced, Sugon Technology is really unaffordable, unsuitable, and unnecessary, and it is estimated that it will be very difficult to use.

Although the wool comes from the sheep, Sugon Technology can transfer the cost of expensive chips to consumers.

But consumers are not fools. Why would they buy a mobile phone that costs so much?

In this case, Sugon Technology has only two options. First, it should either use the previous generation’s 130nm process technology to develop mobile phone chips, or use the previous generation’s mature 180nm process technology to develop mobile phone chips.

"What is the process technology of Motorola's chip factory in Tianjin?"

Lin Chen asked about Rebus.

Regarding this, Rebs pondered for a moment and said:

"They are currently able to mass-produce 350nm and 180nm. Although they also have a 130nm chip production line, they cannot mass-produce due to the yield rate."

Hearing this, Lin Chen put his hand on his chin and fell into deep thought, and soon made a decision:

"In this case, let's use the 130nm process technology to develop chips in the future."

Lin Chen finally expressed his decision.

Although the gap between 130nm and 90nm is too big, it seems impossible for Sugon mobile phone chips to defeat the 90nm OMAP1710 with 130nm, but how do you know if you don’t try?