Blooming America

Although the new processor is very bovinex, Catherine does not intend to use its alternative technology.

Historically, the development history of Intel processors is the history of engineers and forward struggles. In the 20th century, Intel defeated all S manufacturers, including, Sun, LA, and IBM, one and server field. This is the advantage and the value of existence.

The command set can make a lot of things you can't do.

And this is also a stay in Catherine.

Catherine has already licensed some of the patents of some instruction sets, such as the current IBM, and this technology.

GA's new architecture is suitable for, but for Catherine, it will lead to a variety of problems, and some functions in the individual computer are not competent.

Of course, when developing to the future, there must be a change.

But that's not now.

"There is a problem in the process of the process ..."

Catherine is calculated.

The design is probably not a problem, but the problem is above the process.

Now Catherine's process is a 1 micron process, which is 1000 nm technology.

What kind of concept is this technology?

For example, add Catherine to the current technology to create a RE-I7 series, such a RE-I7 core probably like A4 paper so much - relatively, 45 nm RE-I7 core is only nail size. And such RE-I7 even at 100 MHz, its power consumption will exceed 1000W, if it is loaded. That is a great powerful product, which is absolutely amazing.

Relatively speaking, if such a technique is used to make M core, only the M core power consumption of only several watts will also exceed 65W, and the size of the core will reach about 10 * 3 cm.

But at first glance. It seems that I can have the same CPU in the 21st Century.

But although the process is enough. In fact, it is much better, such techniques are not used at all. And now the bottleneck is not a CPU, but a memory and hard drive.

"But if we now design a processor according to a higher level system,

It should be better ... "

Catherine thought this.

For now. Even the core of m, put it in the present, and the existence of all spikes. What's more, it is not a problem with the current technique.

Of course, it is only theoretical, if the memory is not strong, the CPU is another bull x, and the system is also a slag.

Now Catherine faces this dilemma.

"Elsa. How much can we use the latest memory in the market now?"

"Let me check."

Elsa said, gave the things to Pagguan, let the other party to check this.

With a run tuǐ, the job is relaxed.

Pagga Water is now like a CPU's second-level cache. Let the system efficiency improve a grade ...

Opposite the news soon, IBM is now studying a new memory of a single 8MB capacity because they have heard that Capricorn will support up to 32MB of capacity.

"8MB ..."

In the 21st century, who the computer is this memory, the computer, there is already a history of more than ten years.

But for now, this is definitely the most advanced existence.

"Unfortunately, we don't have memory technology, or we can get a 2GB memory. There is no pressure in the next ten years ..."

Catherine is now infinitely wants to get the root memory ...

"So how to use more memory?"

At this time, it is clear that there is no extensive imagination.

"This is simple." Catherine naturally said: "We develop a beautiful system, even 100GB. As long as we think, you can feed ..."

Why is this sentence to be very easy to be spit?

"But this is good. It seems that my computer can use the big memory soon ..."

Catherine smiled while thinking about himself with 32MB of memory ... Well, although the best computer used by her is 1000 times ...

"I want to improve the process, I hope that when I started mass production in Capricorn, we can use 745 nm products ..."

That is the next generation of crafts, if you can use such a product, it is obviously better.

"I think the most important thing is now, or it is better to promote the laptop ..."

Elha proposed his own view.

"If our CPU is high enough, other manufacturers will think of methods to cooperate with our chips, I think this method is actually very nice ..."

Catherine speculated this.

"Hey, don't want it, this matter is not a time." Catherine shook his head, this problem, purely time problem, as long as there is sufficient time, all plans will not be a problem.

"Continue to see ..."

Catherine decided that at this time, the company developed a new way of development.

With the various unreliables of the Pentagon, Catherine feels that their future and plan need some transformation ...

Plenty of time is enough to solve various problems.

For example, Catherine has been thinking about the processor.

As long as there is a time improvement, it is very simple.

When it comes to the production of chips, there is no five or six hundreds of billions to get it. If you change to the 21st century, this is two or three billion, each chip cuts from the silicon wafer, not simple direct produce.

The initial integrated chip is simple, and even simply seems to be different from the toys.

But the chip that truly be used by the CPU. It is not what "toys".

Catherine is now the most worrying about the GA chip, it is easy to say, it seems that it doesn't seem to be difficult, but is it possible to ensure sufficient good quality during production?

this is a problem.

New products have not been seen after all sorts.

Speaking, Catherine's Intel's process, want to produce a product such as a GA core. Something is slightly more difficult than Capricorn.

Intel production. It is not only a one-piece chip, but the later method of Catherine is directly used, that is, the gentleman's wafer, then start a step-by-step processing.

In order to achieve the requirements of the high xìng energy processor. The whole silicon feedstock must be highly pure.

In general, it is a cylinder silicon ingot after purification.

The 21st century Intel used the amount of 300 mm silicon ingot.

After making a silicon ingot and ensures that it is an absolute cylinder, the next step is to slice this cylindrical silicon ingot, the slurry, the more it is, and the processor chip which can be produced naturally can be produced. Slices also have to be treated by mirroring to ensure that the surface is absolutely smooth, then checks whether there is a twisted or other problem. This step is particularly important. It directly determines the quality of the finished chip.

But these are not the most important, can only be said to be a process.

Thereafter, some substances are incorporated into some substances in the new slice, which is the real semiconductor material, and the transistor circuit representative of various logic functions is delayed. The incorporated substance atom enters the gap between the silicon atom. The role of atomic force occurs, thereby causing the silicon feedstock to have a semiconductor.

After the completion of the chemicals is completed, the standard slice is completed. Each of the slice is then placed in a high temperature furnace, and a layer of silicon dioxide film is formed by controlling the heating time.

These steps are unlimited and long processes, not simply can get it.

Catherine's orders for CPU products, must be reservable after three months, it is this reason - and this does not mean that the product can be listed now.

The last step of preparing the work is to cover a photosensitive layer on the silica layer. This layer of substance is used in other control applications in the same layer. This layer of substance has a good photosensitive effect in dryness, and after the light etching process is completed. It can be dissolved and removed by chemical methods.

This is a very complicated step of the current chip manufacturing process. Why do you say this? The light etching process is to engrave the corresponding score in the photosensitive layer using a certain Bō long light. Thereby, the chemical special xìng of the material is changed. This technology is extremely strict for the Bō long requirements for the light used, and the short Bō long ultraviolet rays and large curvatures are used. The etching process is also affected by the stain on the wafer. Each step is a complex and fine process. Designing the amount of data required for each step can be measured with 10GB units. Moreover, it is more than 20 steps to manufacture the etching steps required for each processor. And every layer of etching, if you amplifying a lot of times, you can even complicate with a map of the suburbs of New York City, if you think about it, reduce the entire New York map to the actual area of ​​only 100 square millimeters. On the chip, then how complicated the structure of this chip, it can be seen.

After this process is completed, it is probably able to refer to the semi-finished product.

But this hasn't ended, there are many steps and processes in this, and the next few weeks need to be tested for a coincidence of the wafer, including the electrical special xìng of the wafer, See if there is a logical error, if any, which layer appears in the same level. Then, the chip unit that appears on the wafer will be tested separately to determine if the chip is specially processed.

Then, the entire wafer is cut into a processor chip unit of one **. In the initial test, those that detect unqualified units will be abandoned. These cut chip units will be encapsulated in some way so that it can be successfully inserted into the main board of a certain interface specification.

After the finished product is completed, a full-scale chip function is detected. This portion will produce different grades of products, and some chips have a relatively high run frequency, so the name and number of high frequency products, and those chips relatively low in operation are modified, and other low frequency models are placed. This is the processor positioned in different markets. At least Catherine's and other other chips are like this.

And some processors may have some shortcomings in chip function. For example, it has a defect in the cache function, and they will be blocked with some cache capacity, which reduces the xìng energy, and of course it reduces the price of the product. There is this part of the race in history.

Catherine's craft is not too good, it is impossible to carry out nanoscale manipulation, but this also means that its own product is high - the more refined products are often more prone to problems.

But if you suddenly change the new architecture, the last good rate, Catherine is not guaranteed.

"Hey ... If I can remember the architecture of I7, it can be simple ..."

Catherine's ideas are very beautiful, but reality is cruel.

Speaking, I7 seems to have no practical meaning.

But ... If you use I7 to flick the pentagon, it should be ... no problem?

......! .