Hand rubbing nuclear fusion live in the wilderness

Chapter 404 A carbon-based chip that can control the human body

Break the threshold of lithography machines, let everyone have some advantages, and then fight on this road. This is the road arranged by Won.

Because whether it is the overall civilization and technology, or the development of the economy, it is actually inseparable from competition.

Technology and economy without competition can only be a pool of stagnant water.

For example, the reason why human science and technology developed so fast during World War I and World War II was because of demand and stimulation.

Or the reason why Huaguo introduced the catfish Tesla in the first place was to stir up the stagnant water of domestic new energy vehicles.

To prevent everyone from cheating insurance and money.

Now it seems that after this super catfish enters the water, the effect is still obvious.

At least the development of domestic new energy vehicles is quite fast.

It's not that he is not partial, but once a monopoly company or state-owned enterprise appears in a certain industry, the development of this industry will slow down or stagnate.

Even reverse development is not out of the question.

Han Yuan has now turned his attention to the vast sea of ​​stars. With this system, everything is possible.

After copying the computer program and database, Han Yuan came to the clean room where the lithography machine is stored.

This is the only Class [-] clean room that was established at the beginning, and the ground is covered with shock-absorbing equipment, which is used to store equipment such as photolithography machines that have extremely high environmental requirements.

Won is not going to dismantle it, he plans to transform this millimeter-scale lithography machine after the second [-]nm silicon-based chip lithography machine is completed.

Adjust its precision to make other chips.

After all, there are more than one type of chips. In addition to integrated circuit chips in mobile phones and computers, there are also discrete device chips, sensor chips, and optoelectronic chips.

Integrated chips have the highest requirements for precision, followed by others.

The lithography machine he developed is multi-functional. Although it is mainly used to process integrated chips in computer equipment, it can also be used for other purposes. It only needs a simple modification.

In addition, the tenth-level dust-free studio is not suitable for storing higher-precision lithography machines, and the environment does not meet the requirements.

The storage of the [-]-nanometer silicon-based chip lithography machine and the [-]-nanometer carbon-based chip lithography machine in the back requires won to rebuild a new dust-free clean room.

Upgrading lithography machines and integrated chips is done in two steps.

The first step is to manufacture [-]nm silicon-based chips and supporting lithography equipment and construction equipment, and then combine the manufactured chips into a new central computer.

This step didn't take Won too long.

Whether it is an upgrade of the existing millimeter-level lithography machine, or re-burning a new chip, for him, it is something that has already been done, and it will be easy to do it the second time.

What's more, he has completed the circuit diagram of the chip in his hand, and it can be burned very quickly with the current industrial equipment.

What took a little time was the construction of the dust-free and knot-cleaning studio.

This step takes more time than making lithography machines and chips.

Fortunately, the intelligence of chimpanzees and bonobos has improved a lot after long-term training in animal domestication skills, which can help a lot in building construction.

Otherwise, the construction of the dust-free and clean knot studio alone would cost several months.

It took about [-] days for Won to complete the first round of upgrades to the lithography machine and chips.

After the new integrated chip computer was manufactured and the corresponding system was installed, Han Yuan directly connected the storage disk used to back up various programs and databases to the computer.

This is why he spent some time organizing and packaging various programs and data before.

The programs and systems he uses are all written in a special encoding method in ternary, which is somewhat different from the real world.

The biggest manifestation is that these programs can be packaged and transferred directly. After arriving on a new computer, you only need to unpack them and use them directly.

This is somewhat similar to a 'compressed package'.

It's as if your friend compressed some files for you, and you can open and use them directly after decompression, simple.

In addition to the simplicity of the program, another key point is that Xiaoqi, the artificial intelligence housekeeper in the Taishan base in Huaguo, can also help with these.

At this stage, the satellites sent to the sky have covered more than 80.00% of the entire simulated planet, and the Taishan base has also realized real-time communication with the Amazon rainforest base.

In this way, Xiaoqi can remotely control computers and other electronic equipment through satellites. After all, the computer language used in the Taishan base is the same as the ternary underlying code written by Korean Won.

This can help a lot.

Of course, the premise is to write corresponding functional modules and databases for it.

After the new integrated chip computer was manufactured and various programs were deployed, Won debugged and checked the performance of the new computer.

The new integrated chip computer is still deployed in the original computer room. As for the previous millimeter-scale chip computer, it has been dismantled and transferred to the collection room as a collection.

After all, this thing cannot be compared with a lithography machine.

Even if the precision of the lithography machine is outdated, it can still be used to burn chips for other functions after modifying some parts.

What's more, this computer has been used for two or three years and can be retired with honor.

The performance of the new nano-scale integrated chip computer is far superior to that of the original 'millimeter-scale chip' integrated computer.

Both the floating point operation speed and the program response speed have been improved by thousands of times.

This is not an exaggeration, millimeter-scale chips to nano-scale chips have a great impact on the performance of computers, it can be said that one is in the sky and the other is in the ground.

The previous millimeter-scale integrated chip computer was also tested by Korean Won. Even with dozens of functional chips superimposed, its performance is similar to that of a laptop computer used by ordinary people.

Now, although the number of chips in this nanometer-scale integrated chip computer is much larger, its performance is also more powerful.

Won has checked that the floating-point operation speed of this computer has reached 200TFlops, which is 200 trillion floating-point operations per second.

This data is equivalent to the supercomputer built by Huaguo in 12.

However, ten years later, this data cannot even be compared with a small supercomputer.

要知道2016年上市的GTX1080显卡，就已经能可以达到8.8-9TFlops（9万亿次浮点运算)单精度浮点计算能力。

The GTX1080TI has reached 11.5TFlops (11.5 trillion floating-point operations) capacity.

It can be seen that in the 21st century, the performance of computers has developed rapidly.

In fact, if the carbon-based chip hadn't been broadcast live, Han Yuan would be sure to raise the performance of the central computer to the level of a supercomputer in the next upgrade, even to the top level.

And that's not to brag, it wasn't hard for him.

Whether it is a hardware or software system, he has enough ability to make and write it.

If it is difficult, the most difficult part is the time spent on the overall construction.

After all, for a supercomputer, the number of chips alone is an astronomical figure.

In 18, the School of Computer Science at the University of Manchester built the world's largest "simulated brain".

And this simulated brain supercomputer has 100 million processor cores and 1200 interconnecting circuit boards.

This is just one academy.

If it is replaced by a big country like China or the United States, it will be built.

Its chip (CPU) quantity is more.

For example, the "Apex Supercomputer", which was once ranked No. 20 in the United States, has a peak floating-point calculation speed of 240 billion billion operations per second, and the number of processor cores has reached [-] million.

Huaguo's supercomputer 'Tianhe' ranked third in the world during the same period, with a total of 32000 Ivy Bridge processors and 48000 Xeon Phi, with a total of 312 million computing cores.

It can be said that today's supercomputers are fighting for the number of CPUs and cores.

Won knows about this point, mainly because it is too difficult to increase the frequency of silicon-based chips, and can only rely on multi-core to improve the overall performance of the computer.

And to build such a supercomputer, even if the core technology is mastered, it will take a lot of time.

That's why South Korea wants to take out carbon-based chips, and use the better performance of carbon-based chips to make up for this vacancy.

After all, the computer he is using now is in the form of a central computer.

That is to say, there is only one computer in the entire base, and all data calculations are carried out on it. If the performance is not powerful enough, it will not be able to support it at all.

The establishment of the nano-scale integrated chip computer, the deployment of related programs, and the completion of the final test took a total of 65 days and more than two months.

This progress is not slow but not fast, but it is still planned and arranged.

After the central computer is assembled, Won will start the next step of 'materials needed to produce carbon-based chips' non-stop.

After all, the time he reserved for himself was only about five months, and now more than two months have passed.

For the remaining three months, he will not only produce the materials needed to manufacture carbon-based chips, but also manufacture the photolithography machines and photoresist equipment needed for the production of carbon-based chips. Assembling and testing new types of computers.

On the whole, the time is still quite tight.

Fortunately, when the overall industrial equipment was upgraded last time, Han Yuan considered the shortage of manpower and added control chips to most of the industrial equipment.

Although millimeter-level control chips are used, as long as there is this chip, it can be controlled remotely through a computer.

In reserving this function at the beginning, Han Yuan considered Xiao Qi's support.

So as long as the real-time communication between the Taishan base and the Amazon rainforest base is established, Xiaoqi can help him process some data and control some equipment through satellites.

Having an AI help, although not comprehensive, can save a lot of time.

In the chemical laboratory, Won is preparing the equipment and materials needed to make graphene.

After the relevant equipment and materials were ready, Han Yuan pulled the shooting ball suspended in one piece.

"The first upgrade of the lithography machine has been completed, and the [-]-nanometer chip has also been applied to the new central computer."

"Now I'm going to start dealing with materials related to carbon-based chips. Everyone must have been waiting for this step for a long time."

Hearing this, the barrage in the live broadcast room instantly went up.

[Five years, five full years!Do you know how I got here in the past five years? 】

[Don't talk nonsense, just start and finish! 】

[From now on, it will be carbon-based organisms vs silicon-based organisms. 】

[Materials for carbon-based chips: graphene, carbon nanotubes, what else? 】

[There are also carbon nanofibers, nanocarbon spheres, and silicon carbide materials. I remember the anchor said these before. 】

[The mass production of these materials seems to be relatively difficult. I remember that no country has found a simple mass production technology for graphene until now. 】

[Graphene can be used in many ways, not only carbon-based chips, but also graphene batteries, graphene flexible displays, graphene materials for seawater desalination, hydrogen storage, photosensitive elements, composite materials, and so on. 】

[I just went to Baidu and found that graphene is used to accelerate the osteogenic differentiation of human bone marrow mesenchymal stem cells, and can also be used to make biosensors of epitaxial graphene on silicon carbide. Does this mean that graphene is made? Carbon-based chips can be used in the human body? 】

[Biochip? 】

[Carbon-based chips are not biochips, right? 】

[No, carbon-based chips have nothing to do with biochips. Biochips are a general term for a series of chips including gene chips, protein chips, cell chips, and tissue chips. 】

[In addition, according to different principles, there are element-type microarray cores. The expression profile gene chip is a gene chip used for gene function research. It is currently a relatively mature technology and the most widely used gene chip. 】

[Can carbon-based chips be implanted in the human body? 】

[Can't you? 】

After someone mentioned biochips, discussions on materials such as carbon-based chips and graphene immediately became hot in the live broadcast room.

Silicon-based chips, carbon-based chips, biochips, these topics have always been a good place to gossip or compare, after all, ordinary people can understand very little.

Han Yuan looked at the barrage and didn't say anything.

There is a huge difference between carbon-based chips and biochips, which is for sure.

But to a certain extent, carbon-based chips can be implanted in the human body.

Moreover, compared with silicon-based chips, the human body does not reject carbon-based chips, nor does it have such a strong rejection reaction.

In addition, Won learned from the "carbon-based integrated circuit board preparation information" that through some special means, modify the external terminal of the carbon-based chip, some current sensing methods and add a set of biological current controllers.

Carbon-based chips can control the organs or limbs of the human body, even if the person's brain is normal and the biological neural network is normal.

It can even induce hallucinations and generate false memories through electromagnetic signals and bioelectric currents.

Won is not going to introduce these things, nor is he going to announce them.

Although countries in the future may develop their own research and development, it will take a long time, and if no one reminds them, it is estimated that countries will have to wait until they have completely entered space if they have to explore this area.

Because there are two needed materials that are not available on Earth.

(End of this chapter)