Start with a blacksmith shop

Chapter 127 Meritorious Service

Half a month later, he had already used carbon fiber to cover most of the aircraft's shell.

The aircraft mill placed in the workshop has also begun to take shape, just like the one he made in the virtual laboratory.

During this period, the factory construction side was not idle either. The construction time of a steel structure factory was still very fast.

A newly built factory building was taken out and a smelting furnace and supporting equipment were installed inside.

After the furnace was installed, just as he was about to start preparing materials, a series of tools for chip production that he ordered also arrived one after another.

At this moment, he was in a dilemma. He didn't know how to allocate his time.

Aircraft cannot be operated by one person or one company. Even if he is a model aircraft, the situation he faces is the same.

After thinking about it, I decided to prepare the materials for the aircraft model during the daytime.

At night, he mainly works on chip manufacturing in the virtual laboratory.

When he was able to completely pull out the chip in the virtual laboratory, he stopped smelting and preparing materials in reality and turned his head to focus on chips.

I don’t have much understanding of chips now, and I might be able to come up with some new ideas about chips and make some innovations in the process of chip research!

After deciding on his plan, he slumped down and concentrated on preparing the materials.

During the day, he stood in front of various stoves and repeated the operations of preparing materials in the virtual laboratory.

And in the evening, I returned to my temporary hotel and after arranging everything,

Lying on the bed and closing his eyes, he came to a virtual laboratory with a precision of 0.01 micron.

In the laboratory, this time there was no pretense of waving hands to materialize things, but everything was directly materialized.

He thought the waving action was cool at first, but as time went by, he felt that this action could be said to be a cunt action.

Fortunately, there was no one else in the laboratory, otherwise he would have been embarrassed to death.

After all the equipment and raw materials appeared, he walked directly towards the pile of things.

Some of the things in front of him have not even been opened in the box in real life. Of course, he also brought boxes with him in the laboratory.

The boxes were dismantled one by one, and the contents inside were revealed.

A large box of wafers that have been cut,

Next to the wafer lift is a boxy machine, and the nameplate of the machine says Bazhong Micron-level Maskless Lithography Machine.

Then he opened a small box and found a lot of artificial diamonds inside. They were very pure and very large.

The boxes were opened one by one, containing everything related to chip preparation.

Everything is available, except for one thing: the technical content of the machines is not high and they were all mainstream equipment ten or twenty years ago.

After looking at the equipment, the first thing to use is the photolithography machine. This can be said to be the crystallization of modern industry.

Even though this micron-level lithography machine has lagged behind, in the eyes of some lieutenant colonel countries, it is still an out-of-reach equipment.

Liu Xiaodong bought this photolithography machine after it was on the market and couldn't find the photolithography knife he mentioned.

At this time, he, who knew little about chip preparation, finally realized that there was no such thing as a photolithography knife on the market.

In his previous understanding, the chip was actually on the wafer. He would carve the designed circuit diagram on the wafer, and then find a way to install a large number of transistors inside.

So he thought there was such a knife, which was specially used to carve circuit diagrams on wafers.

But after understanding it, he realized how outrageous his understanding was.

It turns out that there is no such thing as a photolithography blade. If the high-energy laser in the photolithography machine is considered a photolithography blade, then it is a photolithography blade.

After that, he also seriously studied everything about chip manufacturing, and also learned about chip design and other things.

First of all, what he needs is a light source that can carve circuit diagrams on the wafer, but he does not have this kind of high-energy laser.

Of course, he also has a method, which is to disassemble the micron-level light source and then modify it himself.

The batch of high-purity artificial diamonds purchased at this time came in handy.

This is the key raw material for upgrading the light source. After a series of cutting and combination of diamonds,

He finally transformed the light source of the micron-level photolithography machine into a thickness of 0.05 micron in his hands after being refracted and aggregated by diamonds.

At this time, the photolithography knife he said he wanted before was born in his hands.

With this photolithography knife, he can do the next thing.

The display held the wafer and looked at it for a while, then took advantage of the fact that the wafer didn't respond and used the photolithography knife to carve on it.

Soon, on the corner of a wafer, he traced the circuit of a chip on the Buddha 14 on it.

After a series of operations on the wafer, after coating and doping, circuit wires and numerous collective tubes were also formed inside the chip.

After his operation, a semi-finished exposed chip was produced. Once it is packaged, the chip is considered completed.

Of course, the chip you got is still a blank chip at this moment. The instruction set has not been programmed into it yet, so it cannot be used yet.

I came to a pair of devices again and found the device that programmed the instruction set. I stuck the chip on it.

Then, prompted by his analytical eye, he started burning the instruction set into the chip.

Holding the programmed chip in his hand, he then came out and removed the original chip on the plane.

After replacing the chip he made, he got into the cockpit of Fo-14 and began to test the chip.

The test results were good. Apart from the fact that the chip he tried to produce had a higher calorific value than the original chip, there was no other functional difference between the chip and the original one.

It seems that this chip generates high heat due to his lack of proficiency. When he becomes proficient in it in the future, he believes that the performance will be even better.

With this attempt, which was neither a success nor a failure, he began his journey of carving circuits on the wafer with a photolithography knife in hand.

And in his hands, the chip is also maturing little by little, making slight progress.

His Analytical Eye plug-in is also reminding him of what is wrong and where to improve.

At the precision of 50 nanometers, the final chip has made great progress compared with the original chip.

Some invalid switches inside the chip were closed and he eliminated them.

With the successful production of one chip, the manufacturing of subsequent chips will be on track.

Then he devoted himself to the process of chip manufacturing, research and development, innovation, thinking, improvement, finalization, and manufacturing.

The flow of time in the laboratory is already very fast now. Two hours is equivalent to one year, and six hours of his one night's sleep is equivalent to six years in the laboratory.

This night, he was able to make many things in the laboratory, especially he could wave things in the laboratory.

After waking up the next day, he went to the factory to smelt new materials. He smelted all the materials used in the model aircraft himself, which was undoubtedly the most time-consuming.

Li Zhenhua devoted himself to the research and development of model aircraft, and other people in the company finally relaxed and were no longer so restless.

After spending a month in this peaceful life, the Antarctic team, which had been setting off for more than a month, finally approached the Kyushu Kunlun Research Station on an icebreaker.

It was at this time that the snowmobile sponsored by Li Zhenhua and the others finally came into use.

For some outing scientific research activities, the preferred way of travel for many scientists is to drive snowmobiles.

In the eyes of scientists, the most useful and popular snowmobile is undoubtedly the one from Kyushu.

For example, today, a team of six people wanted to conduct scientific research outside. Their first choice was the Tengliu snowmobile of the Kyushu mythical beast.

Next is the two-wheeled snowmobile modified from the White Tiger 7-700, which will be eliminated later.

This team was very lucky. When they arrived, no one had applied for a motorcycle to go out.

A total of six people applied for four Tengliu. After that, they loaded all the things they needed into the car and set off.

They completed their mission smoothly that day, but on their way back, a big crack appeared in front of them.

The crack was very wide, more than four meters wide. This crack, which did not exist when they arrived, became a chasm and a roadblock for them to return to the research station.

The crack was too wide, so they had no choice but to look for a smaller break along the crack, but luckily they didn't see the crack shrinking even after running for a long distance.

At this time, one of the team members got off the car and gathered together to discuss the matter. He drove away from the crack on his motorcycle.

After reaching a certain distance, the pair drove towards the crack.

After he pressed the accelerator to the bottom, the engine of the snowmobile exerted its maximum power.

Like a wild horse galloping on the snow, the team member did not let go of the accelerator even after approaching the crack.

The speed had reached 289 kilometers per hour at this moment, and the motorcycle took off at this end of the crack.

It was also a good place for him to choose to take off. The price here was relatively high, and the other end of the crack was lower.

The motorcycle barely descended in the air, passed through a gap more than four meters wide, and hit the edge of the other end heavily.

Then the rush continued and the snowmobile reached the other end of the gap.

After running twenty or thirty meters away, the car stopped under the control of the team members.

The five people who had just started discussing countermeasures looked stunned at this moment.

The five of them thought in their minds at the same time: ‘This is fucking okay? How could such a heavy snowmobile be able to jump over a large crack more than four meters wide? ’

When everyone was thinking this, they also felt angry at the team member's private actions just now.

After a few people scolded the team member, they also discovered that this was indeed a solution.

These scientific researchers, whose average age is over forty, are going crazy at this age.

There will be another update at around eleven o'clock!

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