The passionate years starting from the college entrance examination

"Okay, Lao Chen, I got it, let's take off now!"

Xue Jinquan responded without looking back.

He was also looking at the monitor, because at this time only the lens mounted on the drone could allow him to see clearly what was ahead.

The drone is currently equipped with three fixed cameras and a main camera that can rotate.

It is currently flying at an altitude of 300 meters, and it looks like a relatively large behemoth. I believe those birds will not be tempted to attack it, right?

Especially medium-sized birds of prey like the peregrine falcon, which is one of the birds most likely to attack a drone.

The same goes for birds like eagles.

"Guohua, why are you here today? I've been looking for you for a long time."

Outside the tent of the off-road vehicle, Qiu Zongyue poked his head in, his face full of curiosity.

When Chen Guohua heard this, he immediately stood up with a smile and said:

"Leader, why did you find yourself here? Is there something urgent?"

He really didn't expect Qiu Zongyue to come after him at the base. After all, there didn't seem to be any major events recently, right?

It was rare that today was a good day, so he brought the researchers to the base for testing.

However, now it seems that he cannot participate in the test all the time.

Qiu Zongyue took Chen Guohua away in the woods not far away. Except for the guards and Long Kanghou, there was no one else nearby.

The two stood chatting. Chen Guohua was quite surprised as he listened to Qiu Zongyue's statement about the quantity of photolithography machines ordered and the funds received.

Including Texas Instruments, Cray Corporation, Siemens, Steward Walker, Sony and other electronic product-related companies, they have all ordered photolithography machines.

They all paid for the goods, and they seemed not to be afraid that China Resources would not deliver the goods, or that the photolithography machines provided by China Resources would be substandard.

In fact, before they placed the order, they did not understand what the proximity lithography machine Chen Guohua wanted to sell looked like.

In terms of yield rate, as long as there are skilled workers, the yield rate can definitely be maintained at over 93%.

Brother units such as 985 Factory have used such a photolithography machine in the past few years, and the yield rate is above this.

And this photolithography machine can also produce chips with 10,000 transistors built in, or even 50,000 transistor chips, if they have such technology and technology.

The chip needs to be designed, and it also needs matching ion implantation equipment. It does not mean that having a photolithography machine can prepare the corresponding chip.

As we all know, the chip production process has four major steps: chip design, wafer manufacturing, manufacturing and processing, and packaging and testing.

The first step is the design of the chip. This is one of the very important process technologies and a very critical step.

Designers need to use professional software tools to draw the circuit diagram and layout of the chip based on the chip's function, performance, power consumption and other requirements for simulation, verification and optimization.

At this point in time in the 1960s, haha, this step was omitted by many people.

why?

Because there were not many electronic products at this time, whether it was the chips in computer microprocessors or the chips in memory, they were all very similar.

In other words, they did not break down these issues at all.

Zhenhua Research Institute has made these clear from the beginning, so it has already carried out chip optimization design at the memory level.

Regarding this point, IBM also learned about the differences from Huayue calculators and Huaxin radios.

However, due to technical barriers and the lack of application for such a technology patent, they did not pay close attention to it.

There are also digital signal processing chips, which also lack the corresponding theoretical foundation and technology. Therefore, IBM's Winkelman and chief technical expert McDowell, as well as Cray's Halifax and Edbei Special people are still having a headache on how to break through these technologies.

Secondly, among the products developed by Zhenhua Research Institute, the technology and craftsmanship are relatively backward. Flash memory technology is not even used, and the bytes in the memory chips are pitifully few.

For example, the Ping Pong arcade machine launched for display in June had only 128 bytes of random access memory and 6,000 bytes of random access memory.

Therefore, its chip design process does not seem to be much different from IBM's chip design process.

After all, the memory bytes are too few and there is no overwhelming advantage.

Of course, memories such as magnetic core boards that were popular a few years ago are already outdated. After all, the technology and technology between the two are not in the same era.

Computers need to be reduced in size, rather than continuing to be the big house-like computers of the past.

The second step is wafer fabrication, which is the most time-consuming stage.

Wafer is the basic raw material for chips. It is a circular thin sheet made of single crystal silicon or other semiconductor materials.

Its manufacturing process involves several sub-steps such as casting, cutting, and surface polishing.

This step is also time-consuming and will also increase the cost of the chip.

After all, labor costs in other regions such as North America are very high, and the labor costs in the mainland are really advantageous.

The third step is manufacturing processing, which is the core part of chip manufacturing.

Manufacturing processing is mainly used to complete the manufacturing of the basic components in integrated circuits, that is, transistors.

As the core part, the entire process includes steps such as cleaning the wafer, oxidation, conductive metal deposition, photolithography and etching.

Depending on the technology of different eras, there will be different process differences. Among them, the two core equipments of ion implantation equipment and photolithography machines have to be mentioned.

As we all know, ion implantation equipment is the most critical process technology in the semiconductor manufacturing process. By controlling the energy and dose of the ion beam, the properties and structure of the material can be changed.

To explain in more detail, impurity elements are added to the silicon wafer to change the chemical properties of the wafer substrate material, including carrier concentration and conductivity type. However, the impurity injection will cause lattice damage, which requires an annealing process to repair it. The silicon lattice activates the doped transistor.

The entire ion implantation process consists of ion source, ion accelerator, ion mass analyzer and scanning system.

These steps are no longer a rare technology abroad.

As early as 1950, North Americans Russell Orr and William Shockley had invented the ion implantation process, and the latter had applied for this invention in 1954. patent.

Therefore, ion implantation is also the earliest semiconductor doping method used. Together with another doping method, it has become the second basic process of chip manufacturing.

In 1956, a North American researcher named Fuller invented the diffusion process.

Ion implantation is used to form shallower semiconductor junctions, and diffusion is used to form deeper semiconductor junctions.

These two doping processes are like adding seasonings to stir-fry. They are "adding oil and vinegar" to semiconductor materials.

A small amount of other substances are mixed into a very pure semiconductor material, making it impure. For semiconductor materials, other substances are impurities, and the incorporation process is called doping.

Doping is the process of adding a certain amount of other substances into semiconductor materials to artificially change the electrical properties of semiconductor materials.

In addition to ion implantation equipment, there is also a photolithography machine.

But before mentioning the lithography machine, we have to talk about the difference between junction field effect transistors and metal oxide semiconductor field effect transistors.

In the original history of time and space, in 1959, Korean scientists Jiang Daewon and Martin Atala of Bell Labs invented the metal oxide semiconductor field effect transistor.

This was the first truly compact and the first transistor that could be miniaturized and actually produced, as it could replace most junction field effect transistors and had a profound impact on the development of the electronics industry.

In this time and space, Chen Guohua invented such a transistor earlier than the other party, but not by many days earlier.

Therefore, in 1959, after Chen Guohua developed the transistor computer, he started the development of transistor size reduction technology.

As everyone knows, a voltage-controlled field-effect transistor is a transistor that uses electric field effects to change the electrical properties of the device.

Mainly used to amplify weak signals, mainly wireless signals, and amplify analog and digital signals.

At the same time, it is divided into junction field effect transistor and metal oxide semiconductor field effect transistor, both of which are mainly used in integrated circuits and are very similar in working principles.

Among them, junction field effect transistor is the simplest field effect transistor, in which current can flow from source to drain or from drain to source.

The metal oxide semiconductor field effect transistor is a four-terminal semiconductor field effect transistor made of thyristor oxidation. The applied voltage determines the conductivity of the device.

Playing a vital role in integrated circuits due to their high input impedance, they are mainly used in power amplifiers and switches. As functional components, metal oxide semiconductor field effect transistors are also very important in embedded system design.

The difference between the two is that junction field effect transistors can only work in depletion mode, while metal oxide semiconductor field effect transistors can work in depletion mode and enhancement mode.

In addition, the high input impedance of the junction field effect transistor is about 1010 ohms, which makes it sensitive to input voltage signals.

Metal-oxide-semiconductor field-effect transistors offer higher input impedance than junction field-effect transistors, thanks to the metal-oxide insulator, making them more resistive at the gate end.

Simply put, compared with junction field effect transistors, the advantages of metal oxide semiconductor field effect transistors are higher voltage resistance, smaller leakage current, and larger input impedance.

So no matter what, the two have similar electrical characteristics, but the metal oxide semiconductor field effect transistor has better performance in most aspects and is the preferred device for circuit upgrades!

Next is the photolithography process, which is the soul technology of chip manufacturing.

In the history of the original time and space, in 16, Noyce, Gordon Moore and other eight people from Fairchild Semiconductor Company rebelled and purchased three mm lenses from a camera store.

They built a step-and-repeat photography device to create masks, and improved the mask and photoresist.

This is the original single transistor manufacturing process.

Many transistors sold by China Resources are manufactured using this process.

Of course, the subsequent micron-level transistors manufactured by Zhenhua Research Institute naturally used other processes, not such crude processes.

In the history of the original space and time, Robert Noyce of Fairchild Semiconductor proposed a technical idea in 1959:

“If you can use photolithography to make individual transistors, why can’t you use photolithography to make transistors in batches?”

“Putting multiple components on a single silicon wafer will enable interconnection of the components in the process, which will reduce the size and weight and reduce the price.”

Therefore, Fairchild Semiconductor began to try to apply the photolithography process to mass manufacturing of transistors.

To this end, Robert Noyce also proposed the idea of ​​flat technology.

Later, Joan Herni in Fairchild Semiconductor's Eight Rebellions invented the optical etching method and realized Noyce's planar technology.

This method is somewhat similar to the process of developing photos from negative film.

First, Joan Herni used a piece of germanium or silicon, and then he sprayed it with a layer of a substance called photoresist.

If you shine light on it, the photoresist becomes hard, and then a special chemical can be used to remove the photoresist that was not hit by the light.

So Hurney created a photomask, which was like a negative with a cluster of small holes on it to filter out the dirty stuff, and then let it flip in the light.

After chemical cleaning, as long as the photoresist is left on the metal plate, impurities will not scatter below, thereby solving the reliability problem of planar transistors.

Judging from the development history of lithography machines, in the early 1960s, it was a contact lithography machine, which was the shielding lithography machine first developed by Noyce and his colleagues.

This thing was abandoned by Chen Guohua, and then picked up by Min Naida and Wu Jikang of the Institute of Computer Science, Chinese Academy of Sciences, but in the end it was abandoned as a backward technology.

Previously, when Chen Guohua arranged for Lin Zhiwu and other chip engineers to prepare 500 transistor chips, they used proximity lithography machines.

Historically, proximity lithography machines were a lithography process that only came out in the late 1960s and early 1970s.

Then came the projection lithography machines in the mid-to-late 1970s, then the stepper lithography machines in the 1980s, and then to the stepper scanning lithography machines, immersion lithography machines and deep ultraviolet lithography machines. .

This is a photolithography machine, but chip manufacturing does not only require a few transistors, but hopes to integrate more transistor circuits.

In the original history of time and space, in 1962, Steven Hofstein and Frederic Hyman of the North American Radio Company developed a mass-produced metal oxide semiconductor field-effect transistor.

And using experimental sixteen metal oxide semiconductor field effect transistors integrated into one chip, this is the world's first truly metal oxide semiconductor field effect integrated circuit.

In other words, in this time and space of 1962, it was possible to use photolithography machines and other equipment to produce five thousand transistor integrated circuit chips, which was far beyond the capabilities of the original time and space.

In addition to this metal oxide semiconductor field effect integrated circuit, there is also a complementary metal oxide semiconductor field effect circuit technology.

This complementary circuit technology is the basis of large-scale integrated circuits. More than 95% of integrated circuit chips in later generations are manufactured based on this technology.

The fourth step is packaging and testing. This kind of process is certainly available in North America, but which company has the best chip technology?

Now it seems that it is naturally the Zhenhua Research Institute in Beijing.

From the above technical description, it is not difficult to see the status of the photolithography machine in the entire chip manufacturing process.

That's the core of the core.

This is why China Resources' transistors and chips were so expensive before, comparable to sky-high prices, and why IBM, Cray and other companies footed the bill.

This is also the reason why Cray, Texas Instruments, and Sony frantically paid directly to buy lithography machines without knowing the specific performance, yield rate, etc.

Just because the technology is too complex and the craftsmanship is too important.

As we all know, the products launched by China Resources are never defective, and are all high-quality products.

Based on this reputation, Raymond was the first to step up and pay for the purchase, and he became the rat shit that disrupted the market.

Although Felix, Frazier and others wanted to shut up Raymond, the scene at that time did not allow them to think so much.

People are all products of their environment.

In such an atmosphere, it is impossible for a person's brain to have too much rationality. He will soon be overwhelmed by the atmosphere, and then his head will get hot and he will place an order directly.

In later generations, those who understand applause will bring people into an atmosphere of 'bliss' in a huge atmosphere.

It's like they all feel that everyone should succeed and can succeed immediately.

If you give tens of thousands of yuan, you can instantly turn it into hundreds of thousands, or even hundreds or tens of millions.

But there is no such thing as a good thing in heaven?

The news came back from Hong Kong Island that Cray Company had ordered a total of 58 photolithography machines, with a total cost of 1.16 billion US dollars.

Exaggerated to the extreme.

It also shows how rich these capitalists are.

"Leader, have they really given all this money to us?"

After listening, Chen Guohua looked at Qiu Zongyue in surprise, who was still dancing with excitement.

Before, when Qiu Zongyue reported his work to Mr. Wu and other leaders, he didn't show too much excitement.

But when facing Chen Guohua, he was not so restrained.

In other words, he acted like a child, very excited.

"Of course, they must have given us the money. Comrade Liu Guanzhong has responded to this many times."

"Furthermore, he has already set off for Baiyun City and should be able to arrive in the capital this evening."

Qiu Zongyue said with great certainty.

This is US$1.16 billion, which is the largest single fund China Resources has ever received so far.

Although these funds are not obtained from one person.

But it was still the highest revenue that China Resources had ever achieved since its establishment on Hong Kong Island.

It can even be said to be the highest single-day transaction amount since the opening of Hong Kong Island.

With such a huge amount of money, even though Liu Guanzhong was well-informed, it was inevitable that he would be excited and ecstatic.

It is not surprising that Qiu Zongyue behaved like this.

When Chen Guohua heard this, he immediately grinned:

"Haha, we were worried that we would not be able to achieve this goal with the US$1.5 billion in the first half of the year. How many days have passed?"

In response, Qiu Zongyue also slapped Chen Guohua on the shoulder:

"Guohua, we should all thank you. Without your intelligence, we would not have such a high income."

I was worried a few days ago, but now I am overjoyed, and can even be described as ecstatic.

Because with the addition of this 1.16 billion US dollars, from New Year's Day to now, the overall revenue of Zhenhua Research Institute has exceeded 1.5 billion US dollars, directly reaching 1.7 billion US dollars.

The previous revenue was more than 500 million, so adding the two together, it is 1.7 billion US dollars. So from now until December 31st, making more than 1.2 billion US dollars should not be a big problem, right?

"The leaders all praised you and they were very happy."

After hearing Qiu Zongyue's words, Chen Guohua said modestly:

"I didn't do anything. I just made some suggestions. It's not worth mentioning. It's not worth mentioning."

The former burst into laughter. Of course he knew that Chen Guohua was a very humble person.

And also very smart.

Qiu Zongyue was very happy to communicate with such people.

After being happy, the topic quickly shifted to the next manufacturing of photolithography machines. Qiu Zongyue asked Chen Guohua if he wanted to go to 985 Factory and other sister units for guidance?

In the end, Chen Guohua shook his head and said:

"Leader, do you still remember those outdated lithography machines we manufactured before?"

"Before, you never wanted our Zhenhua Research Institute to manufacture so many lithography machines. Haha, now do you know what these lithography machines should be used for?"

"Just dismantle the scanning electron microscope and other parts and reassemble them."

As everyone knows, scanning electron microscopes have been standard equipment for photolithography machines since the 1980s and 1990s.

However, the lithography machines of this era still use other optical components, not such advanced gadgets.

It is estimated that companies such as Fairchild Semiconductor and IBM have not thought of advanced optical components such as scanning electron microscopes.

Because only in this way, the chip manufacturing process will be more convenient and faster, with higher accuracy and better yield rate.

Just like cell research, if one is a camera and the other is a microscope, the observation results of the two are definitely different.

"Is this really possible? Won't they find out that this is an old and worn-out machine?"

Qiu Zongyue was very confused about this, but Chen Guohua gave him a blank look and said:

"Leader, it's not like you've never been in our clean room. It's a dust-free workshop. What do you think is old and shabby about it?"

"Our engineers perform technical maintenance on the lithography machine every day. How could we let it become old and worn-out?"

The photolithography machine is very fragile and cannot be contaminated by outside air. Even if it is placed in a dust-free workshop, it must be protected repeatedly.

Therefore, there is no such thing as being old and shabby at all, and photolithography machines are very complex mechanical equipment, covering various components such as optical components. It is impossible for such a situation to occur.

As long as there is a slight problem with a component, haha, it will stop working immediately.

When Qiu Zongyue heard this, he immediately smiled awkwardly, but he was still a little hesitant.

After all, will selling such equipment to others damage the reputation of China Resources?

"Leader, how else can you tell me when we can quickly complete this order? This is fifty-eight photolithography machines."

Chen Guohua rolled his eyes again and continued:

"I would say that our Zhenhua Research Institute should also establish a photolithography machine production factory, as well as optical instrument manufacturing factories and other upstream component suppliers."

"This is a large industrial cluster. In the future, exporting lithography machines will be a normalized economy."

Lithography machines in later generations are becoming more and more complex. In other words, the deep ultraviolet lithography machines developed by Zhenhua Research Institute are already very complex.

Nowadays, only Zhenhua Research Institute has such R&D capabilities, while brother units such as Factory 985, Factory 5341, and Factory 107 only have manufacturing capabilities.

Therefore, if we don't pay attention to it now, Chen Guohua feels that these advantages will most likely be lost in a short period of time.

Qiu Zongyue understood instantly:

"Tell me, what are your plans?"

Chen Guohua suddenly laughed and said:

"The leader still understands me!"

Then he made a targeted suggestion, or a big plan that he had already planned.

The manufacturing industry needs to develop, and seeds are naturally indispensable.

But with the launch of the four major projects of artificial satellites, missiles, nuclear submarines and hydrogen bombs, as well as the US$3 billion mission target of Zhenhua Research Institute, Chen Guohua also launched a manufacturing development plan.

Earlier, he had given the technology related to photolithography machines to 985 Factory and other sister units.

This is part of the seed program.

In this time and space, Helu stepped down early.

Kennedy also received the lunch box in advance, which made a big difference in everything.

Therefore, Chen Guohua felt that it was necessary for him to be a little bolder and come up with the manufacturing plan first.

The most important thing is the current hook of US$1.16 billion, which is definitely the best catalyst.

With such a catalyst, Chen Guohua felt that the higher authorities would definitely not deny his manufacturing plan.

In the entire manufacturing plan, photolithography machines are only one part of it, and other industries cannot yet develop.

The lithography machine represents an industrial chain, and its upstream requires manufacturers of light sources, lenses, motion systems, photoresists, masks and other components.

There are also manufacturers of excimer lasers and scanning electron microscopes mentioned by Chen Guohua before.

Just these alone can be used to build many factories.

"I know all about lasers. As for lenses, can't local factories such as Jingcheng Optical Instrument Factory and Northwest Optical Instrument Factory produce them?"

After listening to Chen Guohua's words, Qiu Zongyue immediately raised his doubts.

The former immediately said:

"The technology can be provided to them, but leaders, what about keeping the technology confidential? Should we set up another surveillance camera production factory? Otherwise, with so many factories, we want to prevent those factories from leaking technology and monitoring equipment to the greatest extent. It definitely needs to be arranged.”

"That's why I proposed to build another industrial park near our Yao Ling Zero Factory, Yao Ling Yao Factory and Yao Ling 2 Factory."

“Only centralized management can eliminate the possibility of technology leakage to the greatest extent.”

"As for whether it is necessary to turn these factories into military-industrial enterprises, that depends on the considerations of your leaders."

In fact, there are many benefits to building industrial parks, such as the advantages of industrial clusters, easier cooperation, etc.

It's almost like Moscow's Semiconductor City, but different.

However, based on the current situation, Chen Guohua feels that it is really possible for the authorities to turn this industrial park into a satellite city.

Kindergartens, nurseries, hospitals, canteens, supply and marketing cooperatives, etc. will definitely be built there.

Of course, these are not problems for Chen Guohua.

On the contrary, once a satellite city is established, it will be very difficult to dismantle it later.

Because these industries require a large amount of blood supply, if they lose the support of external orders, the entire industry chain may suffer a devastating blow.

Of course Chen Guohua will be worried, but as long as Hong Kong Island remains, China Resources will not collapse.

In Chen Guohua's view, those foreign businessmen will definitely come to Hong Kong Island to complete transactions as they do now.

Just like the Maple Leaf Country two years ago, they also directly ignored the economic blockade in North America.

Contact China Resources Company directly, rent a merchant ship, and sell Maple Leaf's long-standing domestic grain backlog to China Resources Company.

There is no other way. The Maple Leaf Country also needs food. Otherwise, North America helps them purchase this food?

In fact, North America also had a bumper harvest at that time.

Since it's a bumper harvest, their local grains are priced at cabbage prices, and they can save transportation costs, so how can they go all the way to Maple Leaf Country to purchase?

The ranch hopes to get these cabbage-priced grains to use as feed. Unfortunately, they have a lot of grains locally and cannot consume them, so they will not go to Maple Leaf Country to purchase them.

In addition, it is impossible for Maple Leaf Country to sell grain at cabbage prices.

Selling to China Resources is the best choice.

Therefore, driven by interests, Chen Guohua felt that it was unlikely that there would be a problem of no orders.

On the contrary, Zhenhua Research Institute needs to maintain its technological leadership. Only in this way can it continue to receive orders.

Of course, even if the technology is the same, the products produced in the mainland still have a competitive advantage.

low cost!

You can have a price war.

This is one of the biggest reasons why Chen Guohua proposed the manufacturing plan.

After listening to Chen Guohua's words, Qiu Zongyue nodded and continued:

"Okay, I understand. You can write the plan when the time comes."

"Leader, I have already written the plan and can submit it to you when I get back."

When Qiu Zongyue heard this, he immediately glared at the other party:

"Good boy, have you been waiting for me here for a long time? Even if you just proposed the plan of the photolithography machine a few days ago, was it intentional?"

It looks angry, but it's actually a compliment.

After all, Chen Guohua is really calm.

Since March, Fairchild Semiconductor in North America has come up with proximity lithography machines.

Qiu Zongyue was worried to death at that time, but Chen Guohua delayed for a long time before taking action.

Well, just take action. Chen Guohua also kept the lithography machine technology tightly covered, and he didn't even have the slightest idea of ​​selling lithography machines.

After all, Fairchild Semiconductor sells a photolithography machine for US$35 million.

It is definitely a very, very expensive piece of equipment.

Then China Resources launched 5,000 transistor chips at a unit price of fifty US dollars, forcing Fairchild Semiconductor to significantly reduce prices.

The unit price of a photolithography machine has been reduced from US$35 million to US$20 million.

This unit price is already very, very low. There is almost no profit, or is it just a hard-earned fee?

That's what it means anyway, it won't lead to blood loss.

As a result, not many people are willing to pay for a photolithography machine at this price.

Because China Resources' chips cost fifty US dollars each, which is more cost-effective.

why?

A chip costs fifty US dollars, and 10,000 chips only costs US$500,000.

Which one has more advantages compared to a photolithography machine costing US$500,000 or US$20 million?

It’s obvious!

As for why people like Raymond and Felix are now mindlessly spending a lot of money to purchase more than a dozen photolithography machines?

Naturally, I want to be a middleman, and I want to be a second-hand dealer, and China Resources' photolithography machines have more advantages in terms of yield rate and other aspects.

The most important thing is that this photolithography machine can produce chips with 10,000 built-in transistors.

Even if companies such as Cray, Texas Instruments, and Siemens have better chip design processes, packaging technology, etc., they can also manufacture chips with 50,000 built-in transistors.

This kind of attraction is undoubtedly very fatal to capitalists like Raymond.

Chen Guohua did not think about selling lithography machines until the first half of the year passed. On the first day of July, Qiu Zongyue came to him anxiously and expressed these concerns, and then he proposed a method of pre-sale of lithography machines.

But I didn't expect that the pre-sale of photolithography machines would directly cause those capitalists to "generously donate".

However, Chen Guohua himself proposed a manufacturing plan.

It can almost be said that everything is interconnected. It seems that everything is under Chen Guohua's control. Otherwise, how could he have prepared the plan in advance?

Therefore, Qiu Zongyue seemed angry and blamed Chen Guohua for not informing him of this information in advance, which made him worried.

In fact, he was very happy. After all, a smart person like Chen Guohua was not only able to keep secrets, but also had very strong insight and market judgment.

It is indeed a happy thing for such scientific researchers to be born in China.

"I am the leader."

Chen Guohua explained with a smile, but Qiu Zongyue did not continue to ask.

Instead, they continued to discuss the topic and asked many questions about the manufacturing plan.

"Leader, I can remind you that this plan requires a lot of funds, tens of millions of yuan is very possible."

"Of course, if possible, I would like to directly select outstanding workers from existing factories to enter this industrial park."

"At the same time, we will select outstanding workers through the selection of the best among high school students graduating this year."

"Instead of building up vast rural areas, I think we should give priority to the development of industry. Only when industry is well developed can we earn foreign exchange from abroad and purchase large amounts of raw materials and equipment."

"Then we will feed back our agricultural machinery, agricultural technology, potash mining, etc. Only in this way can our food production be increased. This is a positive cycle."

After hearing what Chen Guohua said, Qiu Zongyue couldn't help but nodded.

For matters related to the overall situation, he felt that it would be better for Chen Guohua to report to the superiors in person.

Otherwise, if he conveys it, I'm afraid it will change the taste.

In response, Chen Guohua had no choice but to spread his hands and said:

"Leader, we may have to wait a while. I haven't completed the testing of this drone yet, and Comrade Liu Guanzhong hasn't come back yet. How about we go over together to report to the leader tomorrow?"

Qiu Zongyue nodded happily and agreed, and then followed Chen Guohua to visit the drone.

In the tent on the other side, Xue Jinquan was already having fun.

Yao Shiqiong and the others all wanted to play with this drone, but the remote control was in Xue Jinquan’s hands and they couldn’t win.

"Old Xue, how did the test go? What is the maximum flight speed?"

With the arrival of Chen Guohua and Qiu Zongyue, Xue Jinquan and the others immediately restrained themselves. They were all like quails, as serious as they wanted to be.

"Director, we have just tested it. The maximum flight speed in the air can reach 67 kilometers per hour, and the optimal speed should be 55 kilometers per hour."

Just as Xue Jinquan was reporting, Yao Shiqiong and the others next to them suddenly exclaimed.

Because a peregrine falcon dropped from the sky appeared on the monitor, swooping directly towards the drone.

The drone has a total of four camera lenses, one of which is right here at the top.

The main camera is on the belly of the drone, where you can view the front, rear, left, and right directions. However, the main camera generally only looks in a certain direction because it is equivalent to the eyes of the drone.

The other three cameras are more used to guard against other emergencies, or are supplements to the main camera.

Chen Guohua and Qiu Zongyue also saw the peregrine falcon on the monitor, and they couldn't help but sweat.

As we all know, the flying speed of the Peregrine Falcon is generally around fifty to one hundred kilometers per hour.

But when they dive, their speed can reach an astonishing 108 meters per second.

This is equivalent to a speed of 389 kilometers per hour, which is very terrifying.

With such a rapid dive speed, generally speaking, there is really no way to react in time.

Just now, Xue Jinquan was doing two things, flying the drone and reporting to Chen Guohua.

Therefore, at this moment, Xue Jinquan wanted to react in time to avoid the peregrine falcon's attack.

The degree of difficulty is very high.

So can he avoid it? (End of chapter)