The passionate years starting from the college entrance examination

Chapter 220, Semiconductor City (please vote for me)

1961, Moscow, in an office in the Kremlin.

"Alexander, you said it can be made into a TV set the size of a cigarette box. When will this task be completed?"

Helu looked at Alexander Shokin in front of him and asked in a deep voice.

The latter is the first vice chairman of their National Radio and Electronics Committee and a leader in the semiconductor industry.

Since 1953, Helu has been in his current position.

He told everyone that in order for Moscow to surpass North America in all aspects, it must lead North America in all fields.

Under such circumstances, Alexander Shokin made a promise to Helu, that is, the TV set could be made into the size of a cigarette box.

But now it’s 1961, shit, where is there a TV set the size of a cigarette box?

There is no good news, but bad news comes one after another.

It seems that starting from Rokosov and the others, to Kleo, it became what it is now.

Do not!

To be precise, it started when Dmitry, the former Harbin Institute of Technology teacher, persuaded Chen Guohua to go to Moscow at Peking University, but mysteriously disappeared.

It should be all of this. As long as Chen Guohua is involved, it seems that he is possessed by bad luck and has never had smooth sailing.

Helu has never believed in Chinese Feng Shui. He believes more that 'everything depends on human effort'.

After all, he is a pragmatist and never does anything vain.

"Comrade Secretary, we are already developing a TV with fifty micron transistors. If you need it, I believe scientists will develop it soon."

Alexander Shokin said quickly to please.

But Helu nodded perfunctorily, and then asked the other party's purpose.

"That's right, Comrade Secretary, I mentioned to you the first generation of brain microcomputers the year before last."

In 1959, Stross and Borg developed the first microcomputer unique to Moscow.

Not a hybrid, but on a microcard.

This thing can be used as a control machine or a car computer.

It was of great significance to the military, so at that time Starros and Borg found Alexander Shokin and prepared to persuade Helu to build Moscow's Silicon Valley.

In their view, Moscow needed a city dedicated to the production of semiconductors, with its own researchers, engineers, laboratories and production facilities.

However, it was less than a year after the successful launch of the artificial satellite, and Moscow was still dominated by electronic tubes.

Although at that time, Helu also paid more attention to transistors, but after all, he was a stepmother and did not have a biological son like a tube to use.

So at that time, Helu shelved the plan.

In addition to the more powerful electronic tubes, more importantly, the investment in this plan is too expensive.

You know, building a city is never a small matter.

Therefore, it is human nature to consider for a longer period of time.

What's more, in Helu's view at the time, transistors were not the future, but electron tubes were.

At that time, the transistors in North America were very powerful, and even the transistors in Beijing were quite strong.

But after all, it is not as good as Moscow's electron tube, because the electron tube can allow Moscow's artificial satellite to be sent to outer space.

This is the first time in human history!

Whether it is Helu or Alexander Shokin, they all know what is going on with Staros and Borg.

To put it simply, both of them were from Rokosov’s department.

Starros, for example, is a descendant of Russian Jews and grew up in the slums of Brooklyn, New York.

Later he was admitted to the City College of New York to study electrical engineering.

Starros met Borg when they were students. The two were like-minded good friends and both were very critical of capitalism.

Obviously, Starros is a kid who grew up in the ghetto, so it’s no wonder that he has a favorable impression of capitalism.

In the 1940s, Starros joined Western Electric Company in North America at that time, which was a very powerful technology company in North America.

Here, Staros worked on the development of classified radar.

At the same time, Borg joined the Sperry Gyroscope Company and was engaged in the research and development of other military systems.

It was during World War II, and North America had developed many new weapon systems.

Therefore, both Starros and Borg are familiar with the electronic equipment of these weapon systems.

By the late 1940s, Lundberg's department began to capture Moscow spies in major scientific research institutions in North America.

Just because at that time, the tension between Moscow and New York had already begun.

Starros and Berg fled North America in 1956, and finally traveled to many places, this time returning to Moscow.

After the two arrived in Moscow, they were given the important task of leading the SL998 laboratory.

Even Ustinov himself, then the Ministry of Defense, visited their laboratory and gave them full authority to develop new military computers.

This led to the first generation of brain microcomputers.

Now, old things are brought up again, and Helu's memory is also opened.

"We have now joined forces with the design bureau, SL998 laboratory and many other units to prepare to establish the highest-level microelectronics center in Moscow."

In order to convince Helu, Alexander Shokin had to use all his strength.

"And Comrade Secretary, you can come and visit. We have developed a microcomputer that can print out your name."

On the plan, a picture was displayed, which Helu could clearly see.

"You mean it's very small? The length, width and height marked on it are 175, 35 and 90 centimeters respectively?"

Such a computer is indeed very small.

The main computer unit can easily be placed on a desk, with other machines and peripherals placed in racks of that size.

It's really small.

"Yes, Comrade Secretary, this is the first microcomputer we developed in Moscow."

Alexander Shokin suddenly said proudly.

But Helu suddenly asked:

"Then why did I hear that the computer developed in Beijing is only the size of ten lunch boxes?"

Gah!

Almost instantly, Alexander Shokin was like a duck that was strangled by the neck and could no longer chirp.

Good guy, Comrade Helu, you really know how to chat to death.

Such a rhetorical question was indeed something Alexander Shokin did not expect.

It took a long time before Alexander Shokin could hold back a sentence:

"That's right, Comrade Secretary, you also know that our transistor technology in Moscow is not as good as North America."

Before he could finish his words, Helu interrupted him impatiently:

"Okay, stop talking. When will you be ready? I'll go over and take a look then."

The reason why Helu is so disgusted is not only due to the inaction of Alexander Shokin and others, but also the inaction of Kleo and his department, as well as the overpowering Zhenhua Research Institute in Beijing.

Seeing that China Resources Corporation was making a lot of money selling transistors and chips, Helu was extremely angry.

Comparing the semiconductor industry in Moscow, Helu almost fainted from anger.

Alexander Shokin was overjoyed when he heard this and quickly said that Comrade Secretary is welcome to visit at any time.

In order to deal with Helu and persuade him to build a semiconductor city, Alexander Shokin, the design bureau and others have been preparing for a long time.

It can be said that everything is ready except Comrade Helu to visit.

So Helu agreed, and in a few days, after he finished his work, he would visit the Microelectronics Center.

After Alexander Shokin left ecstatically, Helu learned another news from the intelligence department.

That's why Zhenhua Research Institute can produce high-quality chips so quickly because they have their own lithography machine.

And the latest chip technology currently available from Zhenhua Research Institute is a chip that can have two thousand built-in transistors.

After learning the news, Helu was stunned.

Then he got so angry that he cursed his mother.

Why?

Why can Beijing lead the world in the semiconductor industry?

You know, before this, Jingcheng was just a little brother of Moscow.

We need technology but not technology, we need talent but not talent.

Especially before the end of the Peninsular War, the little brother in Jingcheng could be said to have nothing.

Even many scientific researchers came back from North America around 1950 or 1956.

Have no idea.

At that time, Eisenhower did not allow Mr. Qian, Guo Yonghuai and others to return to China.

Even if Qian Xuesen wanted to return to China, the capital would have to offer eleven pilots in exchange.

Then he could return to the capital.

Otherwise, don’t even think about it!

Even so, the capital is like a younger brother in front of Moscow.

But now, the little brother from a few years ago has turned into a serf and sang, surpassing the big brother in Moscow.

How could this not make Helu furious?

In the past, Helu only thought that Zhenhua Research Institute was ahead of Moscow, which was only a year or two.

But now, Moscow can only produce chips with less than a hundred transistors. If it is more, it cannot be done.

But Zhenhua Research Institute can not only produce chips with two thousand transistors, but also has a photolithography machine?

Almost instantly, Helu could confirm that the lithography machine was definitely the secret weapon of Zhenhua Research Institute.

Otherwise, why was it not discovered until now?

It must be that Zhenhua Research Institute is covering things up too tightly, and the lithography machine is too important.

"Then why didn't you get the technical information on the lithography machine?"

After reacting, Heru looked at Lermontov, the current leader of the intelligence department, and asked in a cold voice.

From Rokosov to Kleo, and now Lermontov, in just one or two years, this department has undergone major changes.

As a result, the newly appointed Lermontov was scared to death when faced with Helu's questions.

"Comrade Secretary, our people are already taking action, but there is no news yet."

Just by listening to the voice, Heru knew that Lermontov in front of him was frightened by him.

Even so, Helu still snorted coldly, "Trash!"

He was angry and the consequences were dire.

But there's no way to vent your anger now, so let's deal with the difficulties at hand first.

"Then what are you going to do? Do you have a specific implementation plan? Can you bring the technical data back to Moscow without being discovered?"

The other things are not important. What is important is that he can no longer be made a dumpling by others like Cleo, a stupid pig.

The previous time, Cleo and the others were served in a pot in the Pacific Ocean.

What a shame!

Because of this, Helu doesn’t know now whether Cleo is dead or alive.

Because he told the people in the capital that labor and management don’t know Kleo, so you can do whatever you want.

There is no way, Helu also wants to save face.

If Klio was really brought back, a lot of debts would have to be offset, and it would also be a disguised admission of the stupid things Klio and the others had done.

By then, Helu would not only lose face, but also lose his dignity.

Therefore, based on this, only sacrificing people like Cleo is in the best interest of the moment.

As a person who values ​​national interests above all else, Helu certainly has his own little calculations in mind.

He would not allow such a major mistake to occur while he was the squad leader.

Therefore, this time, of course, Helu had to ask clearly to see if Lermontov was a big stupid pig like Rokosov and Kleo.

If so, then it's better to go home and wash up and sleep as soon as possible. This matter will be discussed in the long term.

After hearing this, Lermontov immediately told the plan that the think tank had come up with.

After hearing this, Helu hummed slightly and said, "Then go to work. If you can't get the technical information back, you can write your resignation report yourself."

"If you can get it back, then I will personally award you a medal."

Today, the situation in the semiconductor industry has become increasingly intense.

As the leader, Zhenhua Research Institute currently does not know where the research and development progress is and whether it can successfully manufacture a chip with 10,000 transistors.

In regions such as North America, Europe and Tokyo, they are also trying to catch up.

Only Moscow is still a little behind North America, and even more behind the capital.

Therefore, the importance of whether Lermontov and the others can succeed this time is evident.

Helu didn't want any accidents to happen, but considering the operations of Rokosov and Kleo that made him suffocate, he was inevitably a little uneasy.

Lermontov, on the other hand, saluted and left the office with great joy.

No matter what, this time, Lermontov believed that he could successfully complete the task and completely regain the reputation that Rokosov and Kleo had lost before.

A few days later, Helu finally finished his work and could leave to go to the Microelectronics Center.

Helu visited the microcomputer that Alexander Shokin had previously spoken about.

After seeing this computer, Helu almost sighed.

Although he has never seen the ten lunch box-sized computers that Zhenhua Research Institute brought out, he can still imagine it.

After all, the size of ten lunch boxes is not in the same order of magnitude as the 175-centimeter-tall rack in front of me.

"Comrade Secretary, this is our latest invention."

Next to him, Staros led Helu to introduce the computer in front of him, and at the same time, without hesitation, he inserted a miniature radio receiver, a miniature radio, into Helu's ear.

This tiny radio was actually able to capture two local stations, but it was much smaller than a tube radio.

Helu listened to the voice coming from the radio with an expression of disbelief, and immediately asked many things ecstatically.

At this time, Helu was as happy as a child.

Just because of such a tiny radio, the future is promising.

Moscow's steel industry, aviation industry and other related industries are so developed, and the manufacturing industry is not comparable to that of the capital city.

Then at this time, as long as you agree to the Semiconductor City plan of Alexander Shokin, Starros and others, you can find another way to achieve cornering transcendence.

After all, the size of the transistor can be reduced, so it can be used in various levels of application fields.

For example, there are many new weapon systems at the military level, and various types of eavesdropping devices commonly used by Lermontov and his department.

And the miniature radio he is holding now, isn't this a top product that surpasses the capital?

Can the capital afford such a tiny radio?

Ha ha!

For a moment, Helu became very excited, as if he had seen the future.

Alexander Shokin, Borg and others next to him were overjoyed when they saw this scene.

As long as Helu is happy, that means that the Semiconductor City plan is almost half successful.

Next we have to wait for Helu's specific reaction.

"Then, Comrade Starros, can you tell me more about your plan for the Semiconductor City?"

After asking the technical questions about the application level, Helu finally thought of Semiconductor City and then said with unfinished meaning.

In fact, the current situation was beyond Helu's expectation.

Therefore, he is convinced that once the Semiconductor City is established, a large number of related technologies and equipment can be developed and manufactured in the future.

Staros was very excited when he heard this and hurriedly recounted the plan again.

After hearing this, Helu was also very happy and expressed on the spot that he would fully support the other party's plan.

As a result, the plan for the Semiconductor City started as scheduled.

"By the way, can you make a photolithography machine?" Just after the Semiconductor City project started, Helu suddenly thought of something, so he called Staros and Borg over.

"Lithography machine? What is this?"

The two of them came to Moscow in 1956. They didn't know much about chip manufacturing.

After all, the first generation of photolithography technology also appeared in North America, and here in Beijing, although this technology is also available at the Materials Research Institute.

However, it just made a wafer, and then nothing happened.

As for the lithography machine, neither Starros nor Borg had heard of it, but just by hearing the name, they knew that this thing definitely involved a lot of technology.

For example, Starros and the others certainly know about today's first-generation photolithography technology.

But this thing involves many disciplines such as optics, and this photolithography machine should be even more incredible.

Heru was immediately disappointed when he heard this.

So it can be seen that the photolithography machine is definitely the most advanced technology, bar none.

"This is the latest technology coming out of the capital. It is about chip manufacturing technology, and they have also begun to follow up in North America."

"What? Zhenhua Research Institute can already produce a chip with two thousand transistors built in?"

After Heru finished speaking, Staros, Borg and others suddenly exclaimed.

Immediately, his face instantly became extremely serious.

Obviously, the semiconductor industry in Beijing is much ahead of that in Moscow.

At least it won't be one or two years, but at least three or four years, or even longer.

Such a lead is really disappointing.

Heru couldn't help but sigh when he saw their expressions.

"Hurry up, I will arrange more researchers and engineers for you, but you must do it as soon as possible, and you can't be pushed away too much."

Moscow's practice is usually to copy and paste, imitate other people's technology, and then quickly catch up, and then carry out technological innovation on this basis in order to surpass others.

But it is obvious that this time it is a battle for semiconductors, and they are destined to fail.

In North America, IBM's Winkelman soon learned the news: Moscow began to build a semiconductor city.

"Fuck! Damn the Russians, so rich!"

After hearing the news, Winkelmann drooled with envy.

There is a Silicon Valley in North America, and even IBM's treatment of him as the head of the technology department is not bad.

But in comparison, the Semiconductor City in Moscow is more handsome.

why?

Because Winkelman and his colleagues encountered technical problems, they would also cooperate with other laboratories or research institutes.

At this time, they had to travel from Armonk, New York, to other cities. The time spent on the road alone made people speechless.

On the other hand, what about the Semiconductor City in Moscow?

Judging from newspaper-level reporting information, the city is called Zelenograd, which means Green City.

It's designed to be a science hub, with not just research labs, production facilities and more, but schools, daycares, movie theaters, libraries and hospitals - everything a semiconductor engineer needs can be found here.

There is even a university called Moscow Institute of Electronic Technology built directly in the center of Zelenograd, which is completely modeled after Stanford.

Therefore, it is completely a Silicon Valley, but it lacks a little sunshine of the Bay Area.

Working in such a city, if you encounter any technical problems at the semiconductor level, you can quickly find the laboratory and find those PhD experts for communication.

Even when eating or walking, you may encounter many engineers and R&D personnel at the semiconductor level.

How cool is a place like this?

That's why Winkelmann said these Russians are big dogs!

Little Watson didn't know the complaints made by Winkelmann and other technical developers, and even if he knew, he wouldn't care.

All he wants now is a photolithography machine, and then he can quickly produce a chip with two thousand transistors built in, improve computer performance, and seize market orders.

Let IBM once again become the giant in the North American computer industry and become the giant that occupies more than 80% of the US computer market.

On the other side, at Texas Instruments, Fraser convened a meeting with department heads.

Texas Instruments is also engaged in the research and development of photolithography machines, but after a round of exploration, they found that without more high-end optical instruments and equipment and more powerful semiconductor technology, it is simply impossible to come up with a photolithography machine.

That's why today's meeting took place.

"Zhang, you are the director of the production department. Can you start from your department and see if there are any better ideas?"

After everyone had spoken, Frazier discovered that there was Zhang Zhongmou, a Chinese supervisor, who had not spoken yet, so he immediately asked.

Zhang Zhongmou was a master's student in the Department of Mechanical Engineering at the Massachusetts Institute of Technology. In 1955, this 24-year-old Chinese student joined Texas Instruments.

At that time, he joined Jack Kilby, the inventor of the integrated circuit.

As we all know, Texas Instruments invented the integrated circuit in 1958 by Jack Kilby.

Although Zhang Zhongmou is not as awesome as Jack Kilby, he is also the head of the production department.

Just because after he joined the company, it took him less than a year to directly increase the output of his production workshop by 25%.

This is very cool. The improvement of efficiency means that companies can make more profits.

Shareholders and executives like the best people like this.

Zhang Zhongmou was stunned when he heard Fraser calling his name.

Can he participate in something like a photolithography machine?

He is just a master's student in the Department of Mechanical Engineering, and he is not engaged in optical research. How could he know so much?

But now that he was named, he could only be forced to make a few remarks.

While Texas Instruments was busy in meetings, Noyce and others from Fairchild Semiconductor had already found an optical instrument company in North America and put forward their own design requirements.

Fairchild Semiconductor hopes that this company can produce the optical equipment they need to manufacture lithography machines, such as wire bonding machines for transistors.

There are also precision motion capabilities to manufacture exposure equipment that accurately aligns circuit patterns between silicon wafers, as well as off-axis aligned photoelectric repeaters using E-line (577 nanometer) exposure light sources, and more.

These are technologies that Fairchild Semiconductor needs to overcome.

At the current level of North American lithography machine research and development, Fairchild Semiconductor is already ahead of all companies.

They have come up with more detailed design drawings, but because there are too many parts, they can only cooperate with different companies.

This lithography machine is actually an upgraded version of the masking lithography machine, and it is also the initial prototype of the projection lithography machine.

But they haven't developed it yet and are still in the process of technical research.

In order to develop such a lithography machine, the Eight Rebels of Fairchild Semiconductor had to sell more shares and find themselves a father.

As a result, Fairchild's Fairchild Group became the parent company of Fairchild Semiconductor.

Other companies such as Cray Co., of course, followed suit.

Even Siemens in West Germany and Plessy in Great Britain have followed suit and developed photolithography machine technology.

As an empire on which the sun never sets, Great Britain still has many talented people.

For example, Geoffrey Dummer, a British scientist.

As early as 1952, Dumo first proposed the idea of ​​solid-state circuits at a conference in Washington, DC.

In the original history of time and space, he was known as the prophet of integrated circuits.

By 1957, Dummer signed a small contract with Plessy Semiconductor Company of Great Britain to develop this new type of solid-state circuit component.

From the perspective of circuit principles, the model designed by Dumo is an experiment in design principles, no different from the integrated circuit patent obtained by Jack Kilby of Texas Instruments.

It is a pity that Dumo, as the first person to propose the concept of integrated circuits, failed to receive the attention of Great Britain.

At the time, his proposals were largely met with indifference by the British government and military.

Just because these high-level officials in Great Britain are still immersed in the glory of the past and do not realize the great revolutionary nature of semiconductor integrated circuit technology.

And whether it is Plessy Semiconductor or the British government, they are not willing to invest huge amounts of money in research and development.

Wouldn't it be more comfortable to follow the big brother in North America and pick up the bargains?

But in June 1961, in this turbulent era, Plessy Semiconductor Company was actually willing to participate.

It’s not that they suddenly became rich, or that they suddenly woke up.

Instead, the Labor Party of Great Britain got involved and formally formulated a plan for Great Britain to invest in semiconductor integrated circuits.

Because of this, Great Britain has a major semiconductor industry plan for the first time.

Affected by this plan, Plessy Semiconductor Company has certainly received strong support, and Fairchild Semiconductor Company in North America has also extended an olive branch.

So the two parties hit it off and let's do it!

Therefore, from the North American continent to the British Isles, to West Germany and Moscow, they are in full swing to develop lithography machines. The entire industry is like the Eight Immortals crossing the sea to show their magical powers.

Whether it is the Semiconductor City in Moscow or the merger of Fairchild Semiconductor Company, the lithography machine is really born in Europe and the United States.

Compared with the big news in the semiconductor industry, P&G's eyes are red when faced with the diaper products produced by China Resources.

In their company's conference room, Development Manager Miller was the first to be questioned by President Jimmy Vicott:

"Miller, can your development department come up with a decent product?"

In a hurry, P&G couldn't stop China Resources' diapers.

Although the current market, due to the strong rise of diapers, has also driven the sales of their P&G company's diaper products.

But this was originally Procter & Gamble’s market, but it was overtaken by the latter two?

You know, Howard's container can be put away in less than half a day almost every time the goods arrive.

Such a sales speed is simply jaw-dropping.

That's why Jimmy Vicott was so anxious.

"Jimmy, give us time, we will definitely be able to come up with new products soon, and we will definitely bypass their patented technology."

Yes, the patents applied by China Resources in North America and other places have already been approved.

Otherwise, Procter & Gamble would have gone rogue and registered a patent for China Resources' diapers.

Of course, before they did this, Howard also did this.

It's a pity that the Patent Office is not a bad person, and it is impossible for China Resources not to know these things.

China Resources even has dedicated personnel to handle patent business.

"Okay, then you have to hurry up and I will ask Mike to cooperate with you."

Hearing Jimmy Vicott's words, Miller nodded, indicating that he understood.

Mike next to him also nodded, because he is the production manager.

Not long after the P&G meeting, Howard returned to New York with 300,000 diapers.

According to the original schedule, he should not be able to get the goods from China Resources until the end of June. By the time he arrived in North America, it would already be July.

In this case, he definitely can't wait.

So he asked China Resources to take as many goods as they had, and he took the goods back to North America on a cruise ship.

Because of this, he came back at the end of June.

The market is still so hot, 300,000 diapers were sold out in just a few days.

In order to reduce costs, Howard introduced these mothers to a store he rented in another place in New York during this sale.

There's no way around it, the counter at Sears Department Store is inconvenient after all.

And the rental fee for the counter is not cheap either.

On the contrary, after he rented a store, not only was it much more convenient to transport goods, but the rent could also be reduced a lot.

He even signed a contract with the cruise company and a bank.

As long as China Resources delivers the goods to the cruise company, it will ask the bank to pay the remaining payment.

Anyway, he has already fought with China Resources. This way, it will save him the trouble of running back and forth all the time.

After all, it is still very tiring to cross the Pacific Ocean and the North American continent frequently.

Faced with the oncoming diapers, Procter & Gamble is even more jealous.

Now, the only good news for P&G is that China Resources' production is not high, and transportation reasons make it more difficult for their goods to enter the North American market.

While the industry was in turmoil outside due to photolithography machines and diapers, Chen Guohua of the Zhenhua Research Institute in Beijing had successfully produced all the components of a computer with billions of computing speeds.

Testing begins today.

In order not to disturb today's test, Chen Guohua made a false move and arranged for everyone to take away these parts and go directly to the Second Department of the Institute of Physics when he first came to work in the morning.

"Guohua, you are still so cautious. Haven't you caught all the mice? What are you worried about?"

On the car heading to the second department, Qiu Zongyue said to Chen Guohua next to him with a smile.

The latter shook his head and said nothing.

You Jianzhong's family had been brought back to the capital some time ago.

Chen Guohua doesn't care what fate awaits his family.

But Qiu Zongyue said that You Jianzhong and his family went to such extremes because they almost starved to death the year before last.

To put it simply, people who have experienced hunger definitely don’t want to experience it again.

Chen Guohua expressed regret for the experience of You Jianzhong and his family, but he naturally disagreed with the other party's actions.

No matter what, this matter is already a thing of the past for Chen Guohua.

Even so, Chen Guohua was not sure whether there were really no mice left in Zhenhua Research Institute.

As the saying goes, once bitten by a snake, you will be afraid of well ropes for ten years, but he was frightened by these rats, and of course he didn't want to do it again.

Starting from Pan Tiancheng and Chen Qiufeng, to Zheng Guiping, and now to You Jianzhong.

These people are rats that Chen Guohua hates extremely. It would be a shame for such people to die.

Even Hou Sihe, who almost made a big mistake but repented in time, Chen Guohua asked Xue Yajun to help dissuade him.

Hou Si and his father got rectal cancer, and then in order to treat his father's disease, he dared to destroy the good situation of Zhenhua Research Institute.

How could Chen Guohua still let such a person stay in the institute?

Any time bomb placed next to oneself is a disregard for one's own life and irresponsibility.

He wants to engage in scientific research, yes.

But he never thought about sacrificing his own life for this.

Who knows when one of these mice will pop out again?

After encountering a well-hidden rat like You Jianzhong, Chen Guohua also learned to be smart.

This time, he didn't believe it after a false shot, could something happen?

You know, Zhenhua Research Institute has deployed many signal jammers, and before leaving, Chen Guohua told Xue Yajun.

He will keep a close eye on these researchers and support staff, and anyone who wants to take leave will not be allowed to do so.

Yes, even if they are sick, they must stay in the institute. Anyway, Chen Guohua has arranged a lot of doctors on duty to ensure that they can solve their worries.

As for them causing chaos like explosions, haha, do you really think that Ma Mingwei, Yin Menglun and other security department personnel are just decorations?

With these complete preparations, coupled with the current extremely scarce communication means, Chen Guohua didn't believe it. There was still someone coming to cause trouble for him?

Seeing that Chen Guohua remained silent, Qiu Zongyue wisely did not discuss this topic again.

"By the way, I received news yesterday that the electron multiplier has been shipped to the northwest, and the research and development of mushroom eggs will be accelerated."

"Our next stage is about to conduct a small-scale simultaneous focusing technology experiment."

Hearing this, Chen Guohua was surprised:

"Then judging from the current speed, there will be no problem in detonating this demon king before the end of this year?"

Qiu Zongyue nodded with a smile and said:

"Yes, for now, this is indeed the case. However, I received a letter from the Northwest and asked me to ask you, do you want to go to the Northwest? Take a look at this peerless sword we forged."

When Chen Guohua heard this, he shook his head like a rattle.

What kind of international joke are you kidding?

In a place like the Northwest, thousands of kilometers away from the capital, Chen Guohua felt very tired even by plane.

Besides, he was so busy that he took off right now. How could he go over there and watch some scene of mushroom eggs exploding?

Even if he passed, he would actually see nothing.

Because only observers will go to the scene to observe. For example, Zhao Zhongyao once went to North America to watch it.

At this time, the car arrived at the Second Department of the Institute of Physics, and the test was about to begin.

(End of this chapter)