(Well, happy Children’s Day)

It is impossible for people who have not experienced war to truly understand war. During these war years, everything in the entire Chinese Empire seemed to revolve around war. Among the nearly one million companies in the country, there were about more than 70,000

Enterprises are engaged in production projects related to military supplies. On busy railway lines, at least 1/4 of railway transport carriages are required by the military field.

…

There are many different levels of war and tactics. In strategy, there are high and low levels, and in tactics, there are levels.

For the Third Sino-Japanese War, from the very beginning, Song Biao determined the dominant strategic idea of ​​"a long-term blockade war relying on the advantages of science and technology and national power" within the Central Military Department, which was to use the empire's scientific and technological strength and the country's

Industrial and agricultural strength, implement a long-term blockade war against Japan, pushing Japan to the point where it has no resources to fight the war. Wait until Japan is exhausted and the people are in dire straits before attacking Japan's homeland, ending the war at the minimum cost and knocking Japan to the fifth level.

It is impossible to turn around within ten years.

This is due to the resource strength and geographical location of the two countries. As long as China occupies the Korean Peninsula, Ryukyu Islands, Sakhalin Island, Kuril Islands and Ogasawara Islands, it can block Japan in a naval and air force encirclement.

This encirclement cut off Japan's channels for obtaining war resources from outside.

In this encirclement and blockade, the most important force is technological leadership. It is easier to suppress and blockade Japan with higher-tech military equipment. At the same time, we must make full use of the country's overall strength to ensure quantity and quality.

dual advantages.

Once a blockade is formed, the empire will firmly control the initiative in this war. It can fight if it wants to, or it can continue the blockade for a long time if it doesn't want to fight. It will contain Japan for a long time in this state of war.

At this stage, it is not difficult for the empire to achieve this goal. All that remains is just a matter of time. But for the empire, the real difficulty is how to deal with Germany later.

There must be a war between China and Germany.

Nazi Germany now has this premonition, but they just think that China does not know it. In fact, China also knows very well that as long as Germany decides to attack Britain and France, China and Germany will inevitably go to war, because China cannot allow the birth of a more powerful German empire than China. Even if Europe wants to

The alliance can only be a decentralized alliance like the European Union, rather than a unified country that can threaten China's goal and status of world hegemony.

As for the other issues of the Nazis, China doesn't really care about them. It's none of their business. China really doesn't need to care too much about it, and this situation is also conducive to China's continued development.

After the Spring Festival, just two weeks before Nazi Germany was about to launch a sudden large-scale attack on the Soviet Union, Song Biao, accompanied by National Defense Councilor Chen Qicai, went to Northeast China to inspect various companies under the China United Technologies Corporation.

In the past thirty years, China's Beijing-Tianjin-Luan, Shanghai-Nanjing-Hangzhou, Fujian, Guangdong, Huguang, Shanxi, Shandong, Xilanyin, and Sichuan have gradually established industrial zones. China's industrial development has become more balanced, but the Northeast still remains

It is the most developed and leading industrial region in China.

The Northeast is also the most industrially dense area in China. Japan has always had a crazy plan, which is to use the Manchu royal family under its control to split the Northeast and place it under the Manchu Empire and become a colony and protectorate of Japan. They are too eager to do so.

Even they themselves know how low the possibility of getting Northeast China is.

The goal of Song Biao's inspection in the Northeast this time was to see clearly the empire's technological reserves in the semiconductor industry, as well as the empire's research and development level in the military industry and aviation manufacturing industry, so as to prepare for a full-scale war with Germany in the future.

The empire currently has three very large semiconductor companies and private research bases, namely Northeast Semiconductor Company, Beijing Semiconductor Company and Jiangnan Radio Company. Among them, the largest and most abundant technology reserve is Dongdao Company, which is also China's current shipborne radar.

and the largest research and manufacturing company for airborne radar.

This time was a little different from usual. When the Emperor of the Song Dynasty inspected the Northeast, he specially brought his eldest son, Crown Prince Yuhua, with him to serve as the aide-de-camp to the National Defense Councilor Chen Qicai, and went to the Northeast together.

Under normal circumstances, the empire still prioritizes the eldest son as the royal heir. Crown Prince Song Furen of Yuhua has also been receiving education to fulfill the emperor's duties. After graduating from the Central Military Academy, he studied for a master's degree in international politics at the Central Imperial University.

degree, and then returned to the military as a captain. It was only two years ago that he was transferred from the grassroots army back to work at the General Staff Headquarters of the Central Military Headquarters.

Because the empire adopts the method of succession, as the eldest prince in line, Song Furen, the crown prince of Yuhua, has been given the important task of inheriting the throne from birth. For Song Furen, who has a kind and gentle personality, this is

Obviously it's not entirely a good thing.

From an early age, the education he received was entirely aimed at training him to be a qualified heir to the imperial throne. He was not only required to have profound attainments in Chinese studies, but also to master two or three foreign languages, and to lead a good and strict life.

His work and rest habits require him to have very high health standards through strict exercise and good and complete medical care. He is required to be proficient in all etiquette and possess the benevolent and virtuous gentleman's demeanor required in Chinese culture.

He is required to become a qualified modern soldier, to study political economics, to have a good academic foundation in natural sciences, philosophy, history, biology and other modern knowledge systems, and to eventually become a man with broad horizons.

An enlightened monarch, a monarch who will not be deceived by others.

Being born into the royal family is both a good thing and a tragedy. As the replacement for Crown Prince Yuhua, his half-brother Prince Yuqing and his biological brother Prince Yuchen both received the same education. The other princes and princesses

are much luckier, they don’t need to

To receive such strict and complex training, they can do what they like according to their own preferences, but they also bear the responsibilities of the royal family. In the future, in the fields in which each of them is good at, they will be responsible for handling part of the royal charity.

Fund work of the society.

Unlike his father's generation who hated Japan, Song Furen was born in an environment that had suppressed Japan for a long time from the beginning. Song Furen did not agree with this long-term war against Japan. He hoped that the war could be like the first

End the Second Sino-Japanese War as soon as possible and restore normal domestic order.

After arriving in Shenyang, Song Biao and his party first stayed in the old military headquarters area of ​​the Northeast Military Region. Naturally, this place was once very familiar to him, but now it also feels a little strange.

Back in the Northeast, Song Biao was not in a hurry to visit Dongdao Company. Instead, he went to Dongling Park first to see the landscapes he was most familiar with. Two days later, he took Crown Prince Yuhua, Chen Qicai and others with him.

Let’s go to Dongdao Company for inspection together.

At this time, Dongdao is actively preparing for the opening up of the semiconductor industry. In cooperation with the Central Computer Research Institute, Dongdao is currently stepping up its efforts to improve the first generation of 4-bit and 8-bit single-chip microcomputers.

Preliminary research on unipolar integrated circuit microprocessors with better performance is also accelerating.

Different from other fields, the Empire's semiconductor industry has always been dominated by domestically trained talents. On the one hand, it is due to confidentiality reasons, and on the other hand, there is a lack of such professional talents overseas.

Several chief engineers of Dongdao Company all have Ph.D.s in electronics from the Central University of Technology and Aurora University. According to the empire’s support plan for the semiconductor industry, in the next ten years, Central Institute of Technology, Aurora University, Northeastern University, and Jiangnan University will

, the Central Computer Research Institute will continue to expand the scale of doctoral training in the fields of semiconductors and electronics to ensure the empire's research and development strength in this field.

At present, almost the entire semiconductor industry is serving the military industry. 4-bit and 8-bit MOS microcontrollers are widely used in the military field. The fire control computers of Imperial tanks, rangefinders, ship radars, and fire control computers are all eager for this.

Breakthroughs in the field continue to enhance practical value.

At Dongdao Company, a new infrared detection device using indium sulfide as the temperature control source has been successfully developed. Before this, the empire and Nazi Germany used lead sulfide as the infrared sensitive source. Indium sulfide is more expensive and industrial production

It is more difficult, but its sensitivity is also dozens of times higher than that of lead sulfide, making the entire infrared observation device more sensitive and the weight of the whole machine lower. With this foundation, the infrared observation equipment currently equipped on MBT series tanks

The instrument will also be equipped on MT series tanks.

Based on the increasing maturity of indium sulfide infrared detection devices, Great Wall Company also officially started the development of small missiles for air defense missiles and air-to-air missiles last year. With infrared sensitive devices and 8-bit microcontrollers, new air defense missiles can directly use anti-infrared detection program control

Navigation, rather than relying on radio guidance to attack as originally planned, the combination of the two can greatly improve the combat effectiveness of the new anti-aircraft missile.

China United Computer Corporation is launching a new computer based on an 8-bit processor that will exceed the performance of all previous mainframe computers.

Although the semiconductor industry has not yet entered the civilian industry stage that can be disclosed nationwide, under the strong demand of the military industry and the joint organization of the Central Security Bureau and the Ministry of Science and Technology and Industry, China's automation industry system research has been carried out under the central defense

The Industrial Research Institute, Central Computer Research Institute, Central Mechanical Research Institute, Northeast Industrial Research Institute and other institutions and major large technology companies are developing. China United Machinery Company and Jiangnan Mechanical and Electrical Company are both conducting research and development in the field of CNC machine tools, both military and civilian.

Computers and microprocessors are also developing rapidly.

If there are still two years left before the end of the war and the full opening up of the entire industry, these two years will be the time for China's semiconductor industry to fully accelerate.

It is undeniable that although under the silent arrangements of the Song Emperor, it took the entire empire thirty years to gradually digest the technologies of a certain base in the Northeast, the benefits to China are endless, and many fields are in the international world.

The gap is nearly thirty years ahead of Europe and the United States.

The Empire began to study the purification and production processes of semiconductors and single crystal materials in 1921. At that time, the person closest to this area in the international theoretical and chemical research fields was the Polish chemist Jan. Czechlaski, who invited Dr. Czechlaski to the Central Institute of Technology

After teaching at the university, Imperial accelerated long-term research in this field and invested large-scale R&D funds. In 1925, he initially completed the industrial Czochralski production of single crystal materials, which was used in semiconductor materials, gold and silver and other platinum-based metals.

High-purity salt-alkali, synthetic gemstones and other single crystal materials.

On this basis, the Central Institute of Materials Technology and the Central Computer Research Institute under the Central Academy of Sciences have studied more than a thousand kinds of semiconductor materials, the most important of which are gallium arsenide, gallium antimonide, aluminum antimonide, etc. These semiconductors

Single crystal materials are produced through industrialized multiple straightening methods to finally obtain semiconductor materials with high enough purity for the production of semiconductors and integrated circuits such as diodes, transistors, and transistors.

Because there are a sufficient variety of reference parts, coupled with the huge R&D funds invested by Empire in the past two decades and the support of hundreds of classified scientific research projects, Empire has made breakthroughs in this field at an extremely fast rate.

Since the British scientist Faraday discovered the first semiconductor material, silver sulfide, in 1833, humans have been slowly exploring the application and research of semiconductor materials. China basically established and improved modern technology from the 1920s to the 1940s.

The basic framework of the semiconductor industry.

At the same time, due to the huge demand of China's semiconductor industry, China's semiconductor industry has formed a situation of three giants in the early 1940s, maintaining its leading edge in the world. In China, there are currently more than ten semiconductor giants.

Professional research centers, in addition to the three major companies such as Dongdao, the Central Computer Research Institute, the China National Academy of Defense Science and Industry, the Central University of Science and Technology, Aurora University, Shanghai University, Northeastern University, Northwest University, Southwest University, and China Jiaotong University are all

A professional semiconductor research laboratory was established.

Although Song Biao still had some long-term worries about this, at Dongdao Company, he still saw the first-generation general-purpose commercial microcomputer jointly developed by the Central Computer Research Institute and Dongdao Company. This simple

The microcomputer with a black screen and green code is equipped with a Chinese character picture card, which can use Chinese characters. The operating system was written by Neusoft, a company controlled by Northeast Computer Company, which took six years to compile.

Because it uses an eight-bit processor, its size is not only large, but its performance is also very low. Even so, it still brings new hope to the world.

This is an epoch-making masterpiece.

Materials determine the development space of industry. This is an irreversible conclusion. Without breakthroughs in material technology, there would be no series of breakthroughs in China's semiconductor technology. This is a very simple inheritance relationship, just like a tree and its roots.

relationship.

Before the international world had enough understanding of this, the empire not only established this brand-new new industry, but also was about to establish a completely different new empire. In the military field, new ballistic missiles, cruise missiles, anti-aircraft missiles, fire

Control computers, radars, power control computers, wireless telephones, numerical control and program-controlled devices, infrared detectors.

The Empire's huge investment in this field not only brought huge advantages to the Empire's affairs, but also produced many interesting things. The Nikola22 airborne aircraft produced by the Empire's Nikola Tesla Radio Company was successfully developed in 1937.

, the most advanced small radar at the time, equipped on the J5 Tiger Shark fighter-bomber, with a radar detection range of 30 kilometers

The range of the NikoLa23 airborne radar, which was simultaneously developed for the P-2\J-6 jet fighters, had a radar detection index of only 20 kilometers in the initial design parameters. However, in the multiple improved designs in 1938, the NikoLa23 aircraft

Not only is the weight and volume of the borne radar halved compared to the Type 22, but its effective detection index has been increased to 50 kilometers.

These technologies continue to be used in the improvement of the NikoLa22B airborne radar, which increases the radar detection index of the J-5E Tiger Shark fighter-bomber to 80 kilometers, and this parameter is actually better than the Luoyang cruiser's shipborne radar data

Still high.
To be continued...