I asked you to modify it, what the hell is this fighter jet's engine?

Meanwhile, in the manufacturing sector, by optimizing printing processes and material formulations, the rapid manufacturing of high-end components has been achieved, significantly shortening product development cycles and reducing production costs. In the factory, workers gaze in amazement at the high-end components manufactured using 3D printing technology.

“In the past, manufacturing these parts was not only time-consuming and labor-intensive, but also incredibly expensive.”

"Now that we have this technology, efficiency has more than doubled!" an old worker exclaimed.

“That’s right, and the quality is also more guaranteed. Our country’s manufacturing industry will definitely take a big leap forward because of this technology,” a young worker next to him chimed in.

For 12-nanometer to 3-nanometer chip technology, the research team, led by Gao Xiaoguang, quickly built an experimental platform and began chip design and manufacturing experiments.

Inside the laboratory, various advanced instruments and equipment flashed their lights, and researchers were busy and focused.

After countless trials and optimizations, the first batch of 5-nanometer chips based on the new architecture and new process was finally successfully manufactured.

The entire laboratory erupted in cheers the moment the chip was successfully manufactured.

"We did it! We finally succeeded!" a researcher shouted excitedly.

"The performance of this chip is even better than we expected. With it, we have the capital to compete with foreign countries in the electronics and information industry." Gao Xiaoguang looked at the chip with satisfaction in his eyes.

These chips not only surpass similar international products in performance, but also reduce energy consumption by nearly 30%, bringing a huge competitive advantage to my country's electronic information industry.

Major electronics companies have come to seek cooperation, hoping to apply these chips to their products as soon as possible.

Breakthrough progress has also been made in the application of complete lithography technology. Based on the information provided by the space monument, researchers have successfully developed a new generation of high-end lithography machine prototypes.

When this lithography machine prototype appeared before everyone, it was as if a technological monument had stood there.

After testing, the lithography machine's resolution and production efficiency have reached international leading levels, providing a solid equipment guarantee for the independent and controllable development of my country's chip industry.

"The birth of this lithography machine marks the fact that our country has finally broken free from its dependence on foreign countries in the field of chip manufacturing equipment," a senior lithography machine expert said excitedly.

"Yes, in the future we can produce high-end chips independently and no longer have to worry about being held back by others," another researcher said with emotion.

Although beam lithography technology is still in the theoretical research and experimental exploration stage, it has already attracted widespread attention from the global scientific research community.

Gao Xiaoguang and his team have collaborated and exchanged ideas with top international research institutions to jointly promote the development of this cutting-edge technology. At an international academic conference, Gao Xiaoguang, representing the Kyushu research team, showcased the research results of beam lithography technology to the world, causing a sensation.

"Kyushu has taken the lead in the world in the research of beam lithography technology, which will lead to a new round of revolution in global chip manufacturing technology," commented an internationally renowned scientific research expert.

“Yes, collaborating with the research team from Kyushu gives us great confidence in the future development of chip technology,” another foreign researcher said.

With the continuous application and promotion of these technologies, Kyushu's scientific and technological strength has been rapidly enhanced. On the international scientific and technological stage, Kyushu has gradually transformed from a follower to a leader, and many countries have actively sought scientific and technological cooperation with Kyushu.

However, technological development has not stopped there.

While conducting in-depth research on the technical data provided by the space stele, the Kyushu research team was pleasantly surprised to discover that it also contained information on key areas such as naval technology, turbofan engines, and aviation and aerospace technology. This information was like a timely rain, nourishing Kyushu's development in these fields.

The ship technical data details how to create a more advanced hull structure to improve the ship's speed, stability, and stealth capabilities.

From the application of new composite materials to the design of advanced propulsion systems, every detail makes the creation of a modern maritime weapon possible. Researchers studied these materials day and night, gradually sketching out a blueprint for a powerful fleet for the future Kyushu Kingdom.

"With these technologies, our ships will achieve a qualitative leap in performance, enabling them to better safeguard the nation's maritime rights and interests," an excited ship design expert said.

“Yes, we can build faster, more stealthy, and more powerful warships, so that no invading enemy will dare to underestimate us,” another naval researcher said with great anticipation.

Turbofan engine technical data focuses on how to improve engine thrust, reduce fuel consumption, and enhance reliability.

Through optimized design of core engine components, and the adoption of new high-temperature resistant materials and advanced manufacturing processes, a powerful boost has been injected into the aviation industry of Kyushu.

After seeing these materials, the members of the aviation research team seemed to see a bright future for aviation in Kyushu.

"These technologies will give our fighter jets more powerful performance and allow us to gain an advantage in the air," an aero-engine expert said excitedly.

“That’s right, we can develop more advanced civil aircraft engines to enhance the competitiveness of my country’s air transport industry,” another civil aviation researcher said.

The aviation and aerospace technology data cover a wide range of aspects, from the overall design of aircraft and flight control systems to space exploration technologies.

These materials opened a new door for Kyushu's aviation and aerospace industry, giving researchers hope for making great strides in the space field.

"With these technologies, we can achieve more innovation in the aviation field and enhance our country's aviation strength," said an aviation design expert.

"In the aerospace field, we may be able to achieve even greater breakthroughs in space exploration and make greater contributions to humanity's space endeavors," an aerospace researcher said with great anticipation.

Over the next decade or so, the Kyushu research team, led by Gao Xiaoguang, made full use of these technical materials to continuously innovate and make breakthroughs.

The application of naval technology has enabled Kyushu's naval fleet to gradually grow stronger, becoming an important force in maintaining peace and stability at sea;

Breakthroughs in turbofan engine technology have enabled Kyushu's aviation industry to flourish, enhancing its air superiority not only in the military field but also gradually securing a place in the civil aviation sector.

The development of aviation and aerospace technology has enabled Kyushu to achieve a series of world-renowned achievements in space exploration, making it an important participant in global space exploration.

The old vulture, once a leader in the field of technology, was gradually surpassed in the face of the rapid technological development of Kyushu.

Thanks to the technical data brought back by Gao Xiaoguang and the tireless efforts of the research team over more than ten years, the Kingdom of Kyushu finally surpassed the old vulture in science and technology, becoming the world's number one.

Throughout this process, Gao Xiaoguang has always stood at the forefront of technological development. His name has become a symbol of the rise of science and technology in Kyushu, inspiring generations of young people to devote themselves to scientific and technological endeavors.

As a result of its advanced technology, the Nine Provinces have projected a more confident and powerful image on the international stage, leading the global trend of technological development and writing their own glorious chapter...

(Complete the book!)