I ask you to build tractors, but you build rockets?

Chapter 402 OGAS2.0

"In the next 18 months, the base's manufacturing model will undergo a new round of upgrades to achieve a higher degree of automation and a higher yield rate."

On June 13, Serev issued a notice on the base's intranet, announcing a major transformation of OGAS and upgrading it to the OGAS2.0 system.

In OGAS1.0, the base has implemented a top-up computer management model, allowing computers to formulate production plans based on optimal algorithms, which not only reduces working hours but also saves costs, achieving a maximum efficiency of 50% on a single product. promote.

OGAS2.0 introduces artificial intelligence models and industrial software developed by the base into the command system, and will implement automated reforms in areas such as warehousing, logistics, and processing that still have a high degree of human intervention.

When developing artificial intelligence, the base's largest aerospace power department worked hard to integrate it with industrial design software and processing equipment to make processing and manufacturing intelligent. Ultimately, computers can complete everything from planning and distribution to product manufacturing and warehousing without manual supervision. The entire industrial chain of logistics links.

This has many similarities with the "unmanned factory" that will become popular in the near future, but the base's product line is far more complex than the outside world, and the probability of plan adjustment is high, making the difficulty a hundred times higher.

If OGAS2.0 completely achieves its ideal goal, then as long as the materials enter the base, they can be almost separated from all human intervention and be transferred to various processes by intelligent equipment controlled by various central computers until the finished products are put into storage.

By then, the number of personnel in the production process can be reduced to less than a quarter of the original number, but the efficiency will be increased by another 50%, and the labor-hour cost will be significantly reduced again.

If it is an ordinary enterprise, after doing this, it will either be a major expansion of production or a major layoff. The existing production capacity of the base will be enough and there is no need to expand again, but there will be no layoffs.

Ordinary companies lay off employees because they don’t need so many workers in production technical positions after the level of automation increases. Xinyuan...

"Zheng Yongliang, Cui Zixuan, Cheng Huijin, Zhu Hui, workshop four, second office of the Ministry of Aerospace Power, level D..."

Meng Kefei, the director of the second office, entered the data of the four people in front of him into the computer, checked the boxes and refreshed, a string of characters popped up:

"Z2Y4W14CCE"

The first five characters are the base department codes of the four of them, the last four characters mean the evening of the 14th (E), and CC means C+ level.

Meng Kefei: "Did you see everything? Remember, there are many outsiders in the base. Be careful when using mobile phones outside. When the time comes, find a hidden place. Do you hear me?"

"yes!"

"clear"

"Thank you, Director"

Employees within the base all have comprehensive ability ratings issued by the research institute. The ratings are consistent with the system's judgment and cannot be seen by the outside world anyway.

The D-class in the production workshop have already developed talents with both technical skills. After invisible "layoffs", they will be transferred to other departments and upgraded based on their personal abilities.

The number of technical positions will be compressed, and redundant personnel will be transferred to research and development positions after upgrading to improve the research strength of the base.

There are about 2,400 people in the base who will be upgraded in the next few months. As long as Lin Ju takes time to use cards on the list every night, he can increase the system's comprehensive research power by several levels - anyway, C-level and D-level. The card is not expensive and costs a total of 4 billion.

In addition, the attached C-level base and Qingshan base are also within the scope of the plan, but the latter has recently been heavy in production tasks and the level of automation is not as high as the base, so it takes more time. Some of the personnel saved from the base are also sent here to strengthen R\u0026D and manufacturing capabilities.

The implementation of OGAS2.0 is of course not that Serev simply wants to upgrade OGAS1.0, but is preparing for the future.

Staff upgrades cost 4 billion, but those are system funds so it's okay, but in reality the expenditures are also quite large.

Just to prepare for comprehensive intelligence, the current "Xingchen 2" and "Xingchen 1" supercomputers must be transferred to backup and the new "Xingchen 3" supercomputer must be built, as well as several distributed data processing centers. , which requires four months of production capacity of the base's semiconductor production line and the purchase of more low-level electronic devices from the outside world.

OGAS2.0 not only improves production efficiency, but also makes the entire base truly pervasive. All areas within ten kilometers of the radiation are included in real-time control, and security is also greatly improved.

In addition, the internal organizational structure of the base has also been adjusted to some extent. The first is to encase the laser laboratory and establish the Optical and Precision Mechanics Department. The second is to reorganize the Space Vehicle Department into the Space Technology Department to begin to include extraterrestrial construction tasks.

At the same time, a light nuclear research group was secretly established to start recruiting talents to carry out preliminary research on nuclear fusion technology.

Obviously, these adjustments are all due to the lunar development plan and the forward-looking fusion technology.

…

24 hours ago.

After several days of restless analysis of the two new technologies in the system, the base had a rough understanding of the various subsystems included in the two rewards, and wrote a simple and easy-to-understand report to Lin Ju.

The first is the eye-catching laser smelting satellite. After Ye Changsi’s analysis, the so-called gas plasma specular reflection technology is theoretically feasible, but without system technology, it will take at least fifteen years for the current world to achieve it. breakthrough.

The upper limit of this technology is ridiculously high. As the control accuracy and understanding of surrounding structures and light improve, the effect becomes stronger and stronger. The exponential increase in laser power is not to provide additional energy, but to reduce the pulse interval of the laser by superposition. One hundred times more directivity and higher energy density than ordinary lasers.

If it is used to its extreme, a laser beam can still maintain its power without fading at an unimaginable distance.

Judging from its prospects, it can be used until the age of the universe and will not be eliminated, and it is not even just used for lasers.

In addition, it contains gaseous plasma control technology. Although the method is different from the weak force control in "Introduction to Radiation Propulsion Technology" and the advancement is incomparable, it is the ultimate in current electromagnetic control technology and is not used in fusion devices. potential.

There is also its laser light source. Although the power is "not large" at only 10MW, it uses high-energy free electron exciter technology that the base has not yet conquered, so it is so sustainable and saves a lot of time and energy.

As for the 1500 kV electromagnetic acceleration track, it is mediocre. It is almost the same as the world's first-class level. Superconducting materials have made some progress, but the acceleration track material is very advanced. It is a new type of material doped with a large amount of non-metals. It is still relatively new to mainstream material science.

The main advantage of this material is that it can withstand extremely low temperatures and has extremely high stiffness. After all, it is a 5-kilometer-long acceleration track. The acceleration of objects when accelerating is extremely high. If the material deforms, it will be very troublesome.