The research is bound to take a long time.
Fortunately, the external environment has left them a lot of time.
Excluding the self-replication technology, the remaining technologies are either breakthroughs or traceable.
In fact, they are not so illusory and all have opportunities.
Solved in a short time.
According to Cao Chuan's calculations, they will integrate a series of technologies and create a batch of prototypes in up to three months.
He didn't know how his progress was going, at least based on the simulated progress according to the rules.
He found that it would take quite a while to completely complete it.
"It's been almost 10 days.
This is the longest rules simulation so far."
Cao Chuan said to himself.
There were several drawings drawn in front of him.
They were all conceptual products that could give him certain ideas. , but there is still a long way to go to achieve his expectations. " In fact, he still had some reservations about his remarks that day.
Why build a mother machine to produce all unmanned units?
If there is one, obviously the scalability of the mother machine will be restricted.
If there is a problem, even more It is possible that the original design will have to be completely overturned.
Yes, scalability may be the only flaw in the design of the mother machine.
It seems that humans can only give birth to humans forever, and cannot give birth to others.
This is a need for protection.
It cannot be completely said to be wrong, but in the second generation Under the condition that the unmanned unit is not yet mature, locking yourself in this way is undoubtedly asking for death.
So what he really wants is to use autoreplication technology, or the concept of autoreplication, to create a high-precision joint production workshop, including production equipment with multiple functions, independent of each other, while maintaining the production efficiency of unmanned units.
It can also cope with changes and provide adjustable space.
As for the self-replication of the joint production workshop, it is obviously not needed for the time being.
It is like the queen bee in the bee colony.
The queen bee can exist for a long enough time.
Why not let humans produce the joint production workshop on their own?
In the factory covering an area of nearly 1,000 square meters, a large number of equipment is placed, with functions involving sensor manufacturing, resource smelting, wafer manufacturing, chip engraving, ammunition manufacturing, engine manufacturing, assembly robotic arms, and robots, etc.
On the whole, such a complex alone can be regarded as meeting the basic conditions for self-replication.
Obviously, what he wants is not such a rough patchwork, which will only bring greater costs, risks and human participation, and has nothing to do with self-replication. .
The reason why Cao Chuan puts these things here is because he believes that by automating and integrating these devices, he will achieve his goals.
What is easier to do is automation.
The reason why production equipment still requires human participation is mostly caused by the unstable external environment.
If there is a way to improve the technological level of the equipment, including vacuuming and dust-free, and using more durable production materials, A higher process level can solve the problem.
After the rules simulation, Cao Chuan had several new equipment drawings in his mind, and he was convinced that these production equipment could maintain production for several months, or even for several years without problems.
A machine that never breaks down requires no human involvement to achieve the goal of automation.
Then, he considered equipment integration in order to improve efficiency, save space, and reduce costs.
Because of the need to take into account scalability, this process suddenly became difficult to do.
This is also the reason why in the process of human industrialization, a universal machine that can produce everything has never been born.
Many production equipment are divided into two parts.
It can improve efficiency, save space, and reduce costs.
Fortunately, it can maintain a complete unmanned unit production system.
In the process, what production equipment can be separated and what production equipment must be integrated are all based on actual needs.
Cao Chuan took a few samples of the second-generation unmanned units given by the research department.
Cao Chuan conducted rule simulations without methodology.
It was the simplest and most straightforward to divide the production process according to the field, but it had to be compared with the actual unmanned units.
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Be specific.
However, there is also a new problem here.
Even a realistic unmanned unit is meaningless if it is not typical, because once the design of the unmanned unit changes, the joint production workshop must also be changed.
The matter comes back to how to create a mature second-generation unmanned unit.
However, the second-generation unmanned unit must take into account the design of the joint production workshop.
If the joint production workshop produces an unmanned unit, it will be completely impossible to build it. what to do You must first understand the design of the joint production workshop before designing the second generation unmanned unit.
This contradictory relationship of mutual preconditions is solved through continuous iteration in the field of life.
Now, Cao Chuan has completed it through optimization again and again.
No matter what, first follow the existing unmanned unit drawings, and then design the corresponding joint production workshop drawings.
Anyway, there is no mass production, so you never have to worry about costs.
With the guidance of such a set of ideas, the subsequent rule simulation was much smoother.
It was basically a small and miscellaneous project, lasting a few minutes or hours at a time, which cumulatively took up a lot of his time.
"In the material production stage, it is very necessary to integrate equipment for smelting, grinding, screening, catalysis, processing, and shaping.
The combination will solve most material processing problems, which is a breakthrough.
It is not only used in unmanned units Manufacturing, with slight modifications can also be used in the production of spacecraft, buildings, and weapons and equipment.”
"The chip manufacturing process can also be integrated.
Within companies such as TE, NVIDIA, Qualcomm, etc., joint chip manufacturing solutions are also quite mature.
If the product is mature and will not be eliminated in 10 or 20 years, why not integrate it in Together" "Sensor Manufacturing" "Artificial Intelligence Implantation"
In this way, it didn't take long for the huge factory to become much emptyer.
After continuous integration, dozens of types of equipment finally turned into several multi-functional production equipment with more obvious functional distinctions.
A preliminary joint production workshop has been set up, with a scale of about 500 square meters.
It has the ability to produce 21 types of unmanned units, can collect more than 100 types of conventional minerals, and also supports a certain degree of software and hardware upgrades.
It has been operating stably for more than 100 years in an environment of 100 degrees Celsius to plus 100 degrees Celsius, and its production capacity is roughly 500 unmanned attack aircraft per month.
In addition to the joint production workshop, there are also the initial 5 second-generation engineering vehicles and 5 second-generation mining vehicles as a combination.
Only one combination can initially meet the self-replication requirements.
"Is it like playing a real-time strategy game, such as Red Alert or StarCraft?"
Cao Chuan thought to himself, and then verified it with the samples produced by the research team.
He quickly discovered many new problems and continued to optimize them
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