Analog atoms have been put into use, and the items manufactured can be huge in all aspects, and the impact is undoubtedly very large, such as the production system robots have been expanded by 10 million times, and they can directly move mountains and seas, and they can carry entire spaceships, and it is very good to use them to do some rough work.

The armed robot that is ten million times larger, is about 300 meters tall, and its weight is more than one million tons, plus the huge weapons and equipment they carry, then it will only be heavier, although he is so huge and heavy, but his ability to act is not bad at all, this is because it is a material made of simulated atoms, and the combination and arrangement of simulated atoms will only be more reasonable and precise, and it is obviously superior to the material composed of naturally synthesized atoms, and in the same volume, it is far lighter than the material composed of atoms.

As a result, it is lightweight, whether it is in the deep sea, in low-altitude and high-altitude areas, on planets with high gravity, in the void of the universe, or in extremely cold or high temperature environments, it can be said that it has strong adaptability to various environments and is suitable for performing tasks in most environments.

With such a huge carrier, it can also be equipped with a larger computer, the material used to make the computer is still a conventional material, this kind of item is a minefield of simulated atoms, and it must not be made with simulated atoms, because the simulated atoms are too large, and the computer manufactured will be very huge, and the computing power is extremely poor, similar to this ultra-precision equipment, can not be made with simulated atoms, that will be the opposite effect.

Using the huge platform of simulated atoms, and then equipped with a huge scale of precision equipment, you can create something with super excellent performance, and the armed robot that is manufactured by combining the two advantages has huge power and the computing power of a supercomputer, and it carries a large number of sensing equipment, which is also a sophisticated and huge device, so that a combination of performance is not strong.

With so many resources equivalent to the entire Jupiter, it will take decades to achieve all the transformation work, there are too many things involved, but as long as the upgrading is completed, then Tan Qiusheng's strength will be qualitatively improved, and at that time, you can easily defeat the large starry sky monster! In the face of the giant starry sky monster sleeping on the L4 gas giant, he can also have the strength to deal with it head-on, so that there will not be such a powerless situation.

The transformation needs to be done step by step, everything has a priority, the engine of the quasi-giant planetary spaceship is a priority development project, whether it can operate normally or not, will determine the survival of the entire spaceship, is the most important thing.

But the collection of matter cannot be stopped, in this star system, the place that can be mined is basically mined, and if you want to get more material, you can only collect it from the nearby star system, but there is a problem here, that is, the current teleportation array is too small, and it can only be teleported to a spaceship of several kilometers in size, and it is impossible to teleport the asteroid spaceship over, because the diameter of the smallest asteroid spaceship is more than 400 kilometers.

To accommodate such a huge spaceship, it is necessary to build a larger teleportation array, and it will become extremely simple to construct such a teleportation array with simulated atoms, anyway, the design scheme of the teleportation array is ready-made, and it only needs to optimize the structure to create a teleportation array with better performance, and the super huge teleportation array can transport larger objects, which is extremely efficient for materials that are committed to transporting all nearby star systems.

Produce simulated atoms at the headquarters, and then transfer them to the spaceship, and the spaceship will be teleported to the nearby star system through the existing teleportation array, and then build a super huge teleportation array there, and finally at the same frequency as the super giant teleportation array space near the headquarters, you can complete the docking between star systems, and then it will be a regular transportation exchange.

With the passage of time, the speed of upgrading will be faster, when the giant production system robots and mechanical tools appear in batches, some places that do not need fine work, have adopted them, and the people who control them, they can already operate them remotely through the auxiliary control room, and give them various tasks, but what is not quite the same as before is that ordinary robots have not been eliminated, they are still active, and some places can not do without them, if humans need them to serve their daily life, just because they are relatively similar in size, the production of daily necessities, the cultivation of plants, the cultivation of animals and so on, are inseparable from them.

As for the manufacture of precision equipment, microrobots will be used, and they will produce more precise and miniature things, and millimeter-level analog atoms are produced by them, which can be seen how miniature they are! But these microrobots also need humans to operate and give instructions before they can work.

From conventional robots, to super-sized giant robots, to micro-robots, all need to be managed by people, if each person can control millions of robots, engaged in completing tasks at different stages, then the number of people who need to operate micro-robots will far exceed the sum of conventional robots and giant robots, and this order of magnitude of auxiliary control capabilities, in the face of complex and changeable tasks, will not increase or decrease the number of robots of various specifications.

The tasks that are still engaged in microrobots are all immutable assembly line work, so at this point, there is no problem that a person can control tens of billions of microrobots at the same time.

Conventional robots will face various problems in the real world, and they are engaged in a variety of tasks, so the complexity of the tasks is very high, and it is very powerful that one person can control millions of conventional robots.

Giant robots are too large in size, every move will seriously affect the surrounding environment, when doing tasks, you have to consider all aspects of the problem, the complexity of its control will surge, the usual maintenance is also a big problem, combined with calculations, a person can control their number will be reduced a lot, but in the unmanned area of work, do not have too many scruples, so a person can also control more than a million number of giant robots.

These three specifications of robots are basically equipped with everyone, but the specific distribution ratio will be different according to different tasks. Read the latest chapter of "Obsessive Survival Claw Book House" for free for the first time.