Among the callees were programmers and experts in the design of computing systems, as well as sociologists, jurists, scholars from Chinese think tanks, and members of the security sector.

But with the exception of a few who know that they are designing a bio operating system core, the vast majority of people don't know what they are doing.

This system, named "Nuwa Kernel", is designed and built through the virtual space of Nanke's Dream World.

And Huang Mingzhe also involved the ghost, in order to avoid someone playing tricks, the Nuwa core will be applied to the cell chip, and the cell chip may be used on humans.

The importance of Nuwa's core is related to the future of mankind, and it must not be exploited.

……

On the other hand, the Institute of Human Evolution underwent an internal reorganization.

The previous route of focusing on X-gene fortified serum was denied, and it was changed to fully support Fang Ge's bio-computer, bio-based nails, cell robots, and so on.

Although Li Jiahang, the chief researcher of the X Serum project, is very disappointed, the X gene fortified serum does have a bleak future at present.

Since the route of X gene fortified serum is difficult, and the route of bio-computer has begun to dawn, of course, we must concentrate on winning bio-computer.

With the addition of hundreds of researchers such as Li Jiahang, the biocomputer project has once again accelerated.

Wen Kehan and Jiang Tiansheng were responsible for setting up the Nuwa kernel laboratory, communicating with the system design and construction team of Nanke Dream Realm, and designing and building the Nuwa kernel together.

For the Nuwa kernel, the R&D team decided on the core route and ideas of R&D after some discussion.

That is, "secure", "stable", "federated array", "compatible", and "strongly correlated". (7) (8) Chinese is the fastest update on the whole network ωωω.78zω.cδм

Security and stability are indispensable, and sociologists have proposed to leave the nuwa kernel in blank to personify, that is, to strictly limit the programs about the type of artificial intelligence in the nuwa kernel.

Because many people are worried that biological computers will give birth to real intelligence, and once biological computers give birth to intelligence, the consequences will be unimaginable.

Imagine that a biological computer, which is integrated with human beings, suddenly one day gives birth to intelligence, and then produces personality, can one body accommodate two conscious bodies?

Obviously impossible, the consequence is that the human consciousness body is swallowed by the biological computer, and thus becomes a "new human".

No one can accept that when he wakes up, he becomes a different person, and this "person" can inherit everything from the original owner seamlessly.

And the best way is to make Nuwa's kernel blank, and after implanting it in the human body, it will be directly used as artificial intelligence by the human consciousness itself, which will fundamentally prevent the birth of intelligence from biological computers.

It's like a piece of farmland, if left unchecked, it may be overgrown with weeds, but if you build a greenhouse and plant crops, the weeds will lose their living space.

Therefore, Nuwa's kernel uses as much as possible to set the underlying rules, and then allows the human consciousness body and the biological computer to be completely fused.

This is a fundamental design idea, and it is also the guiding ideology for the future upgrading of Nuwa's kernel, human beings are to strengthen themselves, not to become slaves and biological batteries of computers.

Strangle artificial intelligence from the beginning to avoid endless troubles.

With the efforts of a large number of professional programmers, experts and scholars, the progress of Nuwa's kernel research and development is advancing rapidly.

After all, now that they have entered the era of brainwave input and virtual networks, the work efficiency of Huaguo programmers has increased by more than ten times.

After setting the brainwave bands with strong correlation between cell chips, the process of building a joint array of cell chips begins.

The design idea of the cell-chip joint array draws on the neuronal network of the human brain, and adds the multi-threaded working mode in modern electronic computer systems.

By allocating the computing power of a biocomputer, it is possible to multi-purpose and without conflict.

These are all solutions that can be used for reference, and there are too many ideas that human beings have opened their minds over the years, and there are countless ideas they can learn from.

For example, in the human-column supercomputing mode, the biological computer can be connected to the public network, which can form a human supercomputing array and integrate the computing power of everyone's biological computer.

However, this part of the technology is very controversial, and the R&D team has temporarily shelved the compilation of this program.

Another important system to complete first is the awareness protection system firewall.

For example, it is mandatory to set the gate value of brainwave flow to prevent someone from using the information torrent to attack the biological computer system; There is also a forced network disconnection mechanism, which is also to protect the information used and the safety of life.

Awareness protection systems are very important, and if a biological computer system is not secure, users will not only lose property, but may even endanger their lives.

Once the system permissions of a biological computer are stolen by hackers, the consequence is that hackers can manipulate a person's body.

This phenomenon is very frightening, and may even trigger human rejection of biological computers.

As first-generation system designers, everyone thought carefully about the possible negative effects of biological computers, and tried to plug these existing vulnerabilities as much as possible.

……

Inside the laboratory.

Fang Ge, Lin Sha, Li Jiahang and others are studying Huang Mingzhe's particle control technology.

After a few days of understanding, everyone knew the power of particle control technology, with this technology, cell chips can achieve the manipulation of particles through specific conditions.

Of course, the technology seems very simple, but without the presence of X-gene serum, ordinary cells would not be able to control particles at all, or they would not be able to actively control them.

After the fusion of X-gene serum, cancer cells now have strong vitality and strength, and can store energy, which is equivalent to about 23.5 times that of ordinary cells.

Whether it is the macroscopic universe or microscopic particles, their movement is in the conservation of energy, there is no high-energy storage mechanism, and the cell-chip does not have the strength to manipulate the particles.

The particles mentioned here refer to atoms, small molecules, and a small part of polymers.

Li Jiahang was amazed: "I didn't expect Academician Huang to have this kind of technology. ”

"At present, there are only seven kinds of particles that can be microcontrolled by cell chips in the technology we have screened, and some other particles need to be further improved." Fang Singer is a relevant test report.

The 7 kinds of particles that can be microcontrolled by cell chips are: iron atoms, calcium atoms, zinc atoms, aluminum atoms, silicon atoms, carbon atoms, and phosphorus atoms.

From here, it can be seen that metal-like atoms are the easiest to control, then semiconductor-type atoms, and the most difficult atoms to control are gas atoms.

As one of the basic elements of the human body, the carbon atom has attracted the attention of a group of researchers.

However, semiconductor atoms are much more difficult to control than metal atoms.

Through the combination of X-gene serum and modified proteins, work began on the development of protein components for carbon atom controllers.

This kind of experiment is different from the general research and development of semiconductor chips or electronic components.

The research and development of cell components adopts the mutation screening method, which is to continuously induce cancer cell mutation, and then screen out excellent mutant varieties for generation after generation of induction, screening and cultivation.

There are advantages and disadvantages to this approach.

The advantage is that it is relatively easy to induce mutation, and the experimental production cost is low; The disadvantage is that the randomness is too large, and it is difficult to determine the progress of the study.