However, this kind of simulation is absolutely impossible at this stage, and people can only simulate simple single-celled organisms. Pen & Fun & Pavilion www.biquge.info

Because the computational amount of the whole process of human life simulation is unimaginable.

According to rough estimates, the human body is made up of about 1,800 trillion cells, and about 100,000 genes made up of about 3 billion base pairs are present in these cells. Every second, all cells are genetically produced to regulate life activities.

Simulating the activity of one such cell is already extremely complex, not to mention simulating 1,800 trillion of these cells, note, not 18 million, not 180 billion, but 1,800 trillion, if you allocate 6 billion people around the world to help you complete the simulation work, one person has to simulate 300,000 cells. If each PC could simulate the life activities of 30 cells at the same time, each person would need 10,000 PCs to do the job.

This is only a simulation at the cellular level, from cells also constitute various tissues: epithelial tissue, connective tissue, muscle tissue, nervous tissue, and from a variety of tissues also constitute the brain, heart, lungs, stomach, liver and other organs.

The life activities of these tissues and organs are more complex, more interconnected, and more difficult to simulate. Imagine how many muscle cells are used to make movements, and how many cells in the digestive system secrete digestive juices to absorb nutrients from the time a grain of rice is chewed. And that's just the simplest action a person does in a day.

What would be the amount of computation to complete the simulation of all the activities of all the 1,800 trillion cells in a human body in a day?

Moreover, the human body is a living organism, and the simulation of cells cannot be simply piled up, but organically related, just like the Internet, or even closer than the Internet. Between them is not only the transmission of information, but also the transmission of matter. Interconnected information is astronomical every second, making it difficult for even today's fastest computers to do the job.

However, this is only the tip of the iceberg, and the impact of environmental factors has not yet been factored in. The alternation of day and night, the change of seasons are only small problems, and there are millions of different types of creatures in the world, and their impact on the human body is the most important. What you eat to cause allergies, what bacteria and viruses kill you, and all the kinds of organisms and their derivatives that you can come into contact with in your daily life have to be considered and need to be constantly calculated.

These various organisms constitute a complex biological environment of the simulated object, and if it is necessary to simulate this biological environment at the genetic level, it is not enough to increase the computation by a factor of 10,000. Sadly, we have to model this, because we live every day in an environment full of various microorganisms such as bacteria and viruses.

However, if all this work can be done, we can simulate and calculate what kind of person a person can grow and develop into in an ideal state, that is, without lack of nutrients and malignant diseases that cause abnormal growth, including his abnormally accurate height and weight, very accurate bone shape, accurate to the micron, clear and accurate appearance than a photograph, and even his fingerprints, all of which can be calculated.

When the level of human technology reaches the point where this level of deduction can be carried out, then the problem of lifting the ban on genetic experiments can be considered, because all unknown risks can be calculated by deduction. However, at this time, it is difficult to say whether genetic experiments are still necessary, and it is enough to directly simulate and deduce.

Let's talk about the Trent Bay Empty Ship Incident, which led to the signing of such a strict and demanding Mexican international convention to ban high-risk genetic experiments.

More than a decade ago, near Trent Bay in the Indian Ocean, local fishermen spotted a large ship drifting in the ocean. The ship's navigation equipment is set up to be autonomous, and all navigation, communication and power facilities are complete, with no damage and even 30 percent fuel. There were also no signs of an attack on the ship itself, the hull was intact.

It's a bit of an Indian Ocean version of the mysteries happening in Bermuda, but it's more terrifying than the Bermuda mysteries. Because inside this ship, more than a thousand sets of human clothes, shoes and socks were found scattered all over the place. The world was shocked as the truth of the incident was revealed.

Yuan Qidong once learned in detail about the empty ship incident in Trent Bay, and he remembered that the peculiar ship, somewhat similar to the shape of a flying saucer, could be semi-submerged, leaving only a small part of the bridge on the water, such a design is unique among large ships, so this ship is called 'floating saucer'. Yuan Qidong estimated that this design was to reduce the chance of the ship being discovered, because the bridge was designed to look like a small cargo ship.

According to the investigation, the 'floating saucer' is actually a scientific research ship with complete facilities, and it can also be said that it is a scientific experiment base floating on the sea. The guy who can afford to build this ship is certainly not an unknown person, but no matter how the relevant countries investigate, it is impossible to find out where the ship was registered, nor which company or individual it belongs to. This caught the attention of Interpol, who began to intervene in the investigation.

Various criminal investigation experts of Interpol investigated on the ship for many days, and found from various clues such as leftover items that there were originally more than 1,000 people on the ship, but in just one day, all these more than 1,000 people were turned into ashes.

Based on the various pieces of evidence they left behind, it can be inferred that they disappeared en masse on a day two months ago. They seem to have encountered some kind of terrible situation, and the evidence shows that they are panicking, and some rooms and places are messy.

The most terrifying thing is that everywhere on the ship: in the dining room, conference room, lounge, bedroom, wheelhouse, engine room, etc., there are clothes, shoes and socks everywhere. In these clothes, shoes and socks, and on the ground nearby, there was an unusual amount of dust scattered everywhere. These dusts are very, very fine, loose, and there are a lot of them.

Interpol intuitively felt that the dust was left behind by the missing people, but evidence needed to be found. In the end, they found only tiny shards of human teeth in the dust, confirming their judgment.

Human teeth are the hardest bones in the human body, many corpses rot to the end, and only teeth remain, many paleontological fossils, and only a few teeth. This shows how hard and resistant teeth are. If all the teeth were crumbs, what would happen to these people.

If the dust on the ship were the ashes of the missing, they would be too different from normal ashes. Instead of maintaining the shape of the bones, they are scattered in patches, more like fine soot. In the case of wind, it will not be long before it will drift everywhere.

And those clothes, shoes and socks are posed in all kinds of miserable shapes, showing the cruelty and horror of their masters' lives.

Because the circumstances of these suspected ashes were so special, Interpol began to work carefully, and after non-violently cracking the ship's access control system, some dust suspected of being human ashes was found on the beds in some enclosed spaces, and it also horribly maintained the shape of a person, but also collapsed together, as if sprinkled with flour. The men did not struggle and seemed to die in their sleep.

The situation was serious, and Interpol appointed Detective Jasenberg of the Century to take full charge of the matter, and Jasenberg lived up to the name of detective and finally found out the truth a month later.

In fact, the fact is very simple, it is recorded in the ship's monitoring system, but the monitoring system is connected to a large computer on the ship, all the data is stored in the computer, and it is strictly encrypted, and the encryption method is very unique, it is dynamic encryption, and the level of encryption is also very high, reaching sixty-four bits.

Cracking a password is like trying to open a lock with countless keys, and for this dynamic encrypted sixty-four-digit password, basically, luck is everything, otherwise, it is normal to count ten or eight years.

All personal computers on board are also cloud-run, with no local storage capabilities, and programs and data stored and recalled are stored in mainframe computers. Even the control system on board is controlled by this computer.

For more than a month, Jasenberg basically used it to crack the code. Jasenberg's luck was that the mainframe computer's protective systems were finally compromised by a combined attack by a number of cryptographic, math, and computer experts.

The contents of the database are horrifying, and it shows that a private organization built this floating scientific research base to conduct genetic research and experiments.

It's a pity that in the end, I didn't figure out which god did it. Maybe he himself knows very well that what he is doing is very dangerous and is not allowed by the laws of various countries, so he cleared all relevant information and became an invisible person. His final destination should also be on this ship, otherwise this ship would not have been discovered.

He recruited some crazy scientists, who were very creative and carried out a number of extremely dangerous basic research experiments, but they were lucky enough to land safely and do well. If these achievements are known to the outside world, they will definitely cause a sensation.

They solved the problem of precise genetic cutting, which has puzzled scientists for a long time, and it is very difficult to locate and cut tiny objects at the molecular level.

They are also very advanced in gene purification and cultivation, and creatively use optimal algorithms to solve a series of problems in this regard.

Perhaps their creativity was not fully developed, so they embarked on a much bolder experiment – the creation of new species. Maybe that's what they're all about, and those were hors d'oeuvres before.