At two o'clock in the afternoon on November 2, 1996, the sky in Hollandia was slightly sunny after rain.
Five cars were driving on a wide road in the suburbs. Chen Yi and Zhang Meirun were sitting in the commercial vehicle at the back, while Mariko Shinoda was acting as the driver.
At this time, Zhang Meirun was slumped in her seat without any image, and she seemed to be unable to get excited about anything. Chen Yi also seemed to have a fairy-like expression on his face. Mariko Shinoda, who was driving in front, looked at the negative energy in the rearview mirror. The two people's faces turned red as they remembered something, and couldn't help but complain.
"Master, you are still young, so you must exercise restraint!"
Chen Yi just glanced at it and said lightly: "Oh, I understand, how about you come with us tonight?"
Zhang Meirun also said lazily: "Mariko, I feel that you are very energetic."
Mariko's expression suddenly froze, she lowered her head silently, and began to squat in the corner and draw circles in her mind.
For the next half hour, the three of them did not communicate.
The convoy suddenly left the broad avenue and drove into a muddy dirt road, and soon entered a rolling mountain range nearly a thousand meters high.
This part of Java, New Nea Island, can be said to be vast and sparsely populated, and this area is even more uninhabited. It is only 30 kilometers away from the nearest large-scale port under construction, Brass Port, which is a base for farming. Good place.
The five cars drove into a valley, and a large stone on a cliff clicked, revealing a passage.
This place is much more arrogant than the Caucasus and the Kubol Gold Mine. This passage actually has a bit of a science fiction style.
Five cars entered the passage directly, and after traveling for about four kilometers, they slowly stopped in a huge parking lot. After a group of more than a dozen people parked their cars, they got out of the car together, and Chen Yi and Zhang Meirun also got out of the car. He changed his lazy attitude and walked into a metal elevator surrounded by a group of people.
"Commander, welcome to the New Guinea Bioengineering Research Center No. 1."
The elevator ran down for about fifty meters and then stopped. At this time, the display panel showed that it had reached the entrance to the first underground floor. As soon as the door opened, the electronic sound of the Legion was transmitted to everyone's ears.
"Well, let me see how the research on biological computers is going."
"Okay, please follow me."
Zhang Meirun also waved her hand to let others move around on their own.
"You don't need to worry about the three of us. You can walk around by yourself. Please note that some places are closed to traffic."
"Hi."
Chen Yi, Zhang Meirun and Shinoda Mariko directly boarded a small scooter arranged for them by the army and walked in the corridor of the underground research center.
With its angular shape, everything seems to be spotless. Coupled with the avant-garde lift doors, everything here is full of science fiction style.
Of course, this is only the first floor as a research center. The style of the following floors becomes as pragmatic as the Kubol Gold Mine.
Under the leadership of Legion, the car arrived at a milky-white style laboratory.
Through the glass, Chen Yi looked at the piles of small transparent petri dish containers in the vacuum chamber stacked like Arhats to form "pillars."
This is a protein culture room where proteins are mutated under various environments and finally tested for their various properties.
Biological computers may not be as popular compared to quantum computers, but when it comes to choosing the next generation of computers, Chen Yi prefers to first develop a biological computer that can allow him to perform miracles, rather than directly developing a quantum computer in one step. Then try to study how to create quantum superposition states on protein molecules in biological computers.
He won't give up on either, it's just about focusing on the biocomputer first based on difficulty.
After all, the real quantum computer had not yet been manufactured when he first traveled through time, and the powerful players of the biological computer Blue Star had already produced a lot of finished products since the 1980s. There is no conflict between the two. It is not impossible to use biological computers to achieve quantum entanglement inside them, and there is no need to be so clear-cut.
Biocomputers have a lot of advantages, including small size, high efficiency, ultra-high fault tolerance, self-healing and good stability, and storage density that is trillions of times that of ordinary disk memory.
It also has super parallel processing capabilities and can realize logical operations through biochemical reactions in a small area. Tens of billions of DNA molecules constitute a large number of DNA computers that can operate in parallel.
And because the components of the biological computer are biochemical components composed of organic molecules, they work using chemical reactions, so they only require very little energy to work, and there is no signal interference between circuits.
Having said so many advantages, and now that Blue Star has produced so many finished products in many laboratories, there must be a reason why it has not been applied on a large scale.
Biocomputers are good at everything, but there is one thing that makes them relegated to the sidelines - information extraction is very, very, very difficult.
This may be a bit abstract. Let’s give a specific example: a two-hour study material on a certain otaku’s hard drive. On an ordinary computer, excluding those that you want to review over and over again, you can finish reading it in two hours at most.
Of course, some impatient people may fast-forward the movie to the end in less than half an hour, but if you use a biological computer to watch the movie, it is estimated that it will take ten years to finish, which is better than slideshows. There are too many b. . .
Who can bear this?
Imagine that a biological computer has completed all human calculations so far in one day. If it takes more than a second to download a study material, you can directly say that this machine is too rubbish.
But if you want this film to be broadcast, it will take ten years because of the extremely slow information extraction speed. No one can stand it.
This is why biocomputers have not become popular.
However, Chen Yi said that he would use his traditional artistic skills - to create miracles with great force.
The specific work can be divided into three steps:
1. Convert protein chemical biological reaction signals into electrical signals.
2. Find a special protein that can accept a special algorithm written by Chen Yi to solve the problem of extremely slow information extraction speed.
3. Develop relevant software ecosystem.
In fact, Blue Star has already solved the first step. Now the scientific research institutions in the mainland alone have developed no less than twenty kinds of biological computer external devices, each of which can convert biochemical reactions into electrical signals very well.
The second step is the most difficult step, and it is also the biggest obstacle to the biocomputer industry. Once this problem is solved, the other two problems can be solved with money.
Chen Yi also had an idea for the third step early on, and he still worked hard to achieve miracles, but this step relied on artificial intelligence to perform exhaustive calculations.
He plans to first write an operating system ecosystem suitable for biological computer logical operations, and then cooperate with artificial intelligence to continuously optimize it until it is completed.
This method can only be done in a short time by a cheater like him. If artificial intelligence is used, the legion can do the job, and now that Luo Tianyi has become a strong artificial intelligence, she can complete all the work without Chen Yi.
As for the operating system, Chen Yi has already developed a prototype of a prehistoric ecosystem with very good compatibility. He can use its excellent compatibility to directly compete with biological computers and constantly find bugs and optimize them.
Now the job of this laboratory is to cultivate a large number of proteins and screen them one by one.
Either a blind cat encounters a dead mouse and his luck is overwhelming, allowing Chen Yi to hit a suitable protein molecule, or based on statistical data and combining some of the advantages of all samples, he designs an ideal base structure and then continuously debugs it. Let the protein molecules mutate toward this structure and artificially synthesize a protein that exists only for biological computers.
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