Chapter 382 Hello, Super Brain
Lin Hong only improved the theory and hardware structure of eddy current electromagnetic data transmission before. This is a ** wireless transmission method. Compared with the increasingly popular wi-fi wireless transmission, the speed is more than N times higher, and even the current hard disk reading and writing speed is far from keeping up.
And this eddy current electromagnetic transmission mode seems to be tailor-made for the superbrain system.
In the "sky eye", there is no limit on the reading and writing speed of data. The change of switching protein is triggered instantly. It can be said that even with the transmission speed of logistics electromagnetic, the state gradient limit of switching protein cannot be touched.
Lin Hong first modified the previously made eddy current electromagnetic signal generator and transformed it into a vortex energy wave that sends ghost field, so that the brain can accept it.
This step is not difficult. It is mainly the structure of vortex electromagnetism and the production method of the generator of ghost field energy waves. He has already mastered it. He only needs to modify and integrate it accordingly.
After completing this step, he began to build the structure of a signal decoder in the sky.
This decoder is responsible for decoding the received vortex energy wave and converting it into a binary data format.
The decoding process can be simply regarded as a decompression process. After the information is highly aggregated and compressed, the three-dimensional vortex signal is decompressed into flat binary data.
Because the amount of information contained in the vortex signal is very large, the binary data corresponding to the very small vortex signal decoded may be very large.
Before that, Lin Honghu spent a long time experimenting and improving, and finally completed the distortion and decoding of the two beams of signals, so now he is familiar with this structure, which is very smooth.
However, the structure of this decoder is relatively complex. He was busy all night and only completed a relatively important core chip.
In the process of building this decoder, Lin Hong had a lot of good inspiration and ideas. His original plan to visit Xu Zhizhong during the day was temporarily cancelled by him. He decided to take out the decoder in one breath while the iron was hot.
Therefore, in the past few days, Lin Hong basically didn't go out. As soon as he had time, he stayed in his laboratory and kept doing experiments and tests.
Start with the simplest 1-bit data bit and slowly expand the number... In this way, the data is successfully transferred from the computer little by little to the "sky eye" storage structure.
Finally, after solving the last problem, Lin Hong successfully transmitted the data of Gu U in the computer to the "sky eye". This 96bt of information is translated into the English alphabet "hello-super-brian..."
"Hello, super brain!"
A simple sentence announced that Lin Hong's supernake system has officially entered a milestone stage. He successfully transmitted the information from the external computer to his brain!
This kind of thing, which is simply a fantasy in the eyes of others, was actually shown by Lin Hong himself!
If this news is spread, there are basically only two results. One is to shock the whole world, and the other is to think that Lin Hong is a psychopath and delusional.
Lin Hong also couldn't help but show his excited face.
The super brain system is slowly taking shape in his hand-made step by step. This sense of achievement is really beyond words.
Moreover, what he is doing is so special and incredible that even after seeing the final result, he feels that it is a little too amazing.
It's as if he is creating an unprecedented magical practice from the ground to the ground.
With the current technology, as long as he doesn't say it himself, others don't know that there is such a thing in his brain, and the most advanced and closest instruments in the world can't be detected at present.
This thing is really comparable to magic skills such as fairy spells.
Claire established a religious organization like Angras with just one "Medal of Faith". If Lin Hong establishes the supernabrain system, he can also establish a sect.
Lin Hong looked forward to the situation after the birth of the superbrain system, and then withdrew some divergent thinking.
Now, the surface form of this 96bt data in the sky-eye memory is just a series of switched proteins arranged together. These switched proteins represent binary bits in the state of "on" and "off". If you want to understand the information contained in it, you must also perform a conversion. This step is relatively It's relatively simple, and the key is how to show it.
Although it is barely understandable to read binary code directly with Lin Hong's current strong memory ability, this efficiency is really too low and very inconvenient. Simple data can also be understood with one eye. If there is more data, the brain is not enough at all. The most ideal form of expression is to use a monitor to display the data like a computer.
What is the strange thing that can act as a monitor in the human body?
[Answer] The case is self-evident.
The purpose of the computer monitor is to let the picture enter the eyes, so that the brain can recognize the information inside. Now, Lin Hong directly operates on the brain. If you want to achieve this step, you don't need to think about that step at all, just let the information directly enter the brain.
The question is, how to make the brain directly understand the signals inside?
Lin Hong now has the ability of internal vision.
He entered the state of inner vision, and then focused on the eyeball to micro-observe the visual signals to figure out how the eyeball is converted into brain signals for external light stimulation.
However, after careful observation for a while, Lin Hong found that the signal processing mechanism of the eyeball was too complicated. He could not list these signal conversion mechanisms one by one in a exhaustive way, which seemed to involve some intelligent processing mechanisms, and the signal had not yet been transmitted to the brain center. Changes have taken place before, which has caused great difficulties in his research.
In the end, Lin Hong had to give up this cutting angle. His method did not work at all. The signals received by the brain were processed halfway and were not accurate at all.
"Yes! Why is it necessary to transmit the signal directly into the nerve center? Just operate directly on the retina.
Lin Hong patted his head and found that his thoughts were a little too complicated.
Since the signal of the eyeball is so complicated, you don't have to worry about it. Just treat it as an encapsulated api function library, operate the retina directly, and then let it automatically process these signals, and don't care about the implementation details.
This principle is also very common in computers. The underlying system programmers generally encapsulate complex implementation details, so that application workers do not have to care about things related to hardware and system calls. They only need to know which functions can complete and what functions. When writing programs, If you want to implement a certain function, just call the corresponding function directly.
For example, draw a line on the display. Its essence is to operate the pixel lattice on the display, number the pixel lattice on the display, then use the horizontal and vertical coordinates to change its color and two degrees, and then change the pixels between the two points at once, so that a straight spot is drawn if It's too complicated to operate like this every time. So some programmers encapsulate this function into a function, which is directly named linE. It can accept the coordinate values of two X and y. When you want to draw a line, you just need to call this function and bring the coordinate value. Users don't have to worry about the implementation details at all.
In the same way, Lin Hong doesn't care about how the brain reads and interprets visual signals. As long as he focuses on the retina and observes how external signals stimulate the retina, as long as he follows this law to form a specific image, so that he can input visual signals into the brain.
The operation of the retina is relatively simple. On the retina, there is a cell called a "light sensing cell" that can sense light, convert it into an electrical signal, and then transmit it.
What Lin Hong needs to do is to simulate this state and establish a mapping relationship between a bit signal and the state of the photoreceptive cell, so as to realize the display on the retina.
In this way, as long as there is a bit signal input, the corresponding signal will appear on the retina, as if the eyes really see it.
Although theprinciple is simple, it is also a very complicated work. The operation of the visual membrane is accurate to cells, which is much more complicated than the pixel lattice operation on the display.
Fortunately, it is feasible to do so. All it takes is time and energy. Instead, you can also learn from the method on the display to establish a coordinate system for the position of light sensing cells on the retina, and then operate it through the encapsulated functional functions.
This step process is actually equivalent to the process of writing drivers for peripherals in a real computer. As long as the driver is written out and then wants to match the superbrain system, the superbrain can finally be built into a powerful biological computer.
Imagine that without a display, the system picture appears out of thin air on the retina; you don't need to wear headphones on your ears, and you can directly generate sound signals internally to easily "listen" to music; in addition, other sensory signals can also appear, such as smell, taste, touch... If you run games in the superbrain system or Watching movies can be completely immersive and achieve all-round feelings.
This is no longer the concept of 3D and 4D, and it can completely reach N. The effect.