Chapter 316: The Road to Becoming a God
Tokyo, in the mountains below Inaichi Shrine.
At this time, Wang Yi was also dealing with the fourth mage tower!
Because silver can now be used openly, the progress of the Mage Tower has undoubtedly been greatly improved and it has also become much more convenient.
In addition, a lot of magic diamonds that can be used to replace charging are also made.
The wizard towers in Shudian and Qiongzhou have used more than a thousand tons of silver and successfully completed resonance.
In addition, the Mexican Mage Tower has been gradually improved by the tool people using local materials.
It's just that the distance is too far to form a resonance.
Now, Wang Yi regards Tokyo as a springboard and node facing the Pacific Ocean, connecting Shudian and Qiongzhou internally, and radiating outward to the Pacific Ocean.
In the future, when the offshore city reaches the middle of the Pacific Ocean, as long as enough resources are used in the city, it will most likely be able to achieve simultaneous linkage with Tokyo and Mexico.
So this is also very important.
Although Wang Yi has been staying at Inaichi Shrine since he came to Tokyo, he did not let You Ji and her son know about the construction of the wizard tower below, so the progress is relatively slow.
"Boss, we can't keep it secret anymore. The bracelet sales are so good that the number has far exceeded the number of chips we ordered."
After Wang Yi activated the second-level Daoyi Shrine Mage Tower, Lin Shiqin also made some reports and reminders.
"That's about it. If we can't hide it, then we can hide it. The DUV lithography machine itself is nothing big."
Wang Yi looked at the second floor of the Mage Tower, which had been polished more skillfully, with satisfaction. The experience gained from before was applied here, making this Mage Tower a second-generation Mage Tower that is more in line with the world in front of him.
Once this one is completed, the one in the future sea city will be more skilled and more perfect!
"If the boss doesn't mind, then I'm almost official."
"Yes, if anyone wants to buy our lithography machines, we can sell some to them, no matter who it is."
"clear."
After Wang Yi sent Lin Shiqin away, he pulled out a small box that looked like a desktop host from the mage tower in front of him.
"Mathematics is indeed the foundation of everything..."
Wang Yi looked at the silver box that he had forcibly created using magic power, and couldn't help but feel some emotion in his eyes.
In a sense, this is the most advanced quantum computer in the world today, with about three hundred quantum bits.
The key is that the accuracy can be considered as close to 100%!
Unfortunately, although quantum computers themselves sound very advanced and powerful, in fact, quantum computing currently has great limitations.
First, let’s talk about what a quantum computer is.
In fact, everyone now knows that traditional computers use traditional classical bits in binary, which are composed of countless zeros and ones, and it looks like a mathematical problem.
But to actually achieve this, it must be based on current physical rules.
The physical means by which traditional computers are realized are transistors and high and low electrical frequencies. High represents '1' and low represents '0'. They are controlled by transistors, and a huge number of them are used to form complex logic circuits, thus forming chips.
However, as the chip process becomes smaller and smaller and begins to enter the microscopic field, it is bound by the rules of the microscopic field. As the process gets closer and closer to the atomic level, the "tunneling" effect will begin to appear.
To put it simply, the transistor's original function of intercepting electrons fails due to the tunneling effect and does not have the desired effect. This will directly lead to errors in the logic circuit and calculations.
Therefore, when the chip technology reaches a certain limit, it becomes necessary to use various means such as multi-layer structures to achieve this circumvention. The traditional chip technology cannot be infinitely reduced, no matter how powerful the lithography machine is.
In this case, supercomputers have begun to follow the old path of the earliest computers, relying on continuously increasing size and the number of chips to complete the formation of larger-scale logic circuits and continuously increase computing power.
Quantum computers, on the other hand, use another kind of physical rules to express 0 and 1.
It also utilizes the superposition state of quantum itself to form another algorithm.
That is, the classical bits composed of traditional 0 and 1 are converted into quantum bits of superposition of 0 and 1, using the basic rule that the particle itself "collapses" after being observed.
Because the algorithm has also changed, the fields in which quantum computers and traditional computers excel are completely different. Because they are in a quantum superposition state, when doing something like "finding the optimal solution", the computing power of the quantum computer will increase exponentially with each additional quantum bit, which is equivalent to 2 to the power of N.
The current estimate of the number of atoms in the observable universe is on the order of 2 to the power of 300!
However, because it will collapse to a result after observation, the current limitations of quantum computers only make it convenient to use them for finding the optimal solution and synchronous expression.
For example, the pharmaceutical industry relies on analyzing protein structure to find the optimal sequence of molecular drugs.
Another example is materials science. It is easier to arrive at the optimal ratio by adding quantum computing in a try-and-seek manner.
Another example...
Optimal DNA sequence!
Moreover, today, in addition to the limitations of algorithms, the most important limitation of quantum computers themselves lies in the process of physical application.
One of the current mainstream quantum computer infrastructures uses a physical rule that relies on the presence or absence of electron oscillation excitation in the circuit as the 0 and 1 of the quantum bit.
However, the observation of information in the quantum field such as electron oscillation excitation is too easily affected by external factors, which may lead to errors in the observation results.
In order to eliminate interference and improve accuracy as much as possible, superconducting circuits are used. That is to say, most of the quantum computers built today are of considerable size, and they look like freezers with superconducting circuits to ensure that the accuracy and number of quantum bits are increased as much as possible, and external interference is reduced as much as possible!
Names like optical quantum computer are also differences in the way quantum bits are expressed, from changes in electrons to changes in photons.
For example, in the parallel world, the future domestic quantum computer "Jiuzhang" uses light quanta for physical expression. Compared with electronic expression, it has its own advantages and disadvantages. Except for the detection stage which requires a low temperature close to absolute zero, the requirements for other processes will be lower.
Umbrella relies on the advantages of optical lenses. Theoretically, if normal technology is used for development, it actually has the potential to go in the direction of light quantum. However, it is obvious that if Wang Yi does it with his bare hands, the silver outer electrons still have a unique advantage!
Currently, relying on normal means, humans still have many limitations in intervening, observing and even influencing the microscopic world. Even if superconducting technology is applied, it has only begun to form the foundation for the birth of quantum computers.
Of course, in addition to these two mainstream methods, there are other computers that are not very accurate and use other physical methods to express quantum bits, such as quantum tunneling.
This method has relatively low process requirements, which greatly increases the number of quantum bits. There are thousands of quantum bits of this type, but the accuracy is quite low and has almost no practical application.
What Wang Yi did was to use magic power to solidify the silver atoms through the research and improvement of magic numbers during this period!
The number of protons in silver is 47, and the outer electron structure is 2, 8, 18, 18, 1.
Wang Yi solidified his magic power and used the outermost electron in the silver atom as a quantum bit.
This quantum computer, which looks to be the same size as a mainframe computer, is mainly used to achieve anti-interference and high precision, and is used to "observe" and "calculate" the corresponding 300 silver atoms.
A perfect combination of real magic and modern technology.
The Tianhe-2 supercomputer, which won the championship in November last year, has a computing power of 3.39*10^16 times per second. If it is used to compete with a quantum computer for the optimal solution and starts calculations in an exhaustive manner, its computing power is only equivalent to that of 45 quantum bits.
55 quantum bits are a thousand times more powerful than the most powerful supercomputer, 65 quantum bits are a million times more powerful, and 75 are a billion times more powerful!
Although quantum computing has its limitations,...
It’s not that quantum computers are incapable of working together with supercomputers. The new algorithms and complementarity formed by both sides’ respective strengths are enough to take a terrifying step forward.
Wang Yi has indeed not yet found the best way to use this computing power, but that does not prevent him from initially completing the upgrade of Lin Shiqin's carrier.
Previously, Honghou was continuously expanding its hardware because it had developed more and more docking businesses.
If this thing can complete the linkage, then the problem will be almost solved.
However, each transistor in an ordinary computer is a classical bit, and an ordinary chip has billions to tens of billions of transistors, so in most other areas, it is still difficult for current quantum computers to replace them.
Wang Yi relied on his own magic-based means to cheat, and now he has only created a quantum computer with 300 quantum bits.
Of course, with his improvement in magic numbers and skills, as well as the improvement in tools available on the technological side, once he has the methods and means, the subsequent enhancement speed will definitely exceed the speed of traditional technological advancement.
After all, magic is too convenient and too unreasonable, and it can easily perform many delicate operations that are difficult to do.
If Wang Yi increases the number of quantum bits to the number of transistors in traditional chips, then there is no need to talk about advantages or disadvantages. He can directly predict the future and deduce the future direction of the entire universe by observing the movement of a particle!
Truly achieve omniscience of information!
This is also the direction that Wang Yi is aiming for and the achievement he is pursuing.
Not that he was going to build such a quantum computer.
If it was really created, even if Wang Yi had magic power and a slavery contract, he would not be able to guarantee sufficient control.
When a quantum computer reaches a certain level, it will inevitably begin to be artificially restricted.
Wang Yi’s goal is to use himself as a model and make himself quantum computing!
The average human body has about 40 to 60 trillion cells.
In addition to the stronger and tougher cells in Wang Yi's Great Knight's physique, there are also about two hundred trillion cells in number, which is almost the same level as the transistors integrated in ordinary supercomputers.
Therefore, Wang Yi's goal is to first use the powerful 'optimal solution' computing power of quantum computers to cooperate with the 28 top biological laboratories under his command to complete the optimized sequencing of DNA, and then select what he needs and rely on his own external 'overclocking' to slowly transform himself.
At that time, each of your cells will monitor and control a silver atom, becoming a quantum bit, and finally summarizing it to the central nervous system and soul to complete the exchange of information!
When that time really comes, it is uncertain whether omnipotence can be achieved, but omniscience is probably out of the question. Among the infinite possible futures, it is not impossible to choose the "only" one that you want based on your observations and collapse it.
By then, even the gods and outer gods that were rumored in the other world would be nothing more than firewood to him!
Well, of course, even the creation of a quantum computer now relies barely on the cooperation of current technology and silver magic to bind the big brick with 300 quantum bits in front of us. It even uses the silver-copper alloy room-temperature superconducting black technology under the control of one's own magic.
The distance from the 'small goal' I set for myself is still beyond imagination.
But even so, the DUV lithography machine and 20nm chip manufacturing process currently mastered by Umbrella are just Mrs. Niu who is casually displayed to the outside world...
