Tokyo, in the mountains below Iichi 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 improved a lot, and it is much more convenient.

In addition, there are also a lot of mana diamonds that can be used to replace charges.

The mage towers in Zhudian and Qiongzhou have used more than 1,000 tons of silver, and have successfully completed the resonance.

In addition, the mage tower in Mexico has been gradually improved by tools and local materials.

It's just that it's too far away to form a resonance.

Now in Tokyo, Wang Yi is used as a springboard and node facing the Pacific Ocean, connecting the vertical store and Qiongzhou inside, and radiating the Pacific Ocean outward.

In the future, when the maritime city arrives in the middle of the Pacific Ocean, as long as the materials in the city are strong enough, there is a high probability that it will be able to complete the linkage with Tokyo and Mexico at the same time.

So it's a crucial place to be.

Although Wang Yi has always settled in the Inaichi Shrine when he comes to Tokyo now, he has not let the mother and son know about the construction of the mage tower below, so the progress is relatively not fast.

"Boss, I can't hold it back, the sales of the bracelet are too good, and the number has far exceeded the number of chips we ordered."

After Wang Yi activated the second layer of the Daoyi Shrine Mage Tower, Lin Shiqin also made some reports and reminders.

"It's almost, if you can't hide it, you can't hide it, and the DUV lithography machine itself is not a big deal."

Wang Yi looked at the second floor of the mage tower with satisfaction, which was more handy, and the experience learned before was used here, so that this mage tower could be called the second-generation mage tower that was more in line with the world in front of him.

When this one is completed, the one in the sea city in the future will be more skilled and perfect!

"Since the boss doesn't mind, then I'm almost official."

"Yes, if someone wants to buy our lithography machine, it can sell it, no matter who it is."

"Understood."

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 still the foundation of everything......"

Wang Yi looked at this silver box that he had opened and forcibly built with magic power, and he couldn't help but have some emotion in his eyes.

In a sense, this is the most advanced quantum computer in the world today, with about 300 qubits.

The key is that the accuracy can be seen as infinitely close to 100 percent!

Unfortunately, quantum computers themselves sound very profound and powerful, but in fact, quantum computing is currently extremely limited.

First, let's talk about what a quantum computer is.

In fact, everyone now knows that traditional computers use the binary of traditional classical bits, which is composed of countless zeros and ones, and it looks like a mathematical problem.

But in practice, for this to happen, it has to be based on current physical rules.

The physical means realized by traditional computers are transistors and high and low frequencies, high for '1' and low for '0', which are controlled by transistors, and a huge number is used to form complex logic circuits, thus forming chips.

However, as the process of chips becomes smaller and smaller, after entering the microscopic field, it is bound by the rules of the microscopic field, and as the process gets closer and closer to the atomic level, the 'throughout' effect will begin to appear.

To put it simply, the transistor judged that it needed to intercept the electrons, but it failed because of the tunneling effect, and it did not have the desired effect, which will directly lead to errors in the logic circuit and errors in calculations.

Therefore, when the chip process reaches a certain limit, it begins to need to complete this circumvention through various means such as multi-layer structure, and the process of traditional chips cannot be reduced indefinitely, even if the lithography machine is strong, it is useless.

In this case, supercomputing has begun to follow the old path of the earliest computers in the past, relying on increasing the volume and increasing the number of chips to complete the formation of larger-scale logic circuits and increasing computing power.

Quantum computers, on the other hand, use another kind of physical rules to complete the expression of 0 and 1.

And it also uses the superposition state of the quantum itself to form another algorithm.

That is, the classical bits composed of traditional 0s and 1s are converted into qubits superimposed by 0 and 1, using the basic rule that the particle itself 'collapses' after being observed.

Because the algorithm has also changed, this leads to a completely different field that quantum computers are good at than traditional computers, because they are in a state of quantum superposition, so when it is similar to 'finding the optimal solution', it will cause the quantum computer to increase the computing power exponentially with each additional qubit, which is equivalent to 2 to the Nth power.

The current estimated number of observable atoms in the universe is on the order of 2 to the third hundredth power!

However, because it will collapse and produce a result after observation, the current limitations of quantum computers can only be used to find the optimal solution and synchronous expression for the time being.

For example, in the pharmaceutical industry, the optimal molecular drug sequencing is found by analyzing the structure of proteins.

Another example is materials science, where it is easier to arrive at the optimal ratio by adding quantum computing by chance.

Another example......

DNA Optimal Sequence!

And today's quantum computer itself, in addition to the limitations of algorithms, the most important thing is in the process of physical application.

At present, one of the mainstream quantum computer infrastructures uses the physical rule that relies on the two states excited by whether there are electron oscillations in the circuit, which are regarded as 0 and 1 of qubits.

The electron oscillation stimulates this kind of information observation in the quantum realm, which is too susceptible to external influences and leads to errors in the observation results.

In order to eliminate interference and improve the accuracy as much as possible, superconducting circuits are used, which means that most of the quantum computers built today have a large volume, and they look like freezers to create superconducting circuits to ensure that the accuracy and number of qubits are increased as much as possible, and the external interference is reduced as much as possible!

And names like optical quantum computers are also differences in the way qubits are expressed, from the change of electrons to the change of photons.

For example, in the parallel world, the future domestic quantum computer 'Chapter 9' uses light quanta for physical expression, which has its own advantages and disadvantages compared with electronic expression, except for the low temperature close to absolute zero in the exploration stage, the demand for other processes will be lower.

Ambrera relies on the advantage of optical lenses, and theoretically if it is developed with normal technology, there is actually potential to take the direction of optical quantum, but it is obvious that Wang Yi has a unique advantage in the outer electrons of silver if he strokes it with his bare hands!

At present, relying on normal means, human intervention, observation and even influence on the microscopic world still have many limitations, even if superconducting technology is used, it has only begun to form the basis for the birth of quantum computers.

Of course, in addition to these two mainstreams, there are other computers that are not very accurate and are expressed in qubits in other physical ways, such as using quantum tunneling and the like.

This method requires relatively low process requirements, which greatly increases the number of qubits, which can be found in thousands of qubits, but the accuracy is quite low, and there is little practicality.

And what Wang Yi did was to use magic power to solidify the silver atom through the study and improvement of magic numbers during this time!

The proton number of silver is 47, and the outer electronic structure is 2, 8, 18, 18, 1.

Wang Yi used the change of the outermost electron of the silver atom as the qubit after the magic curing.

In this quantum computer, which looks the same size as the main chassis, it is mainly anti-interference and high-precision, which is used to 'observe' and 'calculate' the corresponding 300 silver atoms.

The perfect combination of real magic and modern technology.

Tianhe-2, the supercomputer that won the championship in November last year, has a computing volume of 3.39*10^16 times per second, and if it is used to compare the optimal solution with a quantum computer and start the operation in an exhaustive way, the computing power is only equivalent to the computing power of 45 qubits.

55 qubits is 1,000 times the most powerful supercomputing, 65 qubits is 1,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,

Although quantum computing has limitations, it ......

Quantum computers are not unable to complete the linkage with supercomputing, and the new algorithms and complementarities formed by the two sides to show their strengths are enough to take a terrifying step forward.

Wang Yi has indeed not found the best way to use this kind of computing power yet, but it does not prevent him from initially completing the upgrade of Lin Shiqin's carrier.

Previously, because of more and more docking business, the red queen is constantly expanding its hardware.

If this thing can complete the linkage, then, the problem will be solved.

However, each transistor of an ordinary computer is a classical bit, and an ordinary chip has a number of transistors ranging from billions to tens of billions, so in most other fields, the current quantum computer is still difficult to replace.

Wang Yi relied on his own means to open the hook with magic side, and now it is just a quantum computer that knocked out three hundred qubits.

Of course, with his improvement in magic numbers, his skills, and the improvement of the tools that can be used on the technology side, after having a way and method, the subsequent enhancement speed will definitely exceed the speed of traditional technology improvement.

After all, the magic is too convenient, too unreasonable, and can easily do a lot of delicate operations that are difficult to do.

If, when Wang Yi increases the number of qubits to the number of transistors of traditional chips, then there is no advantage or disadvantage, and it is probably not a problem to directly predict the future and directly deduce the future direction of the entire universe through the observation of the motion of a particle!

Truly omniscient of information!

And for this, it is also the direction of Wang Yi's goal and the achievements he pursues.

It's not that he's going to build such a quantum computer.

If it is really created, even if Wang Yi has magic power in his hands and a contract of enslavement, he will not be able to guarantee sufficient control.

When a quantum computer reaches a certain level, it will inevitably begin to be artificially confined.

Wang Yi's goal is to prepare to use himself as a blueprint and make himself quantum computing!

The average human body has about 40 to 60 trillion cells.

In addition to the stronger and tougher cells under Wang Yi's big knight physique, there are also about 200 trillion of them, which is about the same size as the transistors integrated by ordinary supercomputers.

Therefore, Wang Yi's purpose 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 sorting of DNA optimization, and then select what he needs, and rely on his own plug-in 'overclocking' to slowly transform himself.

At that time, each of your cells will monitor and control a silver atom, become a qubit, and finally summarize to the central nervous system and soul to complete the alternation of information!

At that time, it is uncertain whether the omnipotent will be able to do it, but omniscience is no longer a problem, and it is not impossible to choose the 'only' that you want under your own observation for the infinite future.

At that time, even the rumored gods and external gods in the other world at the beginning will be nothing more than their own firewood!

Well, of course, even the creation of quantum computers now barely relies on the cooperation of today's technology and silver magic to bind the big bricks with 300 qubits in front of them, and even uses the silver-copper alloy room temperature superconducting black technology technology controlled by his own magic power.

There is still an unimaginable distance from the 'small goal' I set.

But even so, the DUV lithography machine and 20nm chip manufacturing process that Ambrera has mastered are the Cow Lady that is casually displayed to the public......

————

Three more ~ first more ~ (End of chapter)