Tokyo, in the mountain below Inaichi Shrine.

At this time, Wang Yi is 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 also much more convenient.

In addition, a lot of magic rhombus crystals that can be used to replace charging have also been created.

The mage towers in Shudian and Qiongzhou have used more than a thousand tons of silver and successfully completed the resonance.

In addition, the Mage Tower in Mo Country, which was built using local materials, has also been gradually improved.

It's just because the distance is too far that we can't resonate.

Today, this building in Tokyo is used as a springboard and node facing the Pacific Ocean, connecting Shudian and Qiongzhou within, and radiating outward to the Pacific Ocean.

When the maritime city reaches the middle of the Pacific Ocean in the future, as long as the materials used 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 this is very important.

Although Wang Yi has always stayed at Inaichi Shrine when he came to Tokyo, he did not let Yu Ji and his son know about the construction of the mage tower below, so the progress is relatively not fast.

"Boss, I can't hold it back anymore. The sales of bracelets 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 pretty much it. If you can't hide it, you can't hide it. The DUV lithography machine itself is not a big deal."

Wang Yi looked at the second floor of the mage tower that was more polished with satisfaction. The experience learned previously was used here, so that this mage tower can be called a second-generation mage tower that is more suitable for the world in front of him.

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

"If the boss doesn't mind, then I'll almost make it official."

"Okay, if someone wants to buy our lithography machine, it can be a selling point, no matter who it is."

"clear."

After Wang Yi dismissed Lin Shiqin, he pulled out a small box that looked like a desktop console from the mage tower in front of him.

"Mathematics is indeed the basis of everything..."

Wang Yi couldn't help but feel a little emotional in his eyes when he looked at the silver box that he had forcibly built with magic power.

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

The key is that the accuracy can be considered to be infinitely close to 100%!

But it is a pity that quantum computers themselves sound very sophisticated and powerful, but in fact, quantum computing currently has extremely strong limitations.

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

In fact, everyone now knows that traditional computers use the binary system of traditional classical bits, which is composed of countless zeros and ones, which seems to be a mathematical problem.

But in fact, to achieve this, it must be based on current physical rules.

The physical means used by traditional computers to implement this are transistors and high and low electric frequencies. High represents ‘1’ and low represents ‘0’. Transistors are used to control this, and a huge number is used to form complex logic circuits, thus forming a chip.

However, as the chip process becomes smaller and smaller and begins to enter the microscopic realm, it is bound by the rules of the microscopic realm. As the process gets closer and closer to the atomic level, the 'tunneling' effect will begin to occur.

To put it simply, the transistor originally needs to intercept electrons, but it fails due to the tunneling effect and does not have the desired effect. This will directly lead to errors in the logic circuit and calculation errors.

Therefore, when the chip process reaches a certain limit, it is necessary to use various means such as multi-layer structures to complete this circumvention. The traditional chip process cannot be infinitely reduced, no matter how powerful the lithography machine is, it will be useless.

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

Quantum computers, however, use another physical rule to complete the expression of 0 and 1.

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

That is, the classical bits composed of traditional 0s and 1s are transformed into qubits with a superposition of 0s and 1s, using the basic rule that the particles themselves ‘collapse’ after being observed.

Because the algorithm has also changed, this has resulted in completely different areas where quantum computers are good at than traditional computers. Because they are in a quantum superposition state, when it comes to 'finding the optimal solution', every time the quantum computer adds a qubit

Bits can increase computing power exponentially, equivalent to 2 to the Nth power.

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

However, because a result will collapse after observation, the current limitations of quantum computers are only convenient for finding optimal solutions and synchronous expressions.

For example, the pharmaceutical industry relies on the analysis of protein structures to find the optimal sequencing of molecular drugs.

Another example is materials science. It is easier to get the optimal ratio by adding quantum computing in a luck-based approach.

Another example……

DNA optimal sequence!

And today's quantum computers themselves, in addition to algorithmic limitations, the most important thing is the technology used in physics.

One of the current mainstream quantum computer basic structures uses physical rules that rely on two states excited by the presence or absence of electron oscillation in the circuit, which are regarded as 0 and 1 of the qubit.

However, information observation in the quantum field stimulated by electron oscillation is too easily affected by external factors, leading to erroneous 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 quite large and look like freezers. Superconducting circuits are built to ensure that the

Accuracy and number of qubits, and reduce external interference as much as possible!

Names like optical quantum computers are also differences in the expression of qubits, from changes in electrons to changes in photons.

This chapter is not over yet, please click on the next page to continue reading! For example, the future domestic quantum computer 'Nine Chapters' in the parallel world uses light quanta for physical expression. Compared with electronic expression, each has its own advantages and disadvantages, except that the exploration stage requires a low temperature close to absolute zero.

In addition, other process requirements will be lower.

Umbrella relies on the advantage of optical lenses. In theory, if it develops with normal technology, it actually has the potential to go in the direction of light quantum. However, it is obvious that if Wang Yi uses his bare hands, the silver outer layer electrons have a unique advantage!

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 applied, it has barely 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 as qubits in other physical ways, such as using quantum tunneling.

This method has relatively low process requirements, thus greatly increasing the number of qubits. There are thousands of qubits of this type, but the accuracy is quite low and has almost no practicality.

What Wang Yi did was to use magic power to solidify silver atoms through studying and improving magic numbers during this period!

The number of protons in silver is 47, and its outer electron structure is 2,8,18,18,1.

Wang Yi solidified the magic power and used the electron change in the outermost layer of the silver atom as a qubit.

This quantum computer, which looks to be the same size as the mainframe chassis, mainly achieves anti-interference and high precision, and is used to 'observe' and 'calculate' the corresponding three hundred silver atoms.

A perfect combination of real magic and modern technology.

The supercomputer Tianhe-2 that won the championship in November last year has a calculation capacity of 3.39*10^16 times per second. If it is used to compare with a quantum computer to find the optimal solution and start the calculation in an exhaustive manner, the computing power is only equivalent to

The computing power of 45 qubits.

55 qubits is a thousand times the most powerful supercomputer, 65 qubits is a million times, and 75 qubits is a billion times!

Although quantum computing has limitations,...

Quantum computers are not incapable of being linked with supercomputers. The new algorithms and complementarities formed by the two parties' respective strengths are enough to take a terrifying step forward.

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

Previously, Red Queen was continuously expanding its hardware as it launched more and more docking businesses.

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

However, each transistor in an ordinary computer is a classical bit. An ordinary chip has billions to tens of billions of transistors. Therefore, in other aspects of most fields, it is still difficult for current quantum computers to replace them.

.

Wang Yi relies on his own magical means to cheat, and now he has just created a quantum computer with 300 qubits.

Of course, with his improvement in magic numbers, skills, and tools that can be used on the technological side, with methods and methods, the speed of subsequent enhancements will definitely exceed the speed of traditional technological improvements.

After all, magic is too convenient and unreasonable, and it can easily perform many delicate operations that are difficult to do.

If Wang Yi increases the number of qubits to the number of transistors on a traditional chip, then let alone talking about advantages and disadvantages, it may be impossible to directly predict the future and directly deduce the future direction of the entire universe through observation of the movement of a particle.

No problem!

Truly omniscient information!

This is also the direction of Wang Yi's goal and the achievement he pursues.

It's not that he's planning to build this quantum computer.

If it is really created, even if Wang Yi holds the magic power and has a slavery contract, he cannot guarantee sufficient control.

When a quantum computer reaches a certain level, it will inevitably start to impose artificial limitations.

Wang Yi’s goal is to use himself as a model to implement quantum computing!

The number of cells in the average human body is approximately 40 to 60 trillion.

In addition to having more powerful and tough cells, Wang Yi's Great Knight's physique also contains about two hundred billion transistors, which is about the same level as the transistors integrated in ordinary supercomputers.

Therefore, Wang Yi's purpose is to first use the powerful 'optimal solution' computing power of quantum computers to complete the DNA optimization sorting with the twenty-eight top biological laboratories under his command, and then select what he needs and rely on his own

The plug-in 'overclocking' slowly transforms itself.

At that time, each of your cells will monitor and control a silver atom and become a qubit, which will eventually be aggregated into the central nervous system and soul to complete the exchange of information!

When that time comes, it is uncertain whether omnipotence can be achieved, but omniscience is probably out of the question. It is not impossible to collapse the infinite future by choosing the 'only' one wants according to one's own observation.

At that time, even the gods and alien gods rumored in the other world will be nothing more than their own fuel!

Well, of course, even the construction of quantum computers now barely relies on the cooperation of today's technology and the magic power of silver to bind the big bricks with three hundred qubits in front of us, and even uses the ones controlled by my own magic power.

Silver-copper alloy normal temperature superconducting black technology.

There is still an unimaginable distance between us and the ‘small goal’ that I have set.

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...

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Chapter completed!