Pangu Science and Technology Park, the headquarters building is particularly conspicuous in the empty suburbs.

The grand main project is still under construction. Xiao Ming designed five 99 meters high headquarters buildings to be built to show its scale.

The design unit of the building is the Shanghai Tongji University and the research institute. The structure of the building is very unique. The four main buildings are inclined toward the center and start to hand over at the 61.183-meter golden section. Finally, they continue to rise by 37.818 meters in their own direction. The uppermost part is also closed, making it a huge terrace.

The top floor of the headquarters is a place for Pangu Technology Hotel and entertainment, while the terrace is in addition to garden vegetation, infinity swimming pool, hot spring pool, and a sports field and a huge apron.

The highlight of the building is that the four buildings intersect not by reinforced concrete corridors, but by the most traditional mortise and tenon structure in the Xia Kingdom. They seem to be together, but are actually independent of each other.

In addition to the headquarters building, other supporting buildings, greening and general flooring have been basically completed in the park.

This is a science and technology park with a total area of ​​3,300 acres and is also a huge park.

Even at the end of January, many plants are full of vitality and reveal proud green in the face of the cold winter.

The Quantum Physics Laboratory is located at the core of the park, surrounded by green trees and lakes, which looks very inconspicuous.

The laboratory is the focus of Xiao Ming's attention, so it was completed a few months ago. All the equipment and instruments in the laboratory were designed and created by Pangu Science and Technology staff according to the principles and drawings provided by Xiao Ming, which is unique in the world.

When they walked into the laboratory, the experimenters continued to work in their busy work, and did not stop because of Xiao Ming's arrival.

These are the rules and regulations formulated by Xiao Ming for the laboratory. Unless it is urgent, even if he arrives here by himself, the researchers will not have to stand up to greet him.

Xu Liming brought Xiao Ming to the central control room, which has all the core data of the quantum experiment. All the data is encrypted by the Pangu system and Super Xiaochu. Unless Xiao Ming is willing, no one will get the information inside.

"Twenty quantum entanglement pairs are loaded into twenty color hearts, and we can super-create quantum chips with 150 qubits."

Twenty qubits entangled, this is the world's most advanced technology that Xiao Ming knows.

Two years ago, Google created a 72-qubit chip using 9-qubit entanglement technology, which can perform 2-power 72-power operations at the same time, and the calculation can exceed 5,000 Intel i9 chips.

Xia Guo successfully broke through the 10 qubit entanglement state a year ago, nominally surpassing Google.

ibm recently announced a 50-qubit chip created based on the 8-qubit entangled state. Intel, Apple and others have also made major breakthroughs in related technologies.

However, whether it is Xia Guo or Google, quantum chip technology, it is quite difficult to apply.

Their technology has three main disadvantages.

The first disadvantage: Although powerful quantum chips were created, because it is quite difficult to control quantum entangled states, only a few specified calculations can be performed using quantum chips.

What does this mean? This means that the quantum chips of Google, ibm or Xia Guo cannot be used to watch movies, or to surf the Internet, or to play games. From the research of quantum chips to commercial use, everyone still has a long way to go.

The second disadvantage is that, including Xia Guo, all the quantum chips currently on the market are really big!

Because of the superconducting technology currently used by quantum chip computers, such as sound insulation, thermal insulation, electromagnetic insulation, operating temperature close to absolute zero, and other stringent conditions.

This allows a small quantum chip to run in an isolation room, which covers an area of ​​10 to 20 square meters, and the weight of all isolation equipment is dozens of tons.

No user is willing to hold a laptop worth dozens of tons on his feet, and no user is willing to buy a computer weighing dozens of tons. Even though the computing speed of this computer is very fast, it can crack the roommate's password in seconds to get his **.

The third disadvantage is energy consumption!

Not to mention the energy consumption of controlling the amount of entanglement and calculations, it would be terrifying to control the energy consumption of those isolation devices.

First, you have to connect industrial electricity, install a special transformer and a 360 volt voltage before you can use it. Whenever you calculate the operating volume yourself, you will hear the sizzling current sound of the substation box outside, and you must also prevent the substation box from overheating and causing a fire.

Secondly, if you run a quantum chip computer for an hour, you have to be prepared to pay hundreds of yuan in electricity bills.

Even if the chip's computing speed is fast enough, no one will use this power consumption. Big Mac will only solve a few specific equations and will not be stupid. Consumers are certainly not stupid, so there is no market for quantum chips in companies such as Google except in the field of scientific research.

But the quantum chips in the laboratory are different.

Using silicon carbide as a carrier solves the problem that companies such as Google, ibm and others must use superconducting and isolation devices.

The entangled pairs of electrons are placed into the color heart separately. Through laser control, when the laser irradiates spin electrons, they will show different entanglement states, which also solves the problem of controlling quantum pairs entanglement and energy consumption.

The color heart in silicon carbide crystals is a point defect in transparent crystals. The defect point can capture electrons, and of course it is also very small in size.

The 20-qubit entanglement chip in the laboratory is only 3 square millimeters in size, and its mass is negligible.

Xiao Ming’s ultimate goal is to build mature wearable devices on these 3 square millimeter chips, and the size of the wearable devices must be easily carried by humans rather than wearing a large helmet.

Xu Liming first invited Xiao Ming to watch the chip introduction video produced by Xiao Chu and the current scientific research results.

Xu Liming said excitedly: "I dare to say that we have been ahead of mankind in the chip industry by one hundred years. As long as our quantum chips are released, the real artificial age will come!"

"It should be immature artificial intelligence." Xiao Ming said silently in his heart.

Because in Panfacscin's technology catalog, the real era of artificial intelligence came after the advent of biological intelligence chips.

However, quantum chips can meet all the fields of computing and prediction in humans. Xiao Ming thought that the chips would be released, but he did not expect that they would be so soon.

Xu Limin was still excitedly saying: "What are Google, Intel, and Apple! We can beat them for a hundred years, but they can't find any flaws!"

Xu Liming seemed anxious to demonstrate the results of his experiment to Xiao Ming. He said: "We already have a chip installed. Do you want to see its power?"
Chapter completed!