Chapter One Thousand and Sixty: Unconcealable Excitement
【Revision】
When the smart robot's electronic eye discovered that a photon computing module was missing, the robotic arm immediately picked up the brand-new module it was carrying, then docked it into the gap and gently pushed it in, and the reinstalled module lit up.
The No. 61 luminous column also resumed normal work immediately. The intelligent robot did not leave immediately after completing the work. It also used a cleaning cloth to wipe the surface of the column it had just worked on. After completing the cleaning, the intelligent robot then
Put away the robotic arm and prepare to leave.
At this time, Wu Hao gestured to the photon computing module in his hand. The intelligent robot's electronic eyes immediately turned around, twice in a very anthropomorphic manner, and then moved in front of Wu Hao.
Wu Hao handed the photon computing module in his hand to it, and the intelligent robot immediately stretched out its mechanical arm to receive it, put it on its own shelf, and then slowly left with the work warning light flashing.
As for everyone present, they couldn't help but nodded and then applauded.
Yuan Yonghong's face also showed a smile, and then he nodded towards Wu Hao and said: "Not to mention other aspects, your intelligent management system alone is very worthy of our learning.
With this system, our usual heavy maintenance work will be greatly reduced. And when problems are discovered, they can be dealt with in a timely manner without affecting the normal operation of the equipment, which is very important."
“Their modular structure design is also worth learning from. It can not only monitor and locate the applause area in the shortest time, but also troubleshoot faults in the shortest time.
Importantly, they are also very convenient for future hardware upgrades to further enhance transportation capacity." As an expert in the computer field, Chen Guangtian also nodded in agreement.
"I'm actually more interested in their photon computing module. Xiao Wu, I wonder if we can take a look at its internal structure." Kong Zhen turned to him and said hopefully.
As an expert in the field of optical technology, Kong Zhen’s face was full of excitement, and it was difficult to conceal his inner excitement.
When he accepted this task before, he was a little skeptical or even contemptuous. He felt that private enterprises were just playing gimmicks and making some money. There was no need to have high hopes for scientific research, especially in high-precision fields. Maybe
Ah, that's a scam in itself.
Until he arrived at the newly built headquarters campus, he had doubts. But after seeing this super photon computer, he almost felt so excited that he wanted to cry. Isn't this his lifelong dream?
However, in front of so many people, he still tried hard to remain calm. His lifelong dream was realized by the spearhead boy who was younger than his daughter. His face was somewhat uneasy, and he wanted to maintain his last hope.
stubborn.
Hearing Kong Zhen's words, the other experts present couldn't help but get excited. Isn't the core component of this 'Tao' super photon computer the photon operator? Isn't this exactly what they came for?
So everyone looked at Wu Hao after hearing this, and Wu Hao laughed. This kind of request was expected by him, so he nodded and said with a smile: "Of course, but we don't have to worry. How many of you are here?"
Oh my god, we’ll give everyone plenty of time to get their hands on it.”
"Nonsense, can this kind of high-tech equipment be played with?" Yuan Yonghong scolded him unhappily after hearing this.
Haha, Wu Hao smiled dryly. Well, I can’t play with this thing that belongs to me. But he didn’t dare to argue with the old man. He only had respect for seniors like Mr. Yuan.
With that said, Wu Hao continued to introduce: "Every pillar you see, in addition to the four hundred photon computing modules on it, also has a complex pipeline network inside.
In order to increase the computing speed, these photonic modules all use our special optical fiber network for transmission, and its efficiency is hundreds of thousands of times higher than traditional connection methods, or even higher.
As we all know, it is not only this kind of supercomputer, but also a server array. One of the most complex and troublesome tasks is to connect these computing modules or processors and servers to each other.
For example, for a hundred servers, it is easier to connect No. 1 and No. 2, but it is more troublesome to connect No. 1 to No. 50 and No. 100. How to ensure that the transmission rate between each device is the same, this is now
One of the topics still being studied.
As for us, this time we adopted an innovative design. We converted the data signals of each photon computing module into optical signals, and then transmitted them to a special switch. The special switch then distributed and sent these signals to the target.
equipment.
It sounds like a traditional switch, but the difference is that this is an optical signal switch, which directly switches optical signals.
This is like a transportation hub, where all passenger flows are concentrated and then transferred.
Ordinary switches can also implement this function, but their efficiency and load-carrying scale are too low, and our entire 'Tao' super photonic computer only uses three such optical signal switches."
Having said this, Wu Hao then pointed to these luminous columns and said: "In addition, these columns also contain our complex cooling system.
The water in the lake is pumped to the top floor, and then flows down to each floor and each equipment according to gravity, cooling these equipments.
But how to cool down and how to allow the water to flow evenly into each device and into these tiny capillary networks is also a technical problem.
Not only that, there are many technical problems involved, which we need to overcome one after another.
For example, we need to ensure that the water pressure of every pipeline in the cooling system of the entire building, whether it is a main pipeline or a small capillary cooling water pipe, must remain stable and controlled within the allowable range.
If the water pressure is too high, the water pipes may burst, which will not only cause the cooling system to malfunction, but the water flowing out of the pipes may also cause damage to these electronic devices.
However, if the water pressure is too low, the flow rate will slow down, which will not only greatly reduce the cooling effect, but also reduce the water flow and easily accumulate scale in these pipelines.
Thick pipelines are fine, but these small cooling networks can easily be clogged by scale.
The cooling system in the entire building is very complex, and it is not easy to ensure that the water pressure in these pipeline networks remains normal.
In addition, in terms of safety, although we have specially designed the cooling pipeline network to ensure that it is safe enough, it is difficult to guarantee that it will not malfunction, such as bursting. At this time, the corresponding emergency facilities must be activated to ensure that these bursting flows
The water that comes out will not cause damage or malfunction to these electronic devices."