On the way to the laboratory, Chen Mo was looking forward to it.
Chip design, including IC design, simulation, chip architecture and algorithm design, is all completed by Mo Nu independently. This is the first time that artificial intelligence has independently designed such a complex product. If it is announced, it will definitely cause a huge shock.
Chen Mo was looking forward to whether the chip designed by Mo Nu was useful.
Mo Nu has designed a total of four chips, including smart robot chips, mobile phone chips, computer chips and the most important supercomputer chip. Now comes the verification of the first chip, the smart robot chip.
When superconducting chips come out, they will first be installed on smart robots to improve the work efficiency of smart robots. Chen Mo promised Mo Nu to help her create a good-looking body, and the smart robot chip design was successful, so this matter must be put on the agenda.
After entering the laboratory, Chen Mo saw a dozen two-centimeter-square chips neatly arranged on the experimental table. Intelligent robot chips are much larger than computer chips because they need to perform complex and high-speed non-logical operations.
Chen Mo looked at the chip carefully. It was unpackaged and was still different from ordinary chips. The surface of ordinary chips has a metallic copper-gold luster, but this one has a crystal-like bright luster.
These unpackaged chips are damaged chips.
The carrier of the chip is still high-purity polysilicon. The circuits carried inside the chip are not the copper wires used as conductors in ordinary chips, but silicon carbon, a normal-temperature superconductor material.
This small chip went through more than 260 steps and more than a thousand processes before it was produced. It is the crystallization of the highest information technology.
It took him a lot of effort to get these chips.
"The yield rate of the chip test is 74%. This is a packaged sample. Category 1 is the best, and category 3 is the worst." A robot came out of the dust-free laboratory with three plastic boxes and handed them to Chen Mo. .
The number of processors in each box varies. Type 1 processors have the lowest number, only about twenty, and Type 3 processors have the most. Chen Mo can't count the exact number.
Class III chips are similar to Intel's i3, i5, and i7 processors.
The i3 processor has one or two CPUs damaged in the chip, but it can still work. The i5 processor has a chip that works normally but the frequency is not high. The i7 processor is a processor made from a chip with no problems at all. These chips are in the final testing stage. classified.
The packaged chip is 4 centimeters square, a little larger than a computer processor, and looks very delicate.
"These chips can be used normally and there is no problem with the circuit design. This is the test report with detailed data." Another robot handed the folder in his hand to Chen Mo.
After getting the test report, Chen Mo read it carefully.
The power consumption of the chip is one-eight hundredth that of ordinary chips, and the data processing speed is nearly ninety times faster. No wonder so many countries and laboratories are desperately researching room-temperature superconducting materials.
Even the worst type three superconducting chip here is dozens of times more powerful than any known computer processor.
For computers, these materials are a completely revolutionary subversion.
If this chip is announced, it means that room temperature superconducting chips will be available. The sensation caused by this little thing is definitely crazier than the sensation caused by the seismograph.
Nowadays, a medium-sized computer consumes 10 kilowatts of power per hour, so a superconducting computer made entirely of superconducting materials only needs one dry battery to operate normally. This is the horror of superconducting computers.
When making robots using superconducting materials, there is no need to worry about the problem of using up the power too quickly.
There are too many things involved and they are too huge. Except for himself, no one knows about the existence of room-temperature superconducting materials, and they dare not announce it casually.
"Produce two more batches of smart robot chips, and then test the supercomputer chips." Chen Mo closed the test report and said.
The most important task at present is the production of superconducting computers. Superconducting computers are the first technology he wants to complete. There are too many technologies waiting for him to discover in the science and technology library.
Superconducting chips are not ready for mass production because they are not available for the time being. They only need a batch of chips to make robots and upgrade the robots.
In the laboratory in the office area.
A robot lies quietly on the experimental table, with various circuits on its body connected to testing instruments. The shape of the robot is similar to that of Enchantress Robot, and is cooler than Enchantress Robot. It is version 2.0 of Enchantress Robot.
This is an upgraded version specially made for robots that install superconducting chips.
Install the superconducting chip into the robot, turn on the power, and the robot's eyes will light up immediately. There was no movement for ten seconds, and then the robot sat up from the experimental table.
"Brother Mo." The voice of Mo Nu appeared in the robot.
"How is it?" Chen Mo asked.
"The calculation and operation speed are faster than before. My algorithm can barely run on this chip. The processor will not burn out. However, the circuit board will be burned out if it cannot support it for half an hour. The robot can only be controlled through instructions." Get off the experimental table and start walking around the laboratory.
"Circuit boards are not made of superconducting materials. When making your body, we will use fully superconducting materials." Chen Mo said.
Mo Nu's program now looks completely different from when it was first created.
In addition to the intelligent architecture being the skeleton, other changes have been huge. Through machine learning, Mo Nu is constantly improving, like a child who is growing up slowly.
So now ordinary processors cannot run Mo Nu at all and can only accept her instructions.
Over in Building 1, room temperature superconducting materials are being continuously synthesized and small batch production has begun. Components of superconducting computers are also being produced, and supercomputer information has also been compiled by Chen Mo. As soon as the supercomputer chip testing is completed, assembly of the superconducting computer can begin.
The second generation of robots has come out, and it’s time for the first generation of robots to be launched.
Zhao Min put down the documents in his hands and left the office. The company had just been reorganized and some of the business was being coordinated and handed over, so there were relatively many things going on recently.
Chen Mo's sudden summons was a bit surprising.
As soon as she entered Chen Mo's office, the newly painted robot immediately caught her attention. There are obvious differences between this robot and previous robots.
Sitting on the sofa opposite Chen Mo, Zhao Min asked: "Is this a new robot?"
"Yes, this is the second generation robot, freshly released." Chen Mo nodded.
"You used the Great Summoning Technique to summon me over. There is something important." Zhao Min looked at the new robot carefully.
"How is the robot going on the market now?"
When he heard that the robot was on the market, Zhao Min immediately became energetic: "The procedures have been completed a long time ago, the production batch number has been obtained, and it can be produced at any time. Are you ready to go on the market?"
"Listed!" Chen Mo said affirmatively.
Zhao Min laughed. After the robot came out, she was looking forward to the day it would be launched, and had been waiting for Chen Mo's words.
The robot will be the first product released by their company in the new year.
(End of chapter)