Chapter 387: This is called weak performance?
Everyone is very nervous about the performance of Loongson G1.
After all, this is the world's first optical quantum mobile phone chip.
Not to mention whether it can surpass traditional silicon-based chips in performance.
Whether it can run stably is a problem.
Compared to the nervousness of others, Xu You seemed much more relaxed.
Because when designing the Loongson G1, Xu You had already conducted a simulated evaluation of this optical quantum chip through the brain simulation function.
If the evaluation is accurate enough, the performance of Loongson G1 will surpass any other mobile phone chip on the market today.
Not to mention the chips from MediaTek and Qualcomm.
Even Apple's A series chips cannot compare with the Loongson G1.
In addition, in terms of power consumption control, Loongson G1 is also better than traditional silicon-based chips.
If everything goes well, the next generation of Fulong mobile phone equipped with Loongson G1 will be a very scary existence.
After completing the preparations , the R&D team of Fulun Technology began to conduct detailed tests on Loongson G1.
The previous generation of Fulong Z1 mobile phone became the experimental phone this time.
The R&D team replaced Loongson 001 with Loongson G1 and began performance testing of the phone.
In fact, many settings of Fulong Z1 are tailor-made for Loongson 001.
If you directly replace the mobile phone chip without any optimization, the new chip will definitely not be able to demonstrate its best performance.
But before testing, the chip cannot be optimized well.
Soon, the performance of Loongson G1 shocked the testers.
Even though it can be seen that Loongson G1 and Fulong Z1 are not very compatible, there are even conflicts between them in some places.
But in terms of overall performance, it has far surpassed the Loongson 001 version of the Fulong Z1.
"In all tests, except for the incompatibility between the chip and the phone system and hardware, the Loongson G1 performed very well. In terms of software opening speed, image display, battery life and other performances, it is not only better than the Loongson 001 class Fulong Z1, but even exceeds the flagship phones of other competitors."
“Even Apple phones have surpassed them?” Luo Wenkun asked in surprise.
"Based on the current performance, it has indeed surpassed the market. However, there are still some bugs, and many areas can be further optimized. If the optimization goes smoothly, it is likely to become a unique mobile phone chip."
After hearing the researchers' report, Luo Wenkun couldn't help but smile with joy.
Luo Wenkun still remembers that Xu You had said before that in order for Loongson G1 to be able to complete complex programming tasks, its performance might not be that strong.
It even surpassed Apple’s most powerful A-series chip, and you still say it’s not strong?
What Luo Wenkun didn't know was that the "performance is not strong enough" that Xu You mentioned was compared with the chip of the optical quantum computer.
In order to enable the new photonic quantum chip to have more comprehensive programming capabilities.
Xu You had to greatly sacrifice the computing speed of the photonic quantum chip.
But a lean camel is still bigger than a horse. Even if so much computing speed is sacrificed, the computing speed of optical quantum chips is definitely higher than that of traditional silicon-based chips.
After the initial success of Loongson G1, Luo Wenkun also began to work on the conceptual design of the next generation of Fulong mobile phone.
The next generation of Fulong mobile phones will be completely based on Loongson G1.
As long as this new chip can be used well, all other work is secondary.
The Loongson Project Team attaches great importance to this research result of Fulun Technology.
Because of this achievement, the impact on the world chip industry may be subversive.
To this end, the Loongson Project Team will hold a meeting to discuss this achievement in detail.
As the designer of Loongson G1, Xu You is naturally the core of this meeting and will make an important speech at the meeting.
This time, the meeting did not invite foreign members participating in the Loongson project. It was a purely internal meeting.
Because in addition to providing some semiconductor material-related technologies, most of the key technologies come from domestic research and development.
These are also things we expected. After all, this is a project initiated by us, and others may not really devote their wholehearted energy to research like we do.
Researchers from companies including Fulun Technology, Xiawei Company, Huaxin International, and Modou Microelectronics participated in the meeting.
After the conference host completed a brief introduction, Xu You came to the stage.
After experiencing many big scenes, Xu You was not nervous at all at this moment.
But because of the special significance of this meeting, Xu You felt somewhat excited.
Compared to Xu You, the scientific researchers sitting in the audience were even more excited.
They all want to know how powerful the "Loongson G1", which claims to be able to change the world's chip landscape, is.
"I am very happy to share our achievements with all the experts in the chip field. I believe everyone is familiar with Moore's Law, right?"
The researchers in the audience nodded when they heard this.
As a researcher in the chip field, no one is unaware of "Moore's Law".
The so-called "Moore's Law" means that the number of transistors that can be accommodated on an integrated circuit will double approximately every 18 months.
The chip manufacturing process we often mention is closely related to Moore's Law.
The improvement of chip manufacturing process means an increase in the number of transistors per unit area of the circuit board.
"Moore's Law is a law that has stood the test of time, but this does not mean that it has always been correct. We know that within the existing chip manufacturing process, the performance of traditional silicon-based chips has become increasingly difficult to improve. The 1nm process may very well be the end of Moore's Law."
When the size of the transistor is small enough, quantum effects will appear.
At this time, electrons will no longer be governed by Ohm's law.
Because electrons have the tunneling effect, they will pass through the barriers between computing units, causing calculation errors, and Moore's Law will no longer apply.
"Therefore, we must change our thinking and explore new chip models. Fortunately, through our research, we have achieved a small breakthrough in the field of photonic quantum chips."
Xu You displayed his design on the big screen.
Suddenly, all the researchers in the entire conference hall focused their attention on the big screen.
"The Loongson G1, which we independently designed and developed, adopts this new concept. Like traditional silicon-based chips, photon chips are also based on silicon-based structures, but photons replace electrons in the information carrier. This gives the chip a strong advantage in transmission efficiency and power consumption control."
