"... Next, we will showcase comparison photos of close-ups of flowers, trees, streets, people, and other subjects!"
Accompanying Gao Nian's words, what followed was a display of various close-up photo comparisons.
In these close-up photo comparison displays, the Geek S2 smartphone continued to be the overall victor!
Even with the advantage of fast photo capture speed, coupled with Geek's EIS electronic image stabilization technology.
This also resulted in a significant reduction of the trailing phenomenon when pedestrians moved quickly on the Geek S2 smartphone.
This naturally made many people's eyes light up, further recognizing Gao Nian's selling point that Geek smartphones have better photo quality.
And this made Nokia President Kang Peikai's face turn as red as pig liver with anger.
After all, Geek Technology was essentially publicly flogging the Nokia N9.
Although the smartphone on the far right of the projection screen was covered with many things and hidden, who wouldn't recognize that it was the Nokia N9?
"Huff!"
Nokia President Kang Peikai tried hard to calm the anger in his heart, then his face turned into a sneer.
"Geek Technology, just keep being proud, it won't be long.
When you find that there is no way to purchase high-end mobile phone processors on a large scale, that will be the time for you to cry!"
Nokia President Kang Peikai couldn't help but sneer, because without a powerful high-end mobile phone processor.
Wanting to drive such a huge mobile phone screen, powerful photo algorithms, ultra-high-pixel mobile phone cameras, etc., would ultimately be a drop in the bucket.
So, without a powerful high-end mobile phone processor, the phone screen, phone camera, and photo effects, no matter how strong, are just built on castles in the air!
However, what happened next made Nokia President Kang Peikai vomit blood with anger, and also made Apple CEO Cook's face change drastically.
"The unique selling points of the mobile phone screen and mobile phone photography have been introduced. Next is the introduction of our third unique selling point.
This unique selling point is the Geek S2 smartphone's phone performance and phone processor!"
As Gao Nian said this, the projection screen instantly changed.
A mobile phone processor chip with many pins appeared.
"As you can see, this is our Phoenix × 1 chip. This Phoenix × 1 chip is a mobile phone chip independently developed by Geek Technology.
It uses the most advanced 40-nanometer process technology and the instruction set uses our independently developed RISC-V open-source reduced instruction set!"
"It's actually the RISC-V open-source instruction set? Not the ARM instruction set?"
"What is the RISC-V open-source instruction set?!"
A burst of surprised exclamations and confused questions rang out at the scene.
After all, the RISC-V open-source instruction set has not yet been born. People now naturally don't know what this is.
In this regard, Gao Nian did not make people wait for long, and directly explained what is called the RISC-V open-source instruction set.
"The so-called RISC-V open-source instruction set, RISC represents the meaning of reduced instruction set, and the "V" behind it represents the meaning of the fifth generation.
That is to say, this reduced instruction set is currently the fifth generation. Before it, there were four generations, representing four technical upgrades.
The earliest first-generation RISC reduced instruction set originated in 1974, and was officially finalized and released in 1981. This year was also the year the first-generation RISC reduced instruction set processor was officially born.
Several decades have passed since then, and the RISC reduced instruction set has undergone several updates, and the design ideas have also been constantly iterated, upgraded, and transformed.
Now the RISC reduced instruction set has evolved to the fifth generation, which is the RISC-V open-source instruction set in front of us.
This RISC-V open-source instruction set was initiated and developed by me and Ni Guangnan. Based on the design experience and deep technical foundation of the previous four generations of RISC reduced instruction sets.
We spent a year and a half to not only successfully develop the fifth-generation RISC-V open-source instruction set, but also developed the matching Phoenix × 1 mobile phone processor chip!"
After a pause, Gao Nian continued:
"The reason why it is called the RISC-V open-source instruction set, without a specific name.
This is because our RISC-V open-source instruction set will not be like Intel and ARM, which will monopolize the instruction set.
We will adhere to the spirit of open source, allowing any individual or organization to freely use, modify, and distribute chips and software based on the RISC-V architecture.
Of course, in order to maintain the integrity and uniformity of the instruction set architecture and prevent its fragmented development.
We have also established the RISC-V Foundation and open-source community to maintain the RISC-VISA standard."
After a pause, Gao Nian changed the topic and said:
"As for why we didn't use the X86 instruction set to develop our own mobile phone processor, but instead developed the RISC-V open-source instruction set ourselves.
This is because the licensing acquisition of the X86 architecture is quite difficult, and the licensing fee for the ARM architecture is quite expensive.
The most important thing is that everyone also knows that in the computer field, the X86 instruction set is basically monopolized by Intel.
This has also led to the fact that only two companies can produce X86 computer processors after decades.
And on mobile phone processors, don't look at the fact that there are many mobile phone manufacturers in the world, but in fact they basically use the ARM instruction set.
So the ARM instruction set is actually monopolized by ARM. Once a company offends ARM in the future.
Then ARM can completely stop licensing the ARM instruction set to that company, and that company will only be able to scratch its head.
This is the power of ARM, and it is also the power of Intel.
In order to avoid this phenomenon, our Geek Technology can only independently develop the RISC reduced instruction set with full independent intellectual property rights.
Then open source it, open it up, and through the joint efforts of countless chip design manufacturers and software manufacturers,
Establish a brand-new software and hardware ecosystem.
From then on, it can not only protect Geek Technology itself from the threat of ARM and X86, but also protect other companies from their threats.
Because any individual or organization can freely use, modify, and distribute chips and software based on the RISC-V architecture."
"Pa pa pa pa — ."
The people at the scene clapped their hands and cheered for Geek Technology after hearing this.
I have to say that although they didn't quite understand what Gao Nian was saying.
But after hearing about Geek Technology's great behavior of "One for all, all for one", they couldn't help but cheer for Geek Technology.
In fact, Geek Technology will open source and open up the self-developed RISC-V open-source instruction set,
This is also something that cannot be avoided.
The reason is actually the same as why the Geek smartphone system needs to be open source, because it is a smartphone system developed in China.
If you don't open source the Geek smartphone system, then Western countries and the United States can easily block you out in the name of national defense security.
Therefore, Geek Technology can only open source the Geek smartphone system, and then open source and open up the RISC-V open-source instruction set developed by its company.
As for whether this RISC-V open-source instruction set has anything to do with the RISC-V open-source instruction set that Berkeley University initiated and developed in 2010 in its previous life?
The two actually have nothing to do with each other. In his previous life, Gao Nian, who was just an ordinary worker, could not possibly remember the content of the RISC-V open-source instruction set.
What Gao Nian knew was just a name, so the RISC-V open-source instruction set in this life is naturally not related to the RISC-V open-source instruction set in the previous life.
The reason why it is called the RISC-V open-source instruction set is actually a suggestion from Academician Ni Guangnan.
Academician Ni Guangnan said that this is the fifth-generation reduced instruction set independently developed on the basis of the design experience and deep technical foundation of the previous four generations of RISC reduced instruction sets.
If it continues to be called the fourth-generation RISC reduced instruction set, it is no longer appropriate. Finally, after some discussion, the name became 'RISC-V open-source instruction set.
"Let's get to the topic next. The topic is how high the actual performance efficiency of the RISC-V open-source instruction set is and what advantages it has.
Finally, compare how strong the performance of the Phoenix × 1 mobile phone processor is, etc."
Accompanying Gao Nian's words, the projection screen behind him turned into a comparison picture of the performance and energy consumption of the RISC-V open-source instruction set and other instruction sets.
