However, when people's emotions were infinite, Ni Guangnan did not stop his words, only to see him continue to speak:

"That's what happened, and I didn't have to lie.

Okay, since Lin Chen invited me to the stage, then I will introduce to you the relevant news of the Phoenix S1 mobile phone chip. ”

Hearing this, the people at the scene paused slightly, and then temporarily put aside their surprise that Lin Chen's contribution to mobile phone chips reached 60%.

Instead, he focused on the Phoenix S1 mobile phone chip mentioned by Ni Guangnan, this Phoenix S1 mobile phone Ni Guangnan said so much before, I don't know what the specific situation is?

In this regard, the projection screen behind him quickly changed in an instant, turning into a comparison chart of the two chips.

The one on the left is the Texas Instruments OMAP1710 mobile phone processor, and the one on the right is the Phoenix S1 mobile phone chip.

Seeing this, people have shifted their eyes left and right to compare the performance parameters of the two mobile phones.

Texas Instruments OMAP1710 mobile phone chips.

Application platform: Moto Gongla V1 mobile phone.

Process technology: 90 nm.

Whether the communication chip is built-in: Yes.

Communication chip: Support the latest GPRS Class 12 communication standard, built-in integrated GPRS Class 12 communication module.

CPU model: ARM926 (ARM9 series, 32-bit RISC reduced instruction set, 5-stage pipeline design...... ）

CPU frequency: 220MHz.

L1 cache: 32 KB.

HARDWARE ACCELERATION: JAVA HARDWARE ACCELERATION.

Graphics showing if the GPU is independent or not: No.

CPU area: 12×12 mm².

Encapsulation: M-BGA encapsulation. ……

Phoenix S1 mobile phone chip

Process technology: 130 nm.

Whether the communication chip is built-in: No.

Application platform: Sugon F2 mobile phone, Sugon A2 mobile phone.

CPU model: Phoenix S1 core (32-bit RISC reduced instruction set, 6-stage pipeline design...... ）

CPU frequency: 200MHz.

L1 cache: 64KB.

HARDWARE ACCELERATION: JAVA HARDWARE ACCELERATION.

Dynamic Turbo Frequency: Phoenix Dynamic Turbo Frequency Technology (support from 10%~120% chip frequency increase)

Graphics showing if the GPU is independent or not: Yes.

GPU model: Phoenix T10 graphics display core.

CPU area: 14×14 mm².

Encapsulation: M-BGA encapsulation.

At this time, the people at the scene looked at the data parameters above, especially seeing that among the two mobile phone processors, the CPU frequency of the Phoenix mobile phone chip was 20MHz less than that of the Nadezhou instrument.

When it was only 200MHz, people looked puzzled.

What's going on?

Didn't Ni Guangnan say that the Phoenix mobile phone chip defeated the 90nm Texas Instruments mobile phone processor with 130 nanometers? Why is it that way it turns out now?

Was Ni Guangnan sure he wasn't wrong before? Are you sure that 130 nm beats 90 nm?

Why is the frequency of the Phoenix mobile phone chip so much less than that of the Texas Instruments OMAP1710?

You must know that in this era, the increase of 20MHz can make many people willing to pay money for it, and as a result, the chip frequency of the Phoenix mobile phone chip is less than 20MHz, which must defeat the mobile phone chip OMAP1710 Moto Gongla?

Of course, the Phoenix mobile phone chip is not without bright spots, and in the comparison chart, they keenly found that the Phoenix mobile phone chip has a technology called dynamic turbo frequency.

The dynamic turbo technology allows the chip to automatically adjust its operating frequency from 10% to 120%.

The operating frequency reaches 120%, and this 120% represents overclocking!

This overclocking is a new innovation in mobile phones, although overclocking can only achieve 120% and only increase by 20%, but this is also the world's first mobile phone chip that can automatically overclock.

As for the fact that there is a separate GPU after that, it is indeed a highlight, and before that, the graphics display of the mobile phone chip was directly integrated into the CPU.

At this time, Sugon Technology directly separates the graphics display, which is also an unprecedented innovation, that is, what kind of experience can the graphics display, that is, the GPU, be independent to the mobile phone?

Of course, there are a few people who know how to do it after all, and most of the nearly 3000 people on the scene don't know what mobile phone chips are, and they only understand a few parameters, such as the key value of CPU frequency.

So at this time, seeing the performance comparison parameters on the press conference, they issued questioning words.

Ask Ni Guangnan if he said the wrong thing just now, the wrong sentence that 130 nanometers defeated 90 nanometers.

In this regard, Ni Guangnan also came back to his senses from the projection screen behind him, and then turned his head to look at Lin Chen.

Ni Guangnan hasn't seen the PPT of this press conference, so I don't know what the next page is.

Seeing this, Lin Chen also waved his hand, and then a mobile phone software score comparison picture called "Antutu Mobile Phone Open Source Performance Test" appeared on it.

In this score picture, the running scores of the Phoenix S1 mobile phone chip and the OMAP1710 mobile phone chip of Dezhou Instruments are respectively appeared.

There are total scores and other scores in the running score, among which the CPU running score and GPU running score and L1 cache of the Phoenix mobile phone chip have comprehensively crushed the mobile phone chip OMAP1710 Texas Instruments!

As for their scores, the Phoenix S1 mobile phone chip has a total score of 2590 points, a CPU score of 946, and a GPU score of 1357 points......

Texas Instruments OMAP1710 a total score of 1924 points for mobile phone chips, 875 points for CPU, and 731 points for GPUs......

Looking at the above effect comparison chart, everyone at the scene showed stunned expressions, and they didn't expect the result to be such a result at all.

The CPU frequency of the Phoenix S1 mobile phone chip is obviously 20MHz less than that of Texas Instruments, why is it the Phoenix S1 mobile phone chip that wins in the end?

And what is even more shocking is that the Phoenix S1 mobile phone chip has crushed the mobile phone chip OMAP1710 Texas Instruments in all directions.

Both the computing power of mobile phones and the ability of graphic display were all defeated, among which the ability of mobile phone CPU computing Dezhou Instruments OMAP1710 mobile phone chips were defeated.

But there are not many Sugon mobile phone chips to catch up, and the performance gap is only about 7% at most, which is not too big.

But in terms of graphics display, the performance of Texas Instruments' mobile phone processor is simply humiliating, and it was violently pressed to the ground by Dawning Technology, and the performance gap between them can almost be claimed to be doubled.

Through this scene, the people at the scene also realized the power of the GPU, an independent graphics chip for mobile phones.

It turns out that the GPU of this mobile phone processor is the same as the independent graphics card and the integrated graphics card on the computer, and the performance of the integrated graphics card is simply spicy.

Maybe the image animation video can be displayed is the only role of the integrated graphics card, as for thinking better, it still has to fall on the discrete graphics card, and the same seems to be true for mobile phones.

So people who realized this quickly showed crazy eyes.

But soon, their crazy eyes shifted from Ni Guangnan to Lin Chen's body.

After all, if they are not mistaken, Ni Guangnan said just now that Lin Chen's contribution has reached more than 60%!

Thinking of this, countless people showed shocked expressions towards Lin Chen, and their eyes were full of horror when they looked at Lin Chen.

At this time, what Lin Chen didn't know at this time was that the president of the motorcycle gong pulling on the VIP seat, Galvin, had a very ugly face.

(End of chapter)