The Kirin 9000S chip of Huawei's Mate 60 series of mobile phones has always been a mystery. Neither the nanoscale process it uses, the foundry, or the manufacturing time and baseband integration have been definitively answered. Media and tech enthusiasts around the world have researched and analyzed this, but come to very different conclusions. Some Japanese researchers analyzed through electron mirror scanning and believed that the chip used a 14nm process. By comparing parameters such as the spacing between contact gates, gate length, contact interval thickness, and contact width, they found that the Kirin 9000S chip is very similar to Samsung's 14nm FinFET chip. Therefore, they believe that the chip uses a 14nm process, but performs better in other ways. However, American researchers came to a different conclusion after performing an electrical scan through an electron microscope.
Their analysis found that the transistor density of the Kirin 9000S chip is about 98MTr/mm2, while TSMC's 7nm process transistor density is 97MTr/mm2, and the transistor density of Samsung's 7nm chip is 95MTr/mm2. Therefore, they believe that the chip uses 7nm-level technology. There is some truth in both different views, but which one is closer to the truth? Perhaps only engineers and related personnel within Huawei can give a definite answer. After all, this is one of the important manifestations of Huawei's independent research and development capabilities as a world-renowned technology giant. No matter what nanoscale process is used in the Kirin 9000S chip of Huawei's Mate60 series mobile phones, no matter who manufactures it, its emergence represents Huawei's continuous innovation and progress in the field of technology. As consumers, we should pay more attention to the actual experience and performance brought by this phone.
Whether it is a 14nm or 7nm process, as long as it can provide smooth operation, powerful processing power and excellent photo results, it can meet the needs of our daily use. Finally, let's think about the question: in today's technological development, how much impact does nanoscale process have on the performance and experience of smartphones? What process do you think the Kirin 9000S chip of Huawei Mate60 series mobile phones should use? Welcome to leave your comments and opinions. How many nanometers is a chip? This is a much-discussed topic. Huawei's Kirin9000S chip is considered by some netizens to be a 5nm process, while others believe that it is 7nm technology. So, which one exactly? In fact, today's chips use an equivalent method, and it is difficult to determine the nanoprocess in a clear way, more depending on the density of transistors. However, for a chip, performance is the most important thing.
The performance of the Kirin 9000S is benchmarked against the Qualcomm Snapdragon 888 and Huawei's own Kirin 9000, and both chips are 5nm, so some people think that the Kirin 9000S is actually 5nm. But some people also think that Huawei's chip is like a smoke bomb, so that the global chip industry is blown up, everyone wants to decrypt, but Huawei protects well, no one can decrypt it. However, no matter how many nanometer chips the Kirin9000S is, its emergence has brought great changes to the mobile phone market. As a high-performance chip, it can benchmark Qualcomm and Huawei's own chips, which means that it has a strong competitiveness. In addition, Huawei's chip also proves that Chinese chips have certain strength and can play an increasingly important role in the international market. Therefore, we should see the fact that Chinese chips are catching up and will become important players in the global chip industry.
In short, no matter how many nanometers Kirin9000S is, its emergence has brought a great impact to the entire industry. As a high-performance chip, its competitiveness cannot be underestimated, and it also makes people look forward to the future of Chinese chips. So, how many nanometers do you think this chip is? What new changes will it bring to the mobile phone market? Welcome to leave a message to share your views.