Kirin 9000s is made of a few nanometer process

Question: What process is used to manufacture Kirin 9000S? Answer: TSMC 5nm process. The advantages of the 5-nanometer process include: higher transistor density and improved performance; lower power consumption and extended battery life; smaller chip size and thinner devices.

Kirin 9000S uses a 5nm process.

Kirin 9000S is a flagship mobile processor developed by Huawei HiSilicon Semiconductor and manufactured using TSMC’s 5nm process. The 5-nanometer process refers to the size of circuit components carved on the silicon wafer to be 5 nanometers. Compared with the previous mainstream 7-nanometer process, the 5-nanometer process can accommodate more transistors and improve the performance and energy efficiency of the chip.

The advantages of the 5 nanometer process are mainly reflected in:

• Higher transistor density: In the same chip area, more transistors can be accommodated, Thereby improving the performance of the chip.
• Lower power consumption: 5 nanometer process transistors have less leakage and lower power consumption, which can extend the battery life of the device.
• Smaller chip size: 5 nanometer process can reduce the size of the chip, thereby reducing the weight and thickness of the device.

Therefore, the Kirin 9000S processor manufactured using the 5-nanometer process has the advantages of stronger performance, lower power consumption, and smaller size.

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