Recently, Huawei's Lingxi instruction set** is a big step forward for Huawei in the field of chip technology and an important challenge for the global chip industry. The instruction set is one of the most central technologies in chip design, and it determines how the electrons move in the CPU. At present, almost all mobile chips around the world use ARM's instruction set, which is one of the reasons why manufacturers such as Huawei cannot ship freely. Although Huawei has obtained a permanent license for ARMV8, it cannot obtain a license for ARMV9 and future architecture technologies. This means that Huawei's development in the field of chips has been limited to a certain extent.
However, Huawei is not without a solution. In terms of chip core technology, Huawei has made many breakthroughs. In addition to self-developed chip design, Huawei has also developed core technologies such as Da Vinci architecture, NPU, and CPU, and has also launched software algorithms such as GPUturbo. Huawei's self-developed NPU is based on the Da Vinci architecture and is widely used in Huawei HiSilicon chips. In the field of artificial intelligence chip manufacturing, Huawei is considered one of the strongest competitors. Now, Huawei has developed its own Lingxi instruction set and started to develop chips based on the RISC-V architecture.
Huawei's independent R&D in the chip field is not only reflected in core technologies, but also in the localization process of components. Ren Zhengfei has made it clear that Huawei can use American components, but the United States does not allow Huawei to do so. In order to solve this problem, Huawei has accelerated the localization of related components. Especially in the case that TSMC cannot ship freely, Huawei has promoted the expansion of the domestic mobile phone industry chain and successfully guaranteed the production capacity of Huawei's mobile phones. Similarly, Huawei has also actively promoted the construction of the domestic chip industry chain and realized the domestic production of chips such as Kirin 9000S.
The president of ASML also admitted that the self-developed chip industry chain of Huawei and other domestic manufacturers has caused some damage to the global industrial chain, which reflects the breakthroughs made by Huawei and other companies in the chip field. Today, Huawei's self-developed chip instruction set marks that Huawei wants to realize the complete localization of chips and further solve the problem of chips.
Huawei's Lingxi command girl** means that Huawei has taken an important step forward in chip technology. For Huawei, the significance of self-developed chip instruction sets is very significant. First of all, at the technical level, the self-developed instruction set will further improve the performance of Huawei's chips, so that they can better meet the needs of users. Second, at the commercial level, the self-developed instruction set will help Huawei get rid of its dependence on ARM and reduce the risks caused by technology licensing restrictions. Most importantly, Huawei's self-developed instruction set will strengthen Huawei's competitiveness in the chip field and lay a solid foundation for its future development.
In the future, Huawei's self-developed chip instruction set is expected to promote the localization process of Huawei chips. With the technical advantages brought by the self-developed instruction set, Huawei can design and optimize chips more freely, so as to launch more powerful products that better meet market needs. At the same time, the self-developed instruction set will also accelerate the construction of Huawei's chip industry chain and promote the development of related industries in China. This is of great significance for promoting the independent development of China's chip industry.
In short, Huawei's Lingxi instruction set marks Huawei's continuous breakthrough in the field of independent research and development of chips. Through the self-developed chip instruction set, Huawei will further enhance its core competitiveness in the field of chip technology and achieve complete localization of chips. In this process, Huawei has continuously strengthened the R&D and deployment of core technologies to promote the construction and development of related industrial chains in China. As Huawei continues to make breakthroughs, I believe we can expect Huawei's greater achievements in the field of chips in the future.