4nm, domestic manufacturers announced new chip news, foreign media: Huawei has a show

4nm, domestic manufacturers announced new chip news, foreign media: Huawei has a show

Introduction:

Since the revision of the chip rules, domestic manufacturers have actively engaged in the field of chips, and have continuously accelerated the independent research and development of various chips and innovative manufacturing technologies. This article will explore the key breakthroughs and advances in chip manufacturing and design in the domestic chip industry, focusing on the following aspects:

1. Good news in chip manufacturing:

- A major breakthrough was made in Shanghai's domestic 90nm lithography machine.

- Achieved large-scale mass production of 14nm process.

- News of potential breakthroughs in the 12nm process.

2. Technological development of domestic manufacturers:

- R&D of new technologies, such as stacking technology chips and chiplets.

- The XDFOIChiplet process has entered the stage of stable mass production, which improves the chip integration.

3. Opportunities to impact Huawei:

- Independent research and development of various chips, including Kirin core.

- The development of domestic EDA software for the design of 14nm and other chips.

- The application of the open source RISC-V architecture, including the launch of multiple RISC-V architecture chips.

- Developed the third-generation Xiangshan architecture to support RISC-V technology.

4. Chip Manufacturing Technology:

- China is able to mass-produce 14nm chips, which may have achieved an important breakthrough in the 12nm process.

- SMIC trial-produced N+1 process chips with low power consumption.

- R&D of chips with stacking technology to improve performance.

- Realize the shipment of 4nm node multi-chip system integrated packaging products to improve performance.

Good news in chip manufacturing:

In the field of chip manufacturing, a series of important breakthroughs have been made in China. First of all, Shanghai announced that a major breakthrough has been made in the domestic 90nm lithography machine. This news is exciting, as lithography machines are the core equipment in chip manufacturing, and 90nm process accuracy will help improve chip performance and reduce manufacturing costs.

Another encouraging piece of news is the realization of mass production at 14nm process scale. This marks a huge progress in process technology by domestic manufacturers, enabling them to produce more advanced chips to meet the growing market demand. What's even more exciting is the news that the 12nm process could also make a breakthrough in the near future. This will make domestic manufacturers more competitive in the global competition.

Technological development of domestic manufacturers:

In addition to making important progress in chip manufacturing, domestic manufacturers are also constantly innovating in technological development. They are actively developing new technologies, such as stacking technology chips and chiplets, to meet the needs of different fields.

This diversified technological innovation has brought more opportunities to the domestic chip industry.

In addition, the XDFOIChiplet process has entered the stage of stable mass production, which has improved the integration of chips. The stable application of this technology provides domestic manufacturers with greater flexibility, enabling them to design more efficient and advanced chips to meet the evolving market demand.

Opportunities for Huawei:

In terms of chip design and development, domestic manufacturers are not only making breakthroughs in the field of manufacturing, but also providing new opportunities for domestic giants such as Huawei. First, Huawei's independent research and development of various chips, including Kirin Chip, has enabled Huawei to reduce its dependence on external suppliers and improve its technological autonomy.

In addition, the development of domestic EDA (Electronic Design Automation) software provides more options for chip design, especially in fields such as 14nm. This provides more tools for domestic manufacturers to accelerate the process of chip design and development.

Another important trend is the application of the RISC-V architecture, including the introduction of multiple RISC-V architecture chips. The adoption of this open-source architecture provides domestic manufacturers with the flexibility to customize the chip as needed to better meet market demand.

In addition, the development of the third-generation Xiangshan architecture to support RISC-V technology is also an important initiative.

This will provide domestic manufacturers with more technology options, enabling them to design more efficient and innovative chips in different fields.

Advances in Chip Manufacturing Technology:

In terms of chip manufacturing technology, domestic manufacturers continue to make breakthroughs and improve their competitiveness. First of all, China has been able to mass-produce 14nm chips, which is a remarkable achievement. This means they are able to offer higher performance products while remaining cost competitive.

SMIC is also trial-producing N+1 process chips

This process has low power consumption and will meet the needs of a wide range of applications.

In addition, the research and development of chips with stacking technology is expected to improve performance and make domestic chips more competitive.

Finally, the shipment of multi-chip integrated packaging products for the 4nm node is also an important breakthrough. This will further improve the performance of the chip and provide more options for a variety of applications.

Summary:

The domestic chip industry has made important breakthroughs in a number of key areas, including R&D and design software, open source architecture, manufacturing technology and packaging technology. These developments have brought more opportunities for domestic manufacturers, especially Huawei, to better meet market demand and improve their competitiveness.

The Ministry of Commerce has heard that it intends to restrict the export of lidar and other technologies, and Europe and the United States are a little panicked

With the rapid development of global intelligent vehicle technology, lidar technology has become one of the core hardware technologies of autonomous driving. Now, China's Ministry of Commerce plans to include key technologies such as lidar in the list of restricted exports, a move that will have a far-reaching impact on the new energy vehicle industry in Europe and the United States. In this article, we will explore the key position of LiDAR technology, China's advantages in this area, and the potential impact and future outlook for European and American OEMs.

## 1. Background

In the field of smart cars, autonomous driving technology has always attracted much attention, and lidar technology plays a vital role in it.

The Ministry of Commerce plans to include LiDAR and other technologies in the list of export restrictions, which is of great significance for the new energy vehicle industry in Europe and the United States. At the same time, lidar technology has become one of the key factors in the development of new energy vehicles of European and American car companies.

## 2. The importance of LiDAR technology

Lidar technology is the core hardware technology of high-level autonomous driving technology in the field of intelligent vehicles. It acts as the "eye" of the car's autonomous driving, and can detect the surrounding environment with high precision and identify obstacles and road conditions in real time. For new energy vehicles, autonomous driving technology is the key to improving driving safety, efficiency and convenience, and lidar technology plays an indispensable role in it.

## 3. China's superiority in LiDAR technology

China has shown strong advantages in on-board laser detection and ranging system technology. For example, Huawei's automotive LiDAR products have a range of 150 meters, far exceeding the observation distance of the human eye. The high development of this technology has enabled China to occupy a leading position in the field of lidar, which is expected to promote the continuous growth of the domestic smart car industry.

## 4. Technology trends

With the continuous development of technology, a new generation of solid-state lidar technology is emerging. These technologies have the advantages of small size, high reliability, and reduced price, making them widely used in autonomous vehicles.

The rapid development of Chinese technology has led to a significant reduction in the price of lidar technology, which will further drive its adoption in the global market.

## 5. The disadvantages of European and American car companies in lidar technology

Compared with China, there is a significant gap between European and American car companies in lidar technology. In the case of the United States, for example, it was not until 2016 that they achieved the level of technology that China had already achieved in 2001. This technological lag not only threatens the competitiveness of European and American car companies, but also makes them face greater challenges in the global market.

## 6. An alternative alternative to pony cars

Some car companies, such as Shanghai Xiaoma, have chosen to use "visual recognition" technology instead of lidar.

However, it should be pointed out that LiDAR technology still has significant advantages in terms of ranging accuracy and cost. This means that European and American automakers still need to rely on lidar technology to improve the performance of autonomous driving systems.

## 7. Impact and outlook on European and U.S. automakers

If China completely bans the export of lidar technology, it will have a huge impact on the new energy vehicle industry in Europe and the United States. Due to China's leading edge in technology and cost, it is difficult for European and American car companies to catch up unless they take a new path of innovation. This will also force them to work harder to strengthen technology research and development and cooperation to remain competitive.

## 8. summary

Overall, lidar technology plays an integral role in the field of smart cars. China's leading position in LiDAR technology has made it a key enabler for the global NEV industry. At the same time, European and American automakers are facing technological gaps and competitive pressures, and need to adopt innovative and cooperative ways to maintain competitiveness. Factors such as the advancement, reliability, and cost of lidar technology will continue to influence the development of the smart car industry. China's leading position will continue to shape the global smart car landscape in the future.