Break the chip design barriers and break through the difficulties of embedded chip design in these aspects

As far as my country’s current chip design capabilities are concerned, the current chip design and manufacturing products fail to fully meet market demand. For this reason, the chip design industry still needs a lot of talent investment. In order to enhance everyone’s understanding of chip design, the editor has brought many related articles in the past. And the explanation of chip design in this article will use embedded chip as the starting point to discuss which aspects need to break through embedded chip design.

As far as my country’s current chip design capabilities are concerned, the current chip design and manufacturing products fail to fully meet market demand. For this reason, the chip design industry still needs a lot of talent investment. In order to enhance everyone’s understanding of chip design, the editor has brought many related articles in the past. And the explanation of chip design in this article will use embedded chip as the starting point to discuss which aspects need to break through embedded chip design.

Break the chip design barriers and break through the difficulties of embedded chip design in these aspects

The status quo of domestically-made chips is a cliché. Taking high-speed processors such as FPGAs that I am more familiar with, the country is roughly divided into two camps, one is purely private and the other is purely state-owned. The former is represented by Jingwei Accord, which mainly focuses on positive products. It was a bit fierce a while ago. Now it seems to have closed down. The chip level before the collapse probably stayed at the level of Xilinx in the 1990s. The latter is represented by major research institutes, and has been chasing after it for a long time, and it is not too much to mention here when it comes to confidentiality. However, too many chips are also digested within the group, and the cost and performance seem to have not yet reached the requirements for large-scale commercialization.

Overtaking in corners often relies on a new path. This path is the outlet, which is the area where the big guys have not yet mastered the right to speak. It’s really hard to stare at the same path. In terms of original technology innovation, the United States currently possesses many “stuck neck” technologies, such as lithography machines and eda tools.

In terms of chip raw materials and equipment, Japan accounts for more than 60% of the market for some required chemical reagents. South Korea’s expertise is mainly in memory products, while Taiwan is a professional foundry. China has also supported integrated circuits as an important industry. SMIC has achieved mass production of 28nm chips and is already providing product processing services for Qualcomm. In the production of chips, silicon is mainly used at present, and no substitutes have been found. This may also restrict the sustainable development of chips.

Huawei’s own HiSilicon chips are very marketable. According to the current product performance analysis of HiSilicon chips, it can be a huge improvement. The HiSilicon chip is a mobile phone chip. In fact, HiSilicon chips are not only used in mobile phones, even network routers also use Huawei HiSilicon chips. It is the Unisplendour chip under the Tsinghua Unigroup. It is also slightly famous among domestic chips. On the contrary, it also stimulates the potential of independent research and development of domestic chips. In 2017, the Unisplendour chip ranked second in China.

Although China’s technology is not close to the leading edge, China’s Shenwei is also quite powerful. This computer chip has been used for China since 2013, and it has become the world’s supercomputer “hegemony” until the US “summit.” After the launch, the status of “overlord” was robbed. When Shenwei was first launched, it could be said that it shocked the world.

In fact, such a phenomenon has great responsibilities for all major companies. Zf needs to introduce more policies to attract talents, and encourage Chinese companies to purchase more domestic chips when domestic chip technology is in place, instead of blindly holding the mentality of “foreign moons are more round than China” and “satisfied with imports for a long time.” Replace, not enterprising”.In one sentence, the current global chip design is still in a highly monopolistic pattern, and the United States occupies the largest market share.

PC, server CPU: This is undoubtedly Intel’s traditional turf, accounting for more than 80% of the market share, AMD is the second largest player, and Qualcomm is also a potential competitor in the future. On the other hand, in our country, there is no company that can challenge them in the market. (Longson and other companies rely on government-mandatory procurement to survive without discussing them, as well as Feiteng, Zhongke Suguang, Zhaoxin, etc.), GPU: Nvidia is this one. The tycoon accounted for about 70% of the market share, followed by AMD, the second in the millennium.

Break the chip design barriers and break through the difficulties of embedded chip design in these aspects

Analog chips: Foreign related companies have now occupied most of the market. Due to the wide variety of analog devices, domestic companies have room for the rise of domestic companies in certain applications. Silan Microelectronics, Shengbang Microelectronics, Allwinner Technology, and Rockchip Home has a place in the field of consumer electronics.

Mobile phone chips: This field is a relatively proud field in my country. Although Qualcomm and MediaTek occupy most of the market share, Huawei HiSilicon has relatively strong international competitiveness in technology, but its chips are not sold externally, and Ziguang Zhan Rui and ASR Aojie Technology also have certain advantages in the low-end mobile phone market. MCU: This field is also a large market of 50 billion U.S. dollars, of which the world’s eight largest manufacturers account for about 88% of the market share, including NXP, Japan’s Renesas, Microchip, ST, Samsung and TI, etc., MCU is still a diversified application market. In recent years, the growth of Chinese MCU companies has accelerated, especially in the 32-bit MCU market, companies such as Zhaoyi Innovation, Zhixiang Technology and Smart Microelectronics have emerged. Their MCU chips based on ARM Cortex M technology are welcomed by the market

FPGA: The global market of about 5 billion US dollars is monopolized by Intel and Xilinx. Excluding the military industry’s Ziguang Guoxin and Fudan Microelectronics, the best AGM in the domestic low-end commercial market only accounts for no more than 1% Market share still needs time to catch up. There are other vertical chip fields, such as AI chips, mining machine chips, security monitoring, etc. The fields are relatively new, and some have not yet formed a large high-volume market or have a slightly lower technical content.

As far as my country’s current chip design capabilities are concerned, the current chip design and manufacturing products fail to fully meet market demand. For this reason, the chip design industry still needs a lot of talent investment. In order to enhance everyone’s understanding of chip design, the editor has brought many related articles in the past. And the explanation of chip design in this article will use embedded chip as the starting point to discuss which aspects need to break through embedded chip design.

As far as my country’s current chip design capabilities are concerned, the current chip design and manufacturing products fail to fully meet market demand. For this reason, the chip design industry still needs a lot of talent investment. In order to enhance everyone’s understanding of chip design, the editor has brought many related articles in the past. And the explanation of chip design in this article will use embedded chip as the starting point to discuss which aspects need to break through embedded chip design.

Break the chip design barriers and break through the difficulties of embedded chip design in these aspects

The status quo of domestically-made chips is a cliché. Taking high-speed processors such as FPGAs that I am more familiar with, the country is roughly divided into two camps, one is purely private and the other is purely state-owned. The former is represented by Jingwei Accord, which mainly focuses on positive products. It was a bit fierce a while ago. Now it seems to have closed down. The chip level before the collapse probably stayed at the level of Xilinx in the 1990s. The latter is represented by major research institutes, and has been chasing after it for a long time, and it is not too much to mention here when it comes to confidentiality. However, too many chips are also digested within the group, and the cost and performance seem to have not yet reached the requirements for large-scale commercialization.

Overtaking in corners often relies on a new path. This path is the outlet, which is the area where the big guys have not yet mastered the right to speak. It’s really hard to stare at the same path. In terms of original technology innovation, the United States currently possesses many “stuck neck” technologies, such as lithography machines and eda tools.

In terms of chip raw materials and equipment, Japan accounts for more than 60% of the market for some required chemical reagents. South Korea’s expertise is mainly in memory products, while Taiwan is a professional foundry. China has also supported integrated circuits as an important industry. SMIC has achieved mass production of 28nm chips and is already providing product processing services for Qualcomm. In the production of chips, silicon is mainly used at present, and no substitutes have been found. This may also restrict the sustainable development of chips.

Huawei’s own HiSilicon chips are very marketable. According to the current product performance analysis of HiSilicon chips, it can be a huge improvement. The HiSilicon chip is a mobile phone chip. In fact, HiSilicon chips are not only used in mobile phones, even network routers also use Huawei HiSilicon chips. It is the Unisplendour chip under the Tsinghua Unigroup. It is also slightly famous among domestic chips. On the contrary, it also stimulates the potential of independent research and development of domestic chips. In 2017, the Unisplendour chip ranked second in China.

Although China’s technology is not close to the leading edge, China’s Shenwei is also quite powerful. This computer chip has been used for China since 2013, and it has become the world’s supercomputer “hegemony” until the US “summit.” After the launch, the status of “overlord” was robbed. When Shenwei was first launched, it could be said that it shocked the world.

In fact, such a phenomenon has great responsibilities for all major companies. Zf needs to introduce more policies to attract talents, and encourage Chinese companies to purchase more domestic chips when domestic chip technology is in place, instead of blindly holding the mentality of “foreign moons are more round than China” and “satisfied with imports for a long time.” Replace, not enterprising”.In one sentence, the current global chip design is still in a highly monopolistic pattern, and the United States occupies the largest market share.

PC, server CPU: This is undoubtedly Intel’s traditional turf, accounting for more than 80% of the market share, AMD is the second largest player, and Qualcomm is also a potential competitor in the future. On the other hand, in our country, there is no company that can challenge them in the market. (Longson and other companies rely on government-mandatory procurement to survive without discussing them, as well as Feiteng, Zhongke Suguang, Zhaoxin, etc.), GPU: Nvidia is this one. The tycoon accounted for about 70% of the market share, followed by AMD, the second in the millennium.

Break the chip design barriers and break through the difficulties of embedded chip design in these aspects

Analog chips: Foreign related companies have now occupied most of the market. Due to the wide variety of analog devices, domestic companies have room for the rise of domestic companies in certain applications. Silan Microelectronics, Shengbang Microelectronics, Allwinner Technology, and Rockchip Home has a place in the field of consumer electronics.

Mobile phone chips: This field is a relatively proud field in my country. Although Qualcomm and MediaTek occupy most of the market share, Huawei HiSilicon has relatively strong international competitiveness in technology, but its chips are not sold externally, and Ziguang Zhan Rui and ASR Aojie Technology also have certain advantages in the low-end mobile phone market. MCU: This field is also a large market of 50 billion U.S. dollars, of which the world’s eight largest manufacturers account for about 88% of the market share, including NXP, Japan’s Renesas, Microchip, ST, Samsung and TI, etc., MCU is still a diversified application market. In recent years, the growth of Chinese MCU companies has accelerated, especially in the 32-bit MCU market, companies such as Zhaoyi Innovation, Zhixiang Technology and Smart Microelectronics have emerged. Their MCU chips based on ARM Cortex M technology are welcomed by the market

FPGA: The global market of about 5 billion US dollars is monopolized by Intel and Xilinx. Excluding the military industry’s Ziguang Guoxin and Fudan Microelectronics, the best AGM in the domestic low-end commercial market only accounts for no more than 1% Market share still needs time to catch up. There are other vertical chip fields, such as AI chips, mining machine chips, security monitoring, etc. The fields are relatively new, and some have not yet formed a large high-volume market or have a slightly lower technical content.

The Links:   CM75DU-24H B141XG08

Author: Yoyokuo