The Chinese semiconductor industry, including integrated circuit design and manufacturing, forms a major part of mainland China's information technology industry.
China is currently the world's largest semiconductor market in terms of consumption. In 2020, China represented 53.7% of worldwide chip sales, or $239.45 billion out of $446.1 billion. However, a large percentage are imported from multinational suppliers. In 2020, imports took up over 83% ($199.7 billion) of total chip sales. In response, the country launched a number of initiatives to reduce its reliance on foreign companies.[1]: 274 To reduce reliance on foreign semiconductor companies, CICF pools resources from state investors including the Ministry of Finance, China Tobacco, China Mobile, and China Development Bank.[1]: 274
China leads the world in terms of number of new fabs under construction, with 8 out of 19 worldwide in 2021. A total of 17 fabs were expected to start construction between 2021 and 2023. Total installed capacity of Chinese-owned chipmakers was also set to increase from 2.96 million wafers per month (wpm) in 2020 to 3.57 million wpm in 2021.[2]
History
Soviet-style system of industry
The semiconductor industry in China began between a period in 1956, along with the country's first transistor produced in a state lab. In 1965, China created their first integrated circuit. From 1956 to 1990, the industry followed a Soviet-style system of industrial organization.[4] China's State Council prioritized semiconductor technology in its "Outline for Science and Technology Development, 1956–1967," leading to the establishment of semiconductor-related degree programs in five major universities. The Huajing Group's Wuxi Factory No. 742, operational from 1960, played a crucial role in training industry experts and supporting subsequent industrial strategies.[5]
In the mid-1960s through the late 1960s, China began a semiconductor program.[6]: 101
During the 1970s, China's semiconductor industry operated with research conducted in state labs and manufacturing in separate state-owned factories, hindering technology transfer. Most of the approximately 40 factories focused on producing basic diodes and transistors rather than integrated circuits (ICs). The Cultural Revolution from 1965 to 1975 further disrupted industry progress. However by 1972, China was producing third-generation computers.[6]: 101
Deng Xiaoping's economic reforms starting in 1978 initiated significant changes. By the early 1980s, under the sixth Five-Year Plan (1981-1985), the State Council formed a "Computer and Large Scale IC Lead Group" to modernize the industry. Despite importing 24 secondhand semiconductor lines by 1985, only the Wuxi Factory No. 742 met production targets. Efforts then narrowed to focus on five key firms, but cumulative setbacks left the industry lagging behind global leaders.[5]
End of the 20th century
In the 1990s, China adopted a strategy of concentrating resources on a few large firms to foster partnerships with foreign companies, aiming to accelerate technological advancement.[7][8] Initiatives included joint ventures with Nortel, Philips, NEC, and ITT starting in the late 1980s and early 1990s. The eighth Five-Year Plan (1991-1995) focused on developing Huajing (operator of Wuxi Factory No. 742) into a leading integrated device manufacturer (IDM),[9] supported by significant funding and a joint venture with Lucent Technologies.[8] However, delays in implementation resulted in outdated manufacturing technologies and slower market entry. The ninth Five-Year Plan (1996-2000) introduced Project 909, aiming for a domestic firm, Huahong, to produce internationally competitive chips using Chinese intellectual property and engineers.[9][8] While Huahong successfully partnered with NEC to enter production promptly, reliance on Japanese expertise limited knowledge transfer. Economic downturns in the global DRAM market by 2002 led to significant financial losses for Huahong, prompting changes in its partnership and operational strategies.[8]
Due to the rapid pace of Chinese semiconductor industry advances, on 7 October 2022, the U.S. government announced a major set of export restrictions toward China, with a focus on artificial Intelligence and semiconductor technologies, with the aim of disrupting the development of China's semiconductor industry.[12] In January 2023, these export controls were made multilateral with an agreement between the governments of the United States, Japan, and the Netherlands.[13] Between October 2022 and May 2023, China's government responded with a diverse set of measures, including filing a suit in the World Trade Organization.[14][15]
On 26 December 2023, China prohibited the use of CPUs made by US companies Intel and AMD for Chinese government PCs and servers.[16] The country instead approved 18 processors made by Chinese companies Loongson and Phytium. State-owned companies were also instructed to transition towards Chinese hardware by 2027.[16] The ban was part of China's strategy to rely more on its domestically designed options in response to US sanctions and export controls.
On 15th September 2024, China announced significant advancements in its domestic semiconductor industry, promoting two new deep ultraviolet (DUV) lithography machines. One of the machines operates at a wavelength of 193nm with a resolution below 65nm and an overlay accuracy below 8nm. The second machine has a wavelength of 248nm, with 110nm resolution and 25nm overlay accuracy. [17]
Samsung, who is currently the world's largest producer of NAND flash memory, has two plants in Xi'an which accounts for 42.5% percent of its total production capacity, and 15.3% of worldwide NAND production capacity.[18][19] It was the company's largest overseas investment in chip production with an initial cost of $7 billion.[20]
In 2020, YMTC was using a 20 nm process to make 64-layer 3D NAND flash.[21] In April 2020, the company unveiled its first 128 layers vertical NAND chip, then the most advanced layer count in mass production, based on XTacking architecture, which then entered production.[22]
In 2021, YMTC was producing around 80,000 wafers per month, with plans to expand its first plant to reach 100,000 wpm capacity by 2022;[23] this would have given the company around 6-8% of global market share.[3]
ChangXin Memory Technologies (CXMT) is a Chinese semiconductor integrated device manufacturer headquartered in Hefei, Anhui specializing in the production of DRAM memory. As of 2020, ChangXin can manufacture LPDDR4 and DDR4 RAM on a 19 nm process with a capacity of 40,000 wafers per month.[24] The company plans to increase output to 120,000 wpm and launch 17 nm (LP)DDR5 by end of 2022, with a target total capacity of 300,000 wpm in the mid-long term.[25]
Hangzhou Silan Microelectronics is a Chinese semiconductor company headquartered in Hangzhou. The company focuses on the design of integrated circuit (IC) chip and the manufacturing of semiconductor microelectronics-related products. It is one of the largest integrated device manufacturers (IDM) in China.[26]
Hua Hong Semiconductor Limited is a publicly listed Chinese pure-playsemiconductor foundry company based in Shanghai, established in 1996 as part of China's national efforts to boost its IC industry. Currently, Hua Hong's most advanced node is achieved by its subsidiary Shanghai Huali (HLMC), which in 2022 could manufacture a 28/22nm process; in 2022 advanced 14nm technology was being developed by the company.[38][39]
Hua Hong Semiconductor is currently mainland China's second largest chip-maker behind rival SMIC and the 6th largest globally, with a market share of 2.6% in the second quarter of 2021.[2][38]
HiSilicon is reputed to be the largest domestic designer of integrated circuits in China.[44] In 2020, the U.S. instituted rules that require American firms providing certain equipment to HiSilicon or non-American firms who use American technologies that supply HiSilicon to have licenses[45] and Huawei announced it will stop producing its Kirin chipset from 15 September 2020, onwards.[46] HiSilicon was overtaken by Chinese rival UNISOC in terms of mobile processor market share as a consequence.[47] However, at the end of 2023 the Kirin 9000S processor, which was first used in the Huawei Mate 60, showed that HiSilicon was restarting its production of Kirin chipsets after a three-year hiatus, this time with entirely domestically produced chips.[48]
Loongson Technology is a Chinese fabless company that develops a family of general-purpose, MIPS architecture-compatible microprocessors, mainly used in personal computers and supercomputers. The processors were favoured by the Chinese government in its “Made in China 2025” push, which was also directed against US semiconductor sanctions.[16]
UNISOC is a Chinese fabless semiconductor company headquartered in Shanghai which produces chipsets for mobile phones. UNISOC develops its business in two major fields: consumer electronics, which includes smart phones, feature phones, smart audio systems, smart wear and other areas; Industrial electronics, on the other hand, covers such fields as LAN IoT, WAN IoT, or smart display.
In 2021, it was the fourth largest mobile processor manufacturer in the world, after Mediatek, Qualcomm and Apple, with 9% of global market share.[47]
JCET Group Co., Ltd. is a public company headquartered in Jiangyin on China's eastern coast.[55][56] It is the largest Outsourced Semiconductor Assembly and Test (OSAT) company in mainland China and the third-largest globally.[57] JCET was formed in 1972, when Jiangyin converted a local factory to produce transistors. JCET went public on the Shanghai Stock Exchange in 2003 and continued to grow over time. JCET provides a range of semiconductor packaging, assembly, manufacturing, and testing products and services.[citation needed]
Shanghai Micro Electronics Equipment (SMEE) is a semiconductor manufacturing equipment manufacturer based in Shanghai, supplying lithography (DUV immersion) equipment and other equipment used in the semiconductor manufacturing industry. Currently, its most advanced product is the SSA600, with a resolution of 90 nm. SMEE is developing the SSA800, with a resolution of 28 nm, which will be followed up by the SSA900, with a resolution of 22 nm.[60] In December 2022, the United States Department of Commerce added SMEE to the Bureau of Industry and Security's Entity List.[61]
China Electronics Technology Group Corporation (CETC)
China Electronics Technology Group Corporation (CETC) is China's third largest electronics and IT company behind only Huawei and Lenovo. Its fields include communications equipment, computers, electronic equipment, IT infrastructure, networks, software development, research services, investment and asset management for civilian and military applications.[62][63]
The company also manufactures semiconductors and semiconductor equipment used in the semiconductor manufacturing industry, largely for military applications.[64]
^In China 兆 can mean either short-scale million (1e6) or trillion (1e12). However, for IT-related topics 兆 always means mega/million in Mainland China.
^Clark, Don (21 April 2016). "AMD to License Chip Technology to China Chip Venture". Wall Street Journal. Retrieved 24 April 2018. The VIA/Shanghai Zhaoxin KX-5000 series of x86-compatible CPUs will never be sold outside of China to avoid an Intel lawsuit.","...will use the technology to develop chips for server systems to be sold only in China
^"Jiangsu Changjiang Electronics Technology Co., Ltd.". The International Directory of Company Histories Series. Vol. 216. St. James Press. 2020. ISBN978-1410382443.