China’s First Homegrown Chipmaking Machine Enters Testing Phase—Semiconductor Sovereignty Push Accelerates
Beijing thrusts its domestic chipmaking ambitions into the spotlight with a landmark prototype now undergoing rigorous testing.
The breakthrough machine—designed, developed, and assembled entirely on Chinese soil—marks a critical milestone in the nation’s push to circumvent foreign tech dependencies.
No specs were shared, but industry watchers are already buzzing. Can it compete with Dutch and American rivals on yield or precision? Only the test results will tell.
If it works, this isn’t just a technical win—it’s a geopolitical lever. One that might just reshuffle global supply chains and give trade hawks a new talking point.
And sure, while semiconductor stocks might twitch, let’s be real: in a world where crypto still outperforms most tech IPOs, maybe what we really need is a blockchain-based fab. Decentralized chipmaking, anyone? Now there’s a white paper we’d read.
SMIC runs tests on China-made lithography machines
This is a big step for China because the country has always relied on lithography machines built by the Dutch company ASML. Without them, China WOULD struggle to make advanced processors that power AI applications. However, the recent U.S.-led export controls limited China’s ability to buy the latest ASML machines, so companies had to invest a lot of money and resources into developing their own technology.
The new DUV machine by SMIC uses the same technology as those by ASML (immersion technology), and people connected to the project say the first results look promising. SMIC’s machines currently produce chips at the 28-nanometre level, and engineers are trying advanced multi-patterning techniques to make them more efficient. With these methods, SMIC aims to make chips at the 7-nanometre level.
Experts say the machines might be able to make 5-nanometre chips in the future with more developments and adjustments. However, at this level, efficiency would be reduced, and the company might only produce fewer chips compared to global competitors like Taiwan Semiconductor Manufacturing Company.
China still struggles with production due to a lack of extreme ultraviolet, or EUV, lithography machines. EUV machines make the most powerful processors for AI and high-performing computing, and companies like TSMC use them to make chips for Nvidia and other global leaders. ASML is the only company globally that can make EUV machines, but because U.S. pressure forced the Dutch government to ban their sales to China, SMIC can only produce subpar chips.
China speeds up efforts to build its own chip tools
Experts say it will take years before Chinese-made lithography machines can produce chips on a large scale. Engineers must spend months adjusting and changing them because most need at least a year of repeated testing and tuning before they are ready for full production.
However, competing with ASML’s machines even after these adjustments will be difficult because ASML has decades of experience and advanced processes. It can also access a global supply chain that helps it produce machines on a large scale.
Yuliangsheng, a start-up in Shanghai, made the DUV machine that SMIC is testing, and it uses mostly parts made in China (though some parts still come from other countries). The company aims to make all parts in China to reduce dependence on foreign suppliers. Shenzhen-based SiCarrier, which owns part of Yuliangsheng, is also working on many other chipmaking machines.
However, even with these efforts, Chinese companies are still behind world leaders in producing the most advanced chips. Reports say Chinese chipmakers want to triple their production by 2026 and make sure locally-produced machines will be in full use by 2027. Still, it will take years before these machines can compete with global leaders.
Semiconductor analyst at Bernstein, Lin Qingyuan, said the tests are promising but warned that full production is difficult. “It is one thing to have a prototype of a lithography machine; it is another thing to put it into volume production and make it compete with ASML. This could take another few years,” he said
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