It’s been an interesting few years for Huawei. After the Chinese giant’s initial struggle with the US trade sanctions, it would end up with a surprise mobile resurgence featuring homegrown processors — ones that are just two generations behind the competition. Not only that, the Chinese government has since allocated billions of dollars to boost its silicon industry, so much that Huawei is already working towards a self-sufficient chip network. It’s as if former President Donald Trump’s earlier attempts to starve Huawei of vital inputs eventually accelerated China’s semiconductor development.
Trump’s first strike on Huawei was the declaration of a national emergency in May 2019, which saw the Commerce Department add the company to its Entity List, citing surveillance concerns and links to the Chinese state security. As such, Google could no longer provide Android support to Huawei, thus causing the Mate 30 series and later models to miss out on Google apps (they would eventually adopt Huawei’s Android replacement, HarmonyOS, two years later).
In November 2019, the FCC banned carriers from buying Huawei and ZTE networking gear with government subsidies.The following March, Trump signed a bill that would reimburse the replacement of Chinese gear — even if it meant spending an estimated $1.8 billion. Huawei attempted to sue the FCC over these restrictions, but the court sided with the regulator.
The tech war heated up rapidly in May 2020, when the US further restricted Huawei’s access to American equipment and software. This meant Taiwan Semiconductor Manufacturing Company (TSMC), the world’s leading fab, would have to stop producing HiSilicon chips for Huawei — its then second-largest customer, after Apple. Likewise, Samsung and SK Hynix had to stop selling chips to the Chinese brand by the September 15, 2020 deadline. As Bloomberg’s teardown of the latest Huawei smartphones revealed, the company didn’t have a problem stockpiling these Korean memory chips.

For processors, Huawei had no choice but to rely more on local chip makers, namely Semiconductor Manufacturing International Corporation (SMIC) and Shanghai IC R&D Center. That meant a significant downgrade, though: SMIC had just started mass-producing 14nm chips for Huawei then, whereas TSMC reached 5nm later that year and supplied Kirin 9000 processors for Huawei’s Mate 40. That would be the final “high-end” Kirin chip, Huawei’s mobile boss Richard Yu said at the time.
Qualcomm was eventually allowed to supply 4G chips to Huawei as of November 2020, but that’s four G, and market share figures don’t lie. The once-leading brand in China dropped to just 16 percent locally in January 2021 (and then down to a mere 6 percent in Q2 2022), as noted by Counterpoint. Huawei’s global market share has been negligible since 2021. According to both Counterpoint and Statista, though, since Huawei sold the Honor brand in November 2020, the spin-off has been able to claim one of the top China quarterly chart positions all this time.
China’s chip investment finally paid off when SMIC made a 7nm breakthrough in August 2022 — a leap from 14nm in just two years — faster than it took TSMC or Samsung, according to TechInsights. What’s more, this achievement was apparently done without using the most advanced lithography equipment, which were largely exclusive to the likes of ASML and Nikon. It wasn’t until earlier this year that the US convinced the Netherlands and Japan to restrict China’s access to advanced chipmaking machinery.
As Bloomberg would later find out in a lengthy investigation, this might have been the fruition of a Shenzhen city government investment fund from 2019 that helped Huawei build “a self-sufficient chip network.” Through a network of enterprises, Huawei could stealthily gain access to lithography tech while exchanging experts to work on each others’ turfs, without raising any flags. Huawei apparently even managed to hire several former ASML employees, which was likely key to reaching the 7nm node process for its latest processor (the 5G-capable HiSilicon Kirin 9000S, fabricated by SMIC). Benchmarks indicate that this chip’s performance is on par with Qualcomm’s Snapdragon 888 from late 2020, thus suggesting that it’s around two generations behind the leading competition.
Huawei then took a rather unusual approach to launch its Kirin 9000S smartphones at the beginning of September this year. Without any launch event or teaser, the company simply announced on Weibo that the Mate 60 and Mate 60 Pro were immediately available. This surprise stunt coincided with the US Commerce Secretary Gina Raimondo’s visit to China, which led many to believe that Huawei received special orders from certain authorities to hastily launch these 5G devices ahead of schedule. This was quickly followed by the China’s announcement of a $40 billion fund to further boost its chip industry, as well as the launch of two more phones, the Mate 60 Pro+ and the Mate X5 foldable, a week later.
REUTERS / Reuters
While this may seem a temporary win for China, the country actually saw 10,900 chip-related companies close down in 2023 (as of December 11) — a staggering 90-percent year-on-year increase, which is a sign of a bad economy, according to TMTPost. On the flip side, 65,700 new chip-related companies registered in the same period, which is a 9.5 percent increase year-on-year. The report added that the China-made RAM chips and processors on Huawei’s Mate 60 series are an indication of the growing reliance on the local supply chain, which will continue to drive the long-term development of the Chinese semiconductor industry.
As much as the US government wants to limit China’s access to high-end tech, the truth is western companies still want to tap into the big market in the east. NVIDIA is a prime example, as it’s still in talks with the authorities on the specifications of AI chips that it can sell to China, without breaching US export rules. “What we cannot allow them to ship is the most sophisticated, highest-processing power AI chips, which would enable China to train their frontier models,” Raimondo told Reuters. Of course, failing that, China may eventually come up with an AI chip that’s just as impressive, if not more — like its recent claim of a light-based chip that is apparently 3,000 times faster than NVIDIA’s A100.
The US-China tech war isn’t just limited to chips, either. The Biden administration is proposing to cut tax credits on electric vehicles that contain Chinese components — especially batteries, as an attempt to wean local car brands off Chinese components. The trade-off here is always the cost savings (as is the idea behind Ford and CATL’s Michigan battery plant), as well as the US market missing out on potential breakthroughs on power density or output, namely the upcoming 150kWh battery demoed in Chinese EV manufacturer Nio’s ET7, which reached a range of around 650 miles. Who knows, maybe someday Huawei may want to sell its Aito or Luxeed electric cars in the US, too — if it’s allowed to enter at all.This article originally appeared on Engadget at https://www.engadget.com/how-chinas-chip-production-boomed-in-2023-despite-sanctions-143058510.html?src=rss

It’s been an interesting few years for Huawei. After the Chinese giant’s initial struggle with the US trade sanctions, it would end up with a surprise mobile resurgence featuring homegrown processors — ones that are just two generations behind the competition. Not only that, the Chinese government has since allocated billions of dollars to boost its silicon industry, so much that Huawei is already working towards a self-sufficient chip network. It’s as if former President Donald Trump’s earlier attempts to starve Huawei of vital inputs eventually accelerated China’s semiconductor development.

Trump’s first strike on Huawei was the declaration of a national emergency in May 2019, which saw the Commerce Department add the company to its Entity List, citing surveillance concerns and links to the Chinese state security. As such, Google could no longer provide Android support to Huawei, thus causing the Mate 30 series and later models to miss out on Google apps (they would eventually adopt Huawei’s Android replacement, HarmonyOS, two years later).

In November 2019, the FCC banned carriers from buying Huawei and ZTE networking gear with government subsidies.The following March, Trump signed a bill that would reimburse the replacement of Chinese gear — even if it meant spending an estimated $1.8 billion. Huawei attempted to sue the FCC over these restrictions, but the court sided with the regulator.

The tech war heated up rapidly in May 2020, when the US further restricted Huawei’s access to American equipment and software. This meant Taiwan Semiconductor Manufacturing Company (TSMC), the world’s leading fab, would have to stop producing HiSilicon chips for Huawei — its then second-largest customer, after Apple. Likewise, Samsung and SK Hynix had to stop selling chips to the Chinese brand by the September 15, 2020 deadline. As Bloomberg’s teardown of the latest Huawei smartphones revealed, the company didn’t have a problem stockpiling these Korean memory chips.

For processors, Huawei had no choice but to rely more on local chip makers, namely Semiconductor Manufacturing International Corporation (SMIC) and Shanghai IC R&D Center. That meant a significant downgrade, though: SMIC had just started mass-producing 14nm chips for Huawei then, whereas TSMC reached 5nm later that year and supplied Kirin 9000 processors for Huawei’s Mate 40. That would be the final “high-end” Kirin chip, Huawei’s mobile boss Richard Yu said at the time.

Qualcomm was eventually allowed to supply 4G chips to Huawei as of November 2020, but that’s four G, and market share figures don’t lie. The once-leading brand in China dropped to just 16 percent locally in January 2021 (and then down to a mere 6 percent in Q2 2022), as noted by Counterpoint. Huawei’s global market share has been negligible since 2021. According to both Counterpoint and Statista, though, since Huawei sold the Honor brand in November 2020, the spin-off has been able to claim one of the top China quarterly chart positions all this time.

China’s chip investment finally paid off when SMIC made a 7nm breakthrough in August 2022 — a leap from 14nm in just two years — faster than it took TSMC or Samsung, according to TechInsights. What’s more, this achievement was apparently done without using the most advanced lithography equipment, which were largely exclusive to the likes of ASML and Nikon. It wasn’t until earlier this year that the US convinced the Netherlands and Japan to restrict China’s access to advanced chipmaking machinery.

As Bloomberg would later find out in a lengthy investigation, this might have been the fruition of a Shenzhen city government investment fund from 2019 that helped Huawei build “a self-sufficient chip network.” Through a network of enterprises, Huawei could stealthily gain access to lithography tech while exchanging experts to work on each others’ turfs, without raising any flags. Huawei apparently even managed to hire several former ASML employees, which was likely key to reaching the 7nm node process for its latest processor (the 5G-capable HiSilicon Kirin 9000S, fabricated by SMIC). Benchmarks indicate that this chip’s performance is on par with Qualcomm’s Snapdragon 888 from late 2020, thus suggesting that it’s around two generations behind the leading competition.

Huawei then took a rather unusual approach to launch its Kirin 9000S smartphones at the beginning of September this year. Without any launch event or teaser, the company simply announced on Weibo that the Mate 60 and Mate 60 Pro were immediately available. This surprise stunt coincided with the US Commerce Secretary Gina Raimondo’s visit to China, which led many to believe that Huawei received special orders from certain authorities to hastily launch these 5G devices ahead of schedule. This was quickly followed by the China’s announcement of a $40 billion fund to further boost its chip industry, as well as the launch of two more phones, the Mate 60 Pro+ and the Mate X5 foldable, a week later.

REUTERS / Reuters

While this may seem a temporary win for China, the country actually saw 10,900 chip-related companies close down in 2023 (as of December 11) — a staggering 90-percent year-on-year increase, which is a sign of a bad economy, according to TMTPost. On the flip side, 65,700 new chip-related companies registered in the same period, which is a 9.5 percent increase year-on-year. The report added that the China-made RAM chips and processors on Huawei’s Mate 60 series are an indication of the growing reliance on the local supply chain, which will continue to drive the long-term development of the Chinese semiconductor industry.

As much as the US government wants to limit China’s access to high-end tech, the truth is western companies still want to tap into the big market in the east. NVIDIA is a prime example, as it’s still in talks with the authorities on the specifications of AI chips that it can sell to China, without breaching US export rules. “What we cannot allow them to ship is the most sophisticated, highest-processing power AI chips, which would enable China to train their frontier models,” Raimondo told Reuters. Of course, failing that, China may eventually come up with an AI chip that’s just as impressive, if not more — like its recent claim of a light-based chip that is apparently 3,000 times faster than NVIDIA’s A100.

The US-China tech war isn’t just limited to chips, either. The Biden administration is proposing to cut tax credits on electric vehicles that contain Chinese components — especially batteries, as an attempt to wean local car brands off Chinese components. The trade-off here is always the cost savings (as is the idea behind Ford and CATL’s Michigan battery plant), as well as the US market missing out on potential breakthroughs on power density or output, namely the upcoming 150kWh battery demoed in Chinese EV manufacturer Nio’s ET7, which reached a range of around 650 miles. Who knows, maybe someday Huawei may want to sell its Aito or Luxeed electric cars in the US, too — if it’s allowed to enter at all.

This article originally appeared on Engadget at https://www.engadget.com/how-chinas-chip-production-boomed-in-2023-despite-sanctions-143058510.html?src=rss …Read More

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