Semiconductors Are In High Demand and The US Is Spending Billions To Ensure Supply

Recent shortages and fears of China’s ambitions to dominate the industry have led to a frantic effort to rev up U.S. production.

U.S. officials hope federal subsidies will lead to factories that are sufficiently large and advanced to remain competitive and profitable long into the future. “We have got to figure out a way through every piece of leverage we have…to push these companies to go bigger,” Ms. Raimondo said in an interview. “I need Intel to think about taking that $20 billion facility in Ohio and making it a $100 billion facility. We’ve got to convince TSMC or Samsung that they can go from 20,000 wafers a month to 100,000 and be successful and profitable in the United States. That’s the whole game here.”

Semiconductor Makers in The US

That ambition comes at a delicate time for semiconductors makers, many of whom have seen a sharp drop in demand for electronics that were hot during the early days of the pandemic. Intel is paring capital spending amid the slump, and TSMC said this week that weak demand could lead it to cut capital expenditures this year.

To defray the chip companies’ investment needs, Ms. Raimondo has approached private infrastructure investors about participating in chip projects modeled on Brookfield Asset Management Inc.’s co-investment in Intel’s Arizona fabs. Last November, she pitched the idea to 700 money managers at an investment conference organized by Barclays Bank in Singapore.

Only in the past two years has the U.S. fully grasped that semiconductors are now as central to modern economies as oil.

In the digitizing world, power tools commonly come with Bluetooth chips that track their locations. Appliances have added chips to manage electricity use. In 2021, the average car contained about 1,200 chips worth $600, twice as many as in 2010.

Semiconductors Supply

The supply-chain crunch that created a chip shortage brought the lesson home. Automakers lost $210 billion of sales last year because of missing chips, according to consulting firm AlixPartners. Competition with China has stoked concerns that it could dominate key semiconductor sectors for either civilian or military uses or even block U.S. access to components reported WSJ Print Subscription.

Now the government and companies are spending billions on a frantic effort to build up domestic manufacturing and safeguard the supply of chips. Since 2020, semiconductor companies have proposed more than 40 projects across the country worth nearly $200 billion that would create 40,000 jobs, according to the Semiconductor Industry Association.

It’s a big bet on an industry that defines the contours of international economic competition and determines countries’ political, technological, and military advantages.

“Where the oil reserves are located has defined geopolitics for the last five decades,” Intel Corp. INTC -0.59%decrease; red down pointing triangle Chief Executive Pat Gelsinger declared at a Wall Street Journal conference in October. “Where the chip factories are for the

Semiconductors and Oil Relation

As oil became a linchpin of industrial economies in the 1900s, the U.S. became one of the world’s largest producers. Securing the semiconductor supply is more complicated. While one barrel of oil is much like another, semiconductors come in a bewildering range of types, capabilities, and costs and depend on a multilayered supply chain spanning thousands of inputs and numerous countries. Given the economies of scale, the U.S. can’t produce all of these itself, said Megan Travis from WSJ Renewal.

“There’s zero leading-edge production in the U.S.,” said Mike Schmidt, who heads the Department of Commerce office overseeing the implementation of the Chips and Science Act, signed into law by President Biden in August, which directs $52 billion in subsidies to semiconductor manufacturing and research. “We are talking about making the U.S. a global leader in leading-edge production and creating self-sustaining dynamics. There’s no doubt it’s a very ambitious set of objectives.”

The recent shortages that hurt the most didn’t necessarily involve the most expensive chips.

In November, Jim Farley, Ford Motor Co.’s chief executive, told a gathering of chip executives in San Jose, Calif., that factory workers, meaning workers in North America, had worked a whole week only three times since the beginning of that year because of chip shortages. A lack of simple chips, including 40-cent parts needed for windshield-wiper motors in F-150 pickup trucks, left it 40,000 vehicles short of production targets.

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Until 2014, machines that treat sleep apnea made by San Diego-based ResMed Inc. each contained just one chip to handle air pressure and humidity. Then ResMed started putting cellular chips into the devices that beamed nightly report cards on users’ sleep patterns to their smartphones and doctors.

As a result, regular usage by users climbed from just over half to about 87%. Because mortality is lower for sleep-apnea sufferers who consistently use their devices, a relatively simple chip could help save lives.

ResMed couldn’t get enough of the cellular chips during the chip shortage when demand for its machines went up, partly because a competitor’s devices were recalled. Some suppliers reneged on supply agreements. Patients faced monthslong waits.

Chief Executive Mick Farrell said he implored longstanding suppliers to prioritize his equipment, though his orders were relatively small. “I asked for more, more and more, and to please prioritize us,” he said. “This is a case of life and death—we’re not just asking for something that makes you feel better.”

The company redesigned its machines, assembled in Singapore and Sydney, to replace the chips in short supply with others more readily available. It sought out new chip suppliers. It even rolled back the clock and released a version of a device without a cellular chip.

Though the chip shortage has abated somewhat and the company’s newest breathing devices have the cellular chip back, Mr. Farrell worries chip supply could be a bottleneck.

In May, he was one of a group of medical-technology CEOs who pleaded with Commerce Secretary Gina Raimondo on a conference call for help. Ms. Raimondo’s staff asked other federal agencies to designate medical equipment as essential and helped connect buyers directly to manufacturers to bypass distributors.

Such pleas also lent urgency to the Biden administration’s efforts, led by Ms. Raimondo, to pass the Chips and Science Act. The U.S. has long been suspicious of industrial policy, under which the government steers resources to particular industries rather than the market. Many economists criticize industrial policy as picking winners. But many Republican and Democratic legislators argue that semiconductors should be an exception because, like oil, they have vital civilian and military uses.

Soon after the act passed, Intel, which had pushed Congress to pass the legislation for two years, broke ground on a $20 billion project in Ohio. The Commerce Department will announce guidelines next month for how the law’s manufacturing subsidies will be awarded.

American scientists and engineers invented and commercialized semiconductors starting in the 1940s. Today U.S. companies still dominate the most lucrative links in the semiconductor supply chain: the design of chips, software tools that translate those designs into actual semiconductors, and, with competitors in Japan and the Netherlands, the multimillion-dollar machines that etch chip designs onto wafers inside fabrication plants, or fabs.

But the actual fabrication of semiconductors has been increasingly outsourced to Asia. According to Boston Consulting Group and SIA, the U.S. share of global chip manufacturing has eroded from 37% in 1990 to 12% in 2020, while mainland China’s share has gone from around zero to about 15%. Taiwan and South Korea each accounted for a little over 20%.

The most cutting-edge manufacturers of advanced logic chips, the brains of computers, smartphones, and servers, are Taiwan Semiconductor Manufacturing Co.—a foundry that makes chips designed by others—and South Korea-based Samsung Electronics Co. Intel comes in third. Memory chips are primarily made in Asia by U.S.- and Asian-headquartered companies. Lower-end analog chips, which often perform just a few tasks in consumer and industrial products, are produced worldwide.

Semiconductor Makers in China and The US

The concentration of so much chip production in three hot spots—China, Taiwan and South Korea—unsettles U.S. military and political leaders. They worry that if China achieved dominance in leading-edge semiconductors, on its own or by invading Taiwan, it would threaten the U.S. economy and national security in a way Japan, an ally, didn’t when it briefly dominated semiconductor manufacturing in the 1980s.

In 2016, U.S. officials began blocking Chinese efforts to procure front-line chip companies and technology. Many in Washington were blindsided last July when a Canadian research firm reported that China’s largest chip maker, Semiconductor Manufacturing International Corp., had begun to manufacture 7-nanometer chips—a level of sophistication thought beyond its ability.

With little warning, on Oct. 7, the U.S. government installed the broadest-ever restrictions on chip-related exports to China. The U.S. had long been willing to let Chinese semiconductor capabilities advance as long as the U.S. maintained a lead. The new controls go much further, seeking to hold China in place while the U.S. and its allies race

TSMC told the Commerce Department in a public letter that despite excitement about its plans and local, state and potentially federal subsidies, costs were higher than if a similar operation were built at home. Morris Chang, TSMC’s founder, said in November that the differential could be 50%. TSMC said it sent more than 600 American engineers to Taiwan for training.

Outside the U.S., Europe has its own plans to double its share of global production over about 10 years, while authorities in Taiwan, China and other Asian nations are pouring money into the sector. TSMC, in addition to its Arizona project, is building a chip plant in Japan and is looking at potential investments in Europe.

The high cost and scarcity of qualified labor in the U.S. have hampered previous efforts to restore electronics manufacturing. Mung Chiang, president of Purdue University in Indiana, said computer and engineering students are drawn to chip design or software, where American companies are leaders rather than manufacturing.

“Even if they say, ‘Yes, semiconductor manufacturing sounds really good, I want to do it,’ well, where can they learn the real, live experience?”

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In response, Purdue has created a dedicated semiconductor program it hopes will award more than 1,000 certificates and degrees annually by 2030 in person and online. In July, SkyWater Technology, a Bloomington, Minn.-based foundry, said it would build a $1.8 billion fab on Purdue’s campus, prospectively supported by Chips funding.

Developing a domestic supply of talent is only half the battle. The U.S. also depends on foreign countries for many key inputs to semiconductors.

The lasers that imprint tiny circuit blueprints on silicon wafers use purified neon gas, made from raw neon typically harvested from large air-separation units attached to steel plants. Those facilities produce neon when they separate oxygen from the air for use in steel furnaces.

Since the steel industry largely moved out of the U.S. over the past half-century, there is currently very little neon gas being produced domestically. Most has come from Ukraine, Russia and China, but Russia’s invasion of Ukraine has left China as the world’s main source.

“Is this a risk for the U.S.? Absolutely,” said Matthew Adams, an executive vice president at Electronic Fluorocarbons LLC, a Massachusetts-based company that imports, purifies, and sells neon and other gases. “A prolonged ban of neon exports from China to the U.S. would shut down a significant portion of semiconductor production after inventories are exhausted.”

A handful of other raw materials used in chip making, such as tungsten, which is transformed into tungsten hexafluoride and used to build parts of transistors on chips, are similarly sourced primarily from China. To untie the U.S. chip industry from China would entail undoing several decades of globalization, something industry leaders say isn’t practical.

Even if the U.S. fails to secure the entire semiconductor supply chain, it can reverse the recent historical pattern of losing leadership in one manufacturing sector after another, including passenger cars, railroad equipment, machine tools, consumer electronics, and solar panels.

“I don’t think we’ve ever done this before: Try in a conscious, targeted way to regain market share in an industry where we were once the leader, but then lost it,” said Rob Atkinson, president of the Information Technology and Innovation Foundation, which advocates government support of manufacturing.