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SparkBUTTERFLY EFFECT

Forget oil: Microchips are today's most valuable resource, says author

Nearly every powered device we use these days depends on microchips, from cars to electric guitars. A look at the origin of the integrated circuit, its rapid development, and the way this technology has changed the world's geopolitical and economic landscape.

Supply disruptions over past two years highlight the need for semiconductor technology

A small black square on a glass pedestal
Samsung Electronics' microchips are displayed at its shop in Seoul, South Korea, on Jan. 31, 2018. Microchips, or integrated circuits, have become most closely associated with computers. In fact, most modern consumer goods run on this technology. (Ahn Young-joon/The Associated Press)

This story is part of The Butterfly Effect, a special Spark series about technological advancements that had a much larger impact than most people anticipated.

Whatever device you're using to read this article, it requires microchip technology to function.

Microchips, or integrated circuits, are closely associated with computers. But in fact, most modern consumer goods from toasters and microwaves to cars and electric guitars run on this technology.

"Almost everything we touch with an on/off switch has a semiconductor inside," Chris Miller told Spark host Nora Young. "As more devices today use computing power, the need for semiconductors grows."

This need is highlighted by the ongoing semiconductor supply chain disruption, which caused shortages and delayed production on everything from gaming consolesto iPhonesover the past two years.

The shortage alsohad a particularly drastic impact on the automotive industry. Canadian car manufacturers faced delays on microchip deliveriesforup to 22 weeksin fall of 2021.Those delays resultedin worker layoffs at automotive assembly plants that continue into this year.

Miller,an associate professor of international history at the Fletcher School of Law and Diplomacy at Tufts Universityin Medford, Mass., sayssemiconductorsplaya pivotal role beyond consumer goods.

"A lot of the key trends that shaped international politics over the past several decades, and also shaped international economics and the formation of global trade and national supply chains, ultimately is really a question of semiconductors," he said.

Miller discusses the geopolitical and economic impacts of the microchipin his new book, Chip War: The Fight for the World's Most Critical Technology.

Rapid development

Today, microchips are ubiquitous, but as recently as the 1970s, almost nothing in the home contained an integrated circuit.

"It's inconceivable to have a life without them, really, at this point," historian Paul Ceruzzi said.

As acurator emeritus of the Smithsonian National Air and Space Museum, Ceruzzi can trace the history of the microchip back to the days of warehouse-sized computers.

The reason these early machinestook up so much space is that theyran on vacuum tubes, which are "a kind of extension of a familiar Edison bulb," Ceruzzi explained. But the vacuum tubes were bulky, consumed a lot of power, and, just like lightbulbs, occasionally burnt out. The solution came in the late 1940s in the form of transistors, which can better control the flow of electricity.

Transistors placed together on a tiny piece of semiconductor material, like silicon, make up an integrated circuit. The closer these transistors are to one another, the faster a signal travels. And a modern-day microchip houses billions of transistors, despite its nanoscale size.

"Now, your handheld phone has more power than the biggest computers of 50 years ago or even 20 years ago," Ceruzzi said.

The technique was perfectedin the early 1960sin what is now known as Silicon Valley.

U.S. President Joe Biden holds a semiconductor chip as he speaks prior to signing an executive order aimed at addressing a global semiconductor chip shortage, on Feb. 24, 2021. (Jonathan Ernst/Reuters)

While silicon has become synonymous with the integrated circuit, there is work underway to find alternatives for example, in the field of photonics, which studies the applicationof light waves. John Dallesasse and his team are studying ways to improve the light-emitting properties of the chip.

"We're looking at ways of making those devices better: How can you make them work faster for our communications systems, and how can you integrate those with with silicon,"said Dallesasse, a professor of electrical and computer engineering at the University of Illinois.

He explained that compound semiconductors emit more light than silicon, which could make them more effective in optical communication and sensor systems, such as facial recognition and LiDAR.

Multinational manufacturing process

While most chips are still designed in the U.S., the production has shifted to East Asia.Taiwan produces most of the world'sprocessor chips, whichare responsible for computations and process data,whileSouth Korea makesmost of the world's memory chips used for data storage.

"To actually make a chip, you need to use designs, ultra-specialized chemicals and some very complicated machine tools that are made in the U.S., in Japan and the Netherlands and in other countries," Miller explained. "You can't actually make an advanced chip using only facilities or tools or software from one country."

Chris Miller's new book, Chip War: The Fight for the World's Most Critical Technology, places the microchip at the source of military, economic, and geopolitical power on the international stage. (George Marshall/Scribner)

Miller warns of more risks to the supply chain in the future due to key manufacturers being located in geopolitical hotspots.

"Saudi Arabia produces, depending on the year, a 10th or so of global oil production. Well, Taiwan produces a third of computing power every year. So even in simple quantitative terms, Taiwan is a lot more important to the global economy than Saudi Arabia is," he said. Tensions between China and Taiwan have been escalating this year, as China has increased the number of military exercises in the Taiwan Strait.

And as the global need for computing power continues to grow, the design and manufacture of microchips will only become more important to the geopolitical landscape, Miller said.

"No other part of the economy has that type of exponential growth built into it. And that's why control over this extraordinary asset, the ability to produce exponential increases in computing power has been so important."


Written by Olsy Sorokina. Interviews with Paul Ceruzziand John Dallesasse produced by Adam Killick.

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