The Business Times

Big Tech’s great AI power grab

Alphabet, Amazon and Microsoft are on the hunt for new energy sources

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BIG Tech wants more computing power. A lot more.

According to their latest quarterly reports, Alphabet (Google’s corporate parent), Amazon and Microsoft – the world’s cloud computing giants – collective­ly invested US$40 billion between January and March, most of it in data centres equipped to deal with growing artificial intelligen­ce (AI) workloads.

Last month, Meta, which does not have a cloud business but does run a data-hungry social media empire, said its capital expenditur­e could reach US$40 billion this year as a result of Ai-related projects. That is not far off the US$50 billion that Saudi Aramco, an oil colossus, is planning to splurge. Microsoft is likely to spend more.

The comparison with the famously capex-happy energy industry is apt, not just because of the sums involved. AI needs vast amounts of processing power. And that processing power needs vast amounts of electricit­y.

On May 2, Bob Blue, chief executive of Dominion Energy, one of America’s biggest utilities, said that data centre developers now regularly ask him for “several gigawatts (GW)“. Dominion’s total installed capacity is 34 GW.

Jpmorgan Chase, a bank, calculated that Microsoft, Amazon’s cloud arm (AWS), Alphabet, Meta and Microsoft consumed 90 terawatt hours (TWH) of electricit­y in 2022, as much as Colombia. And that was mostly before CHATGPT set off the AI revolution in November that year.

Deep pockets

The ensuing hoopla led the Internatio­nal Energy Agency (IEA), an official forecaster, to predict that data centres (including those dedicated to AI and equally energy-hungry cryptocurr­encies) will gobble up more than 800 TWH globally in 2026, more than double the amount in 2022. BCG, a consultanc­y, reckons that data processing could triple its share of American power consumptio­n by 2030, to 7.5 per cent.

And not just any power will do. The technology titans want theirs to be clean. In April, their industry associatio­n warned Georgia Power, which had managed to fasttrack the approval of 1.4 GW of new fossilfuel­led generation by pointing to rising demand from data centres, that its members would build fewer of these in the southern American state if the utility spewed extra carbon.

Combined with rising demand from increasing­ly electrifie­d transport, heating and parts of heavy industry, digital technology’s power needs are putting enormous strain on the businesses that generate and distribute electricit­y.

Bloombergn­ef, an informatio­n firm, reckons that annual grid investment needed to fully decarbonis­e global electricit­y by 2050 will need to rise from about US$300 billion in 2022 to US$600 billion in 2030, and well over US$800 billion in 2050. Riskaverse utilities, which would normally undertake grid-expansion projects under the watchful eye of cost-minded regulators, have neither the money nor the appetite to do so.

Enter Big Tech itself. The deep-pocketed giants have already been the biggest force behind green “power-purchase agreements”, which helped kick-start America’s renewables boom by persuading utilities and other investors to build wind and solar farms. They are now getting in on the greenenerg­y action more directly.

On May 1, Microsoft and Brookfield, one of the world’s biggest infrastruc­ture investors, announced a deal to build 10.5 GW of renewables capacity in America and Europe by 2030. The arrangemen­t is meant to enable the software giant to meet its pledge to have 100 per cent of its electricit­y use, 100 per cent of the time, come from zero-carbon sources by 2030. Microsoft and Brookfield have not revealed the price tag, but adding a gigawatt of wind or solar capacity can cost about US$1 billion.

One problem is that data centres tend to consume power at a steady rate, including when the sun is not shining nor the wind blowing. So, technology firms are also thinking of ways to make data processing more flexible.

In March, Sidewalk Infrastruc­ture Partners, an infrastruc­ture-technology company co-created by Alphabet, presented a detailed plan for how this could be achieved. It involves a combinatio­n of microgrids (which can run independen­tly but also exchange energy with others nearby), batteries and advanced software in order to enable shifting less time-sensitive tasks, such as training AI models, to periods of fallow demand.

Jonathan Winer, one of Sidewalk’s founders, expects such data centres to pop up first in energy-constraine­d places like Arizona, California and Massachuse­tts.

Renewables are not the only area of Big Tech’s power interest. In March, AWS paid US$650 million for a 960-megawatt (MW) data centre in Pennsylvan­ia powered by a nuclear reactor located next door. Microsoft has struck a deal with Constellat­ion Energy, America’s biggest nuclear operator, for supply of nuclear power for its data centre in Virginia, as a backstop when wind and solar are unavailabl­e. Both firms have also been looking at “small modular reactors”, a promising though unproven nuclear technology.

Exotic power plays

Google, meanwhile, is dabbling in geothermal energy. The search giant has signed the first-ever corporate deal to develop “enhanced” geothermal power with Fervo, a startup that has raised US$430 million in venture capital. Inspired by the shale industry, the hot-rocks hotshot has developed horizontal wells, monitored using fibre-optic cables. Its site in Nevada produces round-the-clock, carbon-free power for the local grid – which Google then acquires.

Tim Latimer, Fervo’s boss, said that every drilling rig his firm operates can add 100 MW of power. The firm is developing a 400 MW commercial plant in Utah that will start feeding the grid in 2026. The Department of Energy reckons that innovation­s like Fervo’s could expand geothermal output in America by around 20 times, to more than 90 GW, by 2050.

Google and Microsoft have also teamed up with Nucor, a giant American operator of steel mini-mills, which consume lots of electricit­y. In March, the trio announced that they would aggregate demand and jointly offer contracts to clean-energy projects, both early-stage commercial ones and entirely novel “first-of-a-kind” ventures. The idea is to guarantee custom for developers of promising technologi­es like long-duration energy storage, clean hydrogen, next-generation geothermal and nuclear energy.

The AI industry’s most exotic power plays come courtesy of Sam Altman, the techno-optimistic boss of Openai, maker of CHATGPT and Microsoft’s main model-making partner. In a quest to power the AI revolution, he has invested in , a nuclear-fusion startup, and Exowatt, a startup developing solar modules that can act as both electricit­y generators and thermal-storage batteries.

Altman is now looking to raise US$500 million for Oklo, which is working on nuclear micro-reactors that run on spent fuel from larger ones and that could power individual factories, corporate campuses and, of course, AI server farms. These wagers may seem fanciful. Then again, 18 months ago, so did the idea that an AI could write essays or paint like a human.

 ?? PHOTO: AFP ?? Combined with rising demand from increasing­ly electrifie­d transport, heating and parts of heavy industry, digital technology’s power needs are putting enormous strain on the businesses that generate and distribute electricit­y.
PHOTO: AFP Combined with rising demand from increasing­ly electrifie­d transport, heating and parts of heavy industry, digital technology’s power needs are putting enormous strain on the businesses that generate and distribute electricit­y.

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