Facebook’s Libra will need less power

Facebook’s new cryptocurrency, Libra, is expected to have a smaller environmental footprint compared to some of its blockchain brethren, including bitcoin, according to experts. Its energy demands are projected to be more like those of existing data centers — which, while still demanding, aren’t quite as energy-hungry as bitcoins.
The currency hasn’t launched yet, so it is hard to know how those claims will stack up against reality. But its design, more centralized than most cryptocurrencies, means that Libra will likely draw less energy. Unlike its more decentralized peers, only a few trusted members of the Libra Association, the centralized hub for the currency, can create Libra.
“This is an order of magnitude more efficient than bitcoin will ever be,” says Ulrich Gallersdörfer, a researcher at Technical University of Munich focused on blockchain research. Gallersdörfer was the co-author on a recent paper in Joule finding that bitcoin operations emit more climate-warming gas than the country of Jordan.
Bitcoin mining operations need huge amounts of computing power to snag a single coin, and to stay in the running, they all need to be running a set of complicated problems all at once. That uses a huge amount of energy every year.
By contrast, Libra is designed so that an algorithm issues units of the cryptocurrency in proportion to the size of a company’s initial deposit into the system. That’s still a lot to keep track of, but it’s nowhere near as complicated as a mining operation. Instead, it’s more like… normal data centers. Now, data centers draw power, too. In fact, data centers accounted for 2 percent of the total US energy usage in 2014, a 2016 study published by the DOE found. And they’re also responsible for about as many carbon dioxide emissions as the airline industry. But despite those drawbacks, these specially designed warehouses of servers are the rocks on which tech giants like Facebook continue to build and expand their digital empire.
One way to meet the challenge in a water-scarce world is to reuse water as often as possible, says Emilio Tenuta, vice president of sustainability at Ecolab. But water can’t be reused forever in cooling systems. As it gets heated and moves through the pipes, salts and other contaminants — think of scale from hard water forming in a bathroom — can build up in the machinery, making it less efficient. But by constantly monitoring and treating the water as it goes through a system, companies like Ecolab hope they can recirculate water through cooling systems as often as possible, reducing the amount of water used in data centers overall.
Making existing centers more efficient is great, but products on the scale of Libra could mean new data centers — and where they are matters. Companies could save themselves (and the world) a lot of environmental angst by simply looking for better locations to put data centers in the first place, Katrina Kelly-Pitou says.
Kelly-Pitou, an urban systems strategist with architecture and engineering firm SmithGroup, says that companies should look for places with trained software engineers — to keep the servers running smoothly — and abundant, low-carbon power sources. By relying on a nearby hydroelectric dam, wind farm, or nuclear plant instead of coal or natural gas, data centers could dramatically cut their carbon footprint. That’s because ultimately, every data center relies on the energy grid. And that’s where many current data centers are falling short. — Internet

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