Lighting, heating, cooling, transportation - these are all power uses that have rough limits. That’s because the cloud uses energy differently than other sectors of the economy. The fact that a skyscraper with so many cutting-edge, energy-efficient features can still use so much energy because it needs to play a full-time role in the cloud underscores just how electricity-intensive the digital economy can be. It’s what’s being done inside the building, as those hardworking computers suck electricity 24 hours a day, seven days a week. There’s lots of silliness in the LEED ratings system - see this Treehugger post for evidence - but it’s not the Bank of America building itself that’s responsible for that massive carbon footprint. I think - and others agree - that the TNR article was unfair. These spaces take up nearly a third of the Bank of America Tower’s 2.2 million total square feet, yet the building’s developer and architect had no control over how much energy would be required to keep them operational. The servers supporting all those desks also require enormous energy, as do the systems that heat, cool and light the massive trading floors beyond normal business hours.
#How much battery life does data transfer use full
Why did an ultra-green tower need so much electricity? The major culprit was the building’s trading floors, full of fields of energy-thirsty workstations with five computers to a desk:Īssuming no one turns these computers off, in a year one of these desks uses roughly the energy it takes a 25-mile-per-gallon car engine to travel more than 4,500 miles. Author Sam Roudman argued that all the skyscraper’s environmentally friendly add-ons - the waterless urinals, the daylight dimming controls, the rainwater harvesting - were outweighed by the fact that the building used “more energy per square foot than any comparably sized office building in Manhattan,” consuming more than twice as much energy per square foot as the 80-year-old (though recently renovated) Empire State Building. Here’s an example: the New Republic recently ran a story arguing that the greenest building in New York City - the Bank of America Tower, which earned the Leadership in Energy and Environmental Design’s (LEED) highest Platinum rating - was actually one of the city’s biggest energy hogs. And that shift underscores how challenging it will be to reduce electricity use and carbon emissions even as we become more efficient. No wonder your smartphone’s battery juice constantly seems on the verge of running out.Īs our lives migrate to the digital cloud - and as more and more wireless devices of all sorts become part of our lives - the electrons will follow. We already use 50% more energy to move bytes than we do to move planes in global aviation. It’s the same amount of electricity that was used to light the entire planet in 1985. That’s about 10% of the world’s total electricity generation or roughly the combined power production of Germany and Japan. The global ICT system includes everything from smartphones to laptops to digital TVs to - especially - the vast and electron-thirsty computer-server farms that make up the backbone of what we call “the cloud.” In his report, Mills estimates that the ICT system now uses 1,500 terawatt-hours of power per year.
The iPhone is just one reason why the information-communications-technologies (ICT) ecosystem, otherwise known as the digital economy, demands such a large and growing amount of energy. (Hat tip to the Breakthrough Institute for noting the report first.) And the iPhone - even the latest iteration - doesn’t even keep your beer cold. The average iPhone, according to Mills’ calculations, uses about 361 kW-h a year once the wireless connections, data usage and battery charging are tallied up. As you can read in a post on a new report by Mark Mills - the CEO of the Digital Power Group, a tech- and investment-advisory firm - a medium-size refrigerator that qualifies for the Environmental Protection Agency’s Energy Star rating will use about 322 kW-h a year.
Follow uses more electricity: the iPhone in your pocket, or the refrigerator humming in your kitchen? Hard as it might be to believe, the answer is probably the iPhone.