What uses 1,500,000,000 kilowatt-hours of electricity per year?
We all depend on information and communication technology in our daily lives. That’s why electric utilities take all measures to ensure a reliable flow of electricity not only for our devices, but also for back-end services provided by such facilities as the Google Data Center in Caldwell County. [Photo: Google]
From the minute we wake up and unplug our mobile phones from their chargers, these little gadgets are our constant companions. We use them to talk, text and send e-mails. Snap photos, share them with friends on Facebook, listen to music, check the weather, get driving directions, watch videos, pay the bills — our clever little devices can do everything.
The way the words, pictures, sounds and data come and go seems like magic. They travel invisibly through the air until they reach my phone or when I send something to your phone. But as much as I use it, my new phone doesn't seem to need a lot of electricity.
What we don't see is the vast and unseen hard-wired system supporting my phone, your phone and millions of other devices. It's a system powered by a lot of electricity.
"Cloud computing" is really down-to-earth
It's not just our phones that give and take information — it's music players, tablets and laptops, GPS navigation systems, e-readers for books, and entertainment consoles like Playstation and Wii. Our lives are filled with electronic gadgets trading bits of data back and forth instantly, all day and all night.
In today's world, most of that information and entertainment comes and goes by way of "the cloud." That makes it sound like using digital technology is something light and airy. But the cloud doesn't really float up in the sky, so where exactly is it? And how does it work?
In the early days of technology, each piece of a computer network (a keyboard, a desktop monitor, a printer, a land-line phone and modem) had to be hard-wired and physically connected to the other pieces in order for them to work together. In today's high-tech world, using the cloud allows any device anywhere to work like it's connected to any other device — with or without wires in the middle.
The cloud is a three-way system. At the front end are our consumer gadgets such as phones, laptops and game consoles. At the back end are giant computers (called "servers") that hold the information and entertainment we want to use. One role for these servers is to act as an enormous storage system, a library of sorts. But instead of shelves of printed books or racks of CDs and DVDs, all the information is in digital format inside the computers.
The middle of this system is what's really different today. The commands traveling between the front and back ends are sent using the Internet. In the case of mobile phones and many other consumer devices, this is done using radio technology — and that's the wireless part of the cloud.
However, the back end of cloud computing is still very much a hard-wired world. In down-to-earth locations like Oregon, Okla., and Caldwell County, N.C., warehouse-size buildings contain masses of gigantic computers that use a lot of energy around the clock.
Moving data uses a lot of electricity
The amount of data shifting back and forth between our consumer devices and those hidden back-end servers has reached such a staggering volume analysts have invented a new number, the "zettabyte." That's 1,000 billion gigabytes — or to put it another way, the number 1 followed by 21 zeros. And each "byte" contains eight individual pieces of data.
It's no wonder that some people now describe this vast and complex digital world as an ecosystem. In the natural world, an ecosystem depends on energy from the sun to keep it going, to grow the plants that feed the animals and so on in a continuous cycle. In the human-made world of the information-communications-technology (ICT) ecosystem, the force that powers all the action is electricity.
A recent study by the Digital Power Group says that the global ICT ecosystem already uses almost 10 percent of the electricity generated worldwide (about 1,500 terrwatt-hours or 1.5 trillion kilowatt-hours). The report also says that while charging up your personal smart phone or a single tablet computer only uses a very tiny amount of electricity at the front end, what you do with your device after that has a profound effect on electricity consumption in the back-end portion of the cloud. The report says that if you watch one hour of video each week, in a year's time the amount of electricity used by the unseen servers will be more than what it takes to run two new refrigerators.
The challenge for electric utilities is to provide blink-free electricity around the clock to run those computer servers, plus the sophisticated HVAC systems that keep the air temperature and humidity exactly right for high-tech electronics.
But many of the companies that own and operate the computers we access through the cloud want more than just steady power–they want the best combination of reliable and low-cost electricity, and they want it generated in environmentally responsible, money-saving ways. Powering our high-tech world will be increasingly important for the future of electricity.