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We're still waiting for atomic computing - computing technology in which devices are made up of just a few molecules - to enter the realm of possibility. But that's likely a decade or more off.
In the meantime, 3D computing is the breakthrough that will dominate the next decade, taking computing to a level almost unimaginable.
Now, you may already know that America's high-tech economy depends on devices - called microprocessors - that are about the size and shape of postage stamps. Ever since their invention, these chips have fueled huge growth in computing as electronics have gotten ever smaller.
Let me explain the importance of small scale.
It's thanks to the steadily shrinking size of these chips that your smart phone today packs more punch than the huge computers NASA had when it put Neil Armstrong on the moon. If they hadn't gotten smaller, cell phones would still be the size of bricks with battery such as dell RN873 battery , dell XR693 battery , dell 0XR693 battery , dell 312-0625 battery , Dell Latitude X200 battery , Dell 8U443 battery , Dell Latitude X200 battery , Dell 312-0058 battery , Dell CG036 battery , Dell CG039 battery . And you could forget about having wireless Internet, built-in video cameras, or music players in your phone.
As it turns out, there's a principle that explains - or really predicts - this continued exponential growth in semiconductor speed and power.
It's called Moore's Law. A Silicon Valley legend, Gordon Moore predicted that processing power would double roughly every two years.
That doubling has come as engineers kept finding new ways to put more transistors on a single chip. Transistors are the tiny gizmos that move and store data. Today, semiconductors now boast more than one billion transistors - ones so small you can't see them without a microscope.
And therein lies the problem. Chip makers are simply running out of real estate.
Right now the physical limit of integrated circuits stems from their basic design. Since they're flat, they only work in two dimensions. And that's been standing in the way of Moore's prediction.
But what if you could stack transistors on top of each other? You would greatly increase computing capacity. Think of it this way. A file cabinet holds a lot more information than a single sheet of paper.
As basic as that sounds, engineers have only just now figured out to go 3D and add "drawers" filled with transistors.
And one company is debuting its new chips this summer.