Select your localized edition:

Close ×

More Ways to Connect

Discover one of our 28 local entrepreneurial communities »

Be the first to know as we launch in new countries and markets around the globe.

Interested in bringing MIT Technology Review to your local market?

MIT Technology ReviewMIT Technology Review - logo


Unsupported browser: Your browser does not meet modern web standards. See how it scores »

{ action.text }

The world of computing could change rapidly in coming years thanks to technology that replaces the metal wiring between components with faster, more efficient fiber-optic links.

“All communications over long distance are driven by lasers, but you’ve never had it inside devices,” says Mario Paniccia, director of Intel’s photonics lab in Santa Clara, CA. “Our new integrated optical link makes that possible.”

Paniccia’s team has perfected tiny silicon chips capable of encoding and decoding laser signals sent via fiber optics. Today, when data arrives at a computer via a fiber optic connection it has to be moved from a separate photonic device to an electronic circuit. This new system promises to speed things up because everything works in silicon.

Last week, Paniccia’s team demonstrated the first complete photonic communications system made from components fully integrated into silicon chips. Electronic data piped into one chip is converted into laser light that travels down an optical fiber and is transferred back into electrical signals a few fractions of a second later. The system can carry data at a rate of 50 gigabits per second, enough to transfer a full-length HD movie in less than a second.

The silicon photonic chips could replace the electronic connections between a computer’s key components, such as its processors and memory. Copper wiring used today can carry data signals at little more than 10 gigabits per second. That means critical components like the central processing unit and the memory in a server cannot be too far apart, which restricts how computers can be built.

The new Intel setup has four lasers built into its transmitter chip that shine data into a single optical fiber at slightly different wavelengths, or “colors.” Chips with even more lasers should make it possible to communicate at 1,000 gigabits per second.

“Having a chip the size of your fingernail that can deliver a terabit per second changes the way you can think about design,” says Paniccia. Such chips could make a big difference inside the sprawling data centers operated at great expense by Web giants like Google, Microsoft, and Facebook. “Data centers today are big piles of copper–that imposes the limits on how you arrange components inside a server,” Paniccia says.

“If I could just move the memory a foot away [from the processors], I could add a whole board of memory for a single CPU instead,” says Paniccia, whose team is experimenting with prototype servers to work out how to build them with photonics links inside.

Moving a server’s memory away from the CPUs would also make ventilating them easier. Since roughly half the cost of running a data center, used for everything from services like Facebook to banking records, comes from cooling, that could have a significant impact.

15 comments. Share your thoughts »

Credit: Intel

Tagged: Computing, Communications, Intel, communication, microchips, computer chips, optical circuit

Reprints and Permissions | Send feedback to the editor

From the Archives


Introducing MIT Technology Review Insider.

Already a Magazine subscriber?

You're automatically an Insider. It's easy to activate or upgrade your account.

Activate Your Account

Become an Insider

It's the new way to subscribe. Get even more of the tech news, research, and discoveries you crave.

Sign Up

Learn More

Find out why MIT Technology Review Insider is for you and explore your options.

Show Me