Intel prepares to use lasers, light to shuffle data between computers

Intel is readying silicon photonics for use at the motherboard level

By , IDG News Service |  Hardware

Intel is taking the first steps to implement thin fiber optics that will use lasers and light as a faster way to move data inside computers, replacing the older and slower electrical wiring technology found in most computers today.

Intel's silicon photonics technology will be implemented at the motherboard and rack levels and use light to move data between storage, networking and computing resources. Light is considered a much faster vehicle to move data than copper cables.

The silicon photonics technology will be part of a new generation of servers that will need faster networking, storage and processing subsystems, said Justin Rattner, Intel's chief technology officer, during a keynote at the Open Compute Summit in Santa Clara, California, on Wednesday.

At the conference, Intel and server maker Quanta Computer are showing a prototype server rack architecture that is capable of moving data using optical modules. The server uses an Intel silicon switch and supports the chip maker's Xeon and Atom server chips.

The new rack architecture with silicon photonics is a result of more than a decade of research in Intel's laboratories, Rattner said. He said silicon photonics could enable communication at speeds of 100G bps (bits per second), and transfer data at high speeds while using lesser power compared to copper cables. The technology could also consolidate power supplies and fans in a data center, reducing component costs.

Intel's research revolved around the production of devices needed to implement silicon photonics at the rack level, including modulators and detectors. The company is now producing silicon photonics modules that can transfer data at 100G bps, and is offering it to a few clients for testing.

Silicon photonics could potentially redefine server designs, Rattner said. With the high-speed bandwidth, processing and storage units could be decoupled from servers and stored in separate boxes. Once the infrastructure with silicon photonics is in place, server designs could change even more, Rattner said.

Intel is working with Facebook to define new server technologies that will lead to the decoupling of computing, networking and storage resources. The high-bandwidth connection offered by silicon photonics will be key in bringing the rack technologies to reality, and the processor, switch and other modules need to work together on power management, protocol support, load balancing and handshakes to make high-speed data transfers possible.

Critical to this step is "the introduction of silicon photonics in not just the inter-rack fabric, but also the intra-rack fabric," Rattner said.

Join us:
Facebook

Twitter

Pinterest

Tumblr

LinkedIn

Google+

Answers - Powered by ITworld

ITworld Answers helps you solve problems and share expertise. Ask a question or take a crack at answering the new questions below.

Join us:
Facebook

Twitter

Pinterest

Tumblr

LinkedIn

Google+

Ask a Question