Intel Corporation has announced an advance in the quest to use light beams to replace the use of electrons to carry data in and around computers. The company has developed a research prototype representing the world’s first silicon-based optical data connection with integrated lasers.
The link can move data over longer distances and many times faster than today’s copper technology; up to 50 gigabits of data per second.
The company explains computer components are connected to each other using copper cables or traces on circuit boards. Due to the signal degradation that comes with using metals such as copper to transmit data, these cables have a limited maximum length. This limits the design of computers, forcing processors, memory and other components to be placed just inches from each other.
Today’s research achievement is another step toward replacing these connections with extremely thin and light optical fibers that can transfer much more data over far longer distances, changing the way computers of the future are designed and altering the way the datacentre of tomorrow is architected.
Silicon photonics will have applications across the computing industry. For example, at these data rates one could imagine a wall-sized 3D display for home entertainment and videoconferencing with a resolution so high that the actors or family members appear to be in the room with you.
Intel sees tomorrow’s datacentre or supercomputer with components spread throughout a building or even an entire campus, communicating with each other at high speed, as opposed to being confined by heavy copper cables with limited capacity and reach.
This will allow datacentre users, such as a search engine company, cloud computing provider or financial datacentre, to increase performance, capabilities and save significant costs in space and energy, or help scientists build more powerful supercomputers to solve the world’s biggest problems.
Justin Rattner, Intel chief technology officer and director of Intel Labs, demonstrated the Silicon Photonics Link at the Integrated Photonics Research conference in Monterey, California. The 50Gbps link is akin to a “concept vehicle” that allows Intel researchers to test new ideas and continue the company’s quest to develop technologies that transmit data over optical fibres, using light beams from low cost and easy to make silicon, instead of costly and hard to make devices using exotic materials like gallium arsenide. While telecommunications and other applications already use lasers to transmit information, current technologies are too expensive and bulky to be used for PC applications.
“This achievement of the world’s first 50Gbps silicon photonics link with integrated hybrid silicon lasers marks a significant achievement in our long term vision of ‘siliconising’ photonics and bringing high bandwidth, low cost optical communications in and around future PCs, servers and consumer devices,” Rattner said.
This research is separate from Intel’s Light Peak technology, though both are components of Intel’s overall I/O strategy. Light Peak is an effort to bring a multi-protocol 10Gbps optical connection to Intel client platforms for nearer-term applications. Silicon Photonics research aims to use silicon integration to bring dramatic cost reductions, reach tera-scale data rates and bring optical communications to an even broader set of high-volume applications. Today’s achievement brings Intel a significant step closer to that goal.