Ericsson-backed research project breaks new ground in silicon photonic integration
- New silicon photonics chip increases bandwidth, reduces cost and enables optical routing in the cloud and 5G era
- First chip now in testing & characterization phase
- IRIS project co-funded by European Commission
The Ericsson-led IRIS project has produced a silicon photonics switch designed for housing thousands of optical circuits on a single chip.
The first chip is now in the test and characterization phase, and if successful the outcome will be major breakthrough for the industry, paving the way for a new generation of optical systems integrated in a single device.
Silicon photonics uses silicon as a miniaturized optical medium for transmitting and switching data at very high speeds, which reduces power consumption and footprint and increases capacity, which combined will lead to lower operational costs.
Co-funded by the European Commission as a Specific Target Research Project (STREP) under the Seventh Framework Programme for research and development (FP7), the IRIS project aims to create a high-capacity and reconfigurable WDM photonic switch using silicon photonics to monolithically integrate circuits in a single chip.
Such a chip will enable network operators to enhance the network performance, increasing node capacity as required by future 5G networks and Cloud. This can be achieved by high-scale integration of features, such as high-speed transmission, switching, and interconnectivity in the same chip.
The award winning Ericsson Hyperscale Datacenter System 8000 is an example where silicon photonics technology is being implemented already. With its optical interconnect, it brings major benefits to datacenter operators in terms of total cost of ownership.
Peter Christy, Research Director at 451 Research says; "Optical interconnection will play a critical role in data center evolution. Silicon photonics improves the cost and power efficiency very significantly. The Ericsson cloud initiative and HDS 8000 are early movers in the commercial exploitation of silicon photonics in the datacenter, and systems like this clearly demonstrate the technology's potential."
Researchers from Ericsson in Pisa have generated and filed all the relevant patent proposals.
The project consortium is led by Ericsson (Italy) and includes ST Microelectronics (Italy), CEA-LETI (France), CNIT (Italy), University of Trento (Italy), Universitat Politecnica de Valencia (Spain), Technische Universitat Wien (Austria) and Electronics and Telecommunications Research Institute (Republic of Korea).
For more information about the project, visit www.ict-iris.eu.
NOTES TO EDITORS
Download high-resolution photos and broadcast-quality video at www.ericsson.com/press
Ericsson is a world-leading provider of communications technology and services. We are enabling the Networked Society with efficient real-time solutions that allow us all to study, work and live our lives more freely, in sustainable societies around the world.
Our offering comprises services, software and infrastructure within Information and Communications Technology for telecom operators and other industries. Today 40 percent of the world's mobile traffic goes through Ericsson networks and we support customers' networks servicing more than 2.5 billion subscriptions.
We are more than 110,000 people working with customers in more than 180 countries. Founded in 1876, Ericsson is headquartered in Stockholm, Sweden. In 2013 the company's net sales were SEK 227.4 billion (USD 34.9 billion). Ericsson is listed on NASDAQ OMX, Stockholm and NASDAQ, New York stock exchanges.
www.ericsson.com
www.ericsson.com/news
www.twitter.com/ericssonpress
www.facebook.com/ericsson
www.youtube.com/ericsson
FOR FURTHER INFORMATION, PLEASE CONTACT
Ericsson Corporate Communications
Phone: +46 10 719 69 92
E-mail: media.relations@ericsson.com
Ericsson Investor Relations
Phone: +46 10 719 00 00
E-mail: investor.relations@ericsson.com