Fujitsu Develops Optical Switch That Cuts Power Consumption by Half


Kawasaki, Nov 10, 2010 - Fujitsu Laboratories Limited today announced that it has been able to halve the power consumption of an optical waveguide switch based on silicon photonics* through the world's first use of fine-patterned silicon germanium (SiGe) for this application, rather than conventional silicon (Si). This achievement will allow for high-speed optical switches capable of operating across a wide range of wavelengths, while featuring the world's lowest power requirements. In accordance with the constant rise of data volume being transmitted over networks, likewise, the power consumption of networking equipment shows a continuous growth trend, leading to concerns for a potentially serious energy problem in the future. Fujitsu's newly-developed technology will help contain power consumption while supporting large-volume network traffic, thus enabling high-end services linking multiple cloud networks and ultra-high-definition videoconferencing, among other applications.

Details of this technology will be presented at the 23rd Annual Meeting of the IEEE Photonics Society (PHO 2010), being held from November 7-11 in Denver, Colorado, U.S.

Parts of this research were undertaken as part of the work of the Vertically Integrated Center for Technologies of Optical Routing toward Ideal Energy Savings (VICTORIES) project, as part of the program The Formation of Innovation Center for Fusion of Advanced Technologies, sponsored by the Special Coordination Funds for Promoting Science and Technology, of Japan's Ministry of Education, Culture, Sports, Science and Technology (MEXT).

With the spread of data-intensive network services, such as cloud computing and ultra-high-definition video distribution, the volume of data being transmitted over networks looks set to rise continuously. Accordingly, the amount of electricity consumed by networking equipment in the year 2025 is predicted to be 13 times the 2006 figure if no energy-saving measures are taken (source: Japan Ministry of Economy, Trade and Industry's "Green IT Initiative" report, December 2007), leading to concern for a potentially serious energy problem.

Conventionally, switching between optical network paths requires that signals be converted from light to electricity and back again to light in order to be processed - these conversions are problematic because of the considerable power they require. An optical switch that processes optical signals as they are - without the need for conversion to electricity - would greatly reduce its power requirements. This issue has spurred ongoing research and development efforts for next-generation networks.

What Is an Optical Waveguide Switch Employing Silicon Photonics?

An optical switch is a device that can connect the paths of optical signals, and switch between them. A waveguide optical switch is a design that arrays multiple optical switching elements in series, between an optical-signal input point and output point. By combining the operations of each optical switching element, a desired optical signal path can be created.

An optical waveguide switch employing silicon photonics uses well-established silicon fabrication technology, which allows for inexpensive mass production. Furthermore, optical switch devices based on nanometer-scale waveguides and control electronic circuits can be lined up in large numbers on the same substrate, large-scale optical switches can be fabricated compactly, measuring a mere few centimeters squared.

Technological Challenges

Large-scale optical-waveguide switches operate multiple optical switching elements simultaneously. The heat that this generates can degrade device performance, which necessitates the lowest possible power consumption for each optical switching element.

With optical switching elements, the application of an electrical current to the refractive-index modulator causes electrons to accumulate in fine waveguides, which modulates the refractive index and switches the output port (Figure 3). With conventional optical switching elements made using fine-patterned Si, the electron-accumulation efficiency in fine Si waveguides is low, necessitating more current to achieve sufficient electron-accumulation, thereby increasing power consumption.

Newly-Developed Technology

Fujitsu has developed the world's first optical switching element that uses fine-patterned SiGe in the refractive-index modulator (Figure 4). Forming fine-patterned SiGe, which has a narrower band-gap than Si, on top of Si allows for more efficient electron accumulation, and therefore less power is required for switching.

Prototype optical switch devices developed by Fujitsu operated on 1.5 mW of power, approximately half the power required for conventional fine-patterned Si optical switching elements. This represents the lowest power requirement in the world for an optical switching element capable of high-speed operation across a wide range of wavelengths.

Results

Fujitsu's newly-developed low-power technologies for optical switch devices represent a significant step forward toward next-generation networking and pave the way for new services, such as high-speed services linking multiple cloud networks and ultra-high-definition videoconferencing.

Future Developments

Fujitsu will proceed with development of large-scale integration technology and integration technology for control electronic circuits, for the realization of large-scale optical switches to enable next-generation networks.

* Silicon photonics :An ultra-minute optical circuit technology that takes advantage of the strong difference in refractive indices between silicon semiconductors - the foundation of electronic circuits - and glass (the refractive index of silicon is more than double that of glass), and which allows for ultra-miniaturization of optical switches and other optically active devices. Silicon photonics also enables silicon optical circuits and silicon electronic circuits to be integrated onto the same substrate.

About Fujitsu

Fujitsu is a leading provider of ICT-based business solutions for the global marketplace. With approximately 170,000 employees supporting customers in 70 countries, Fujitsu combines a worldwide corps of systems and services experts with highly reliable computing and communications products and advanced microelectronics to deliver added value to customers. Headquartered in Tokyo, Fujitsu Limited (TSE:6702) reported consolidated revenues of 4.6 trillion yen (US$50 billion) for the fiscal year ended March 31, 2010. For more information, please see: www.fujitsu.com.

About Fujitsu Laboratories Ltd.

Founded in 1968 as a wholly owned subsidiary of Fujitsu Limited, Fujitsu Laboratories Limited is one of the premier research centers in the world. With a global network of laboratories in Japan, China, the United States and Europe, the organization conducts a wide range of basic and applied research in the areas of Multimedia, Personal Systems, Networks, Peripherals, Advanced Materials and Electronic Devices. For more information, please see http://jp.fujitsu.com/labs/en/

Contact:

Fujitsu Laboratories:

http://jp.fujitsu.com/group/labs/en/

Technical Contact

Device Innovation Lab.

Platform Technologies Lab.

Fujitsu Laboratories Limited

Tel: +81(46)250-8249

Inquiries: si-photonics@ml.labs.fujitsu.com

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