A*STAR IME joins forces with University of Washington
The collaboration aims to accelerate the development of silicon photonics.
A*STAR Institute of Microelectronics (IME) and the University of Washington announce that they will join forces to provide shared Silicon Photonics processes as part of the Optoelectronics Systems Integration in Silicon programme (OpSIS). This will help the research and development (R&D) community significantly reduce the fabrication cost of silicon photonics integrated circuits.
Hosted in University of Washington’s Institute for Photonic Integration, OpSIS is a new foundry service to facilitate R&D in Silicon Photonics technology. Under this partnership, IME will provide its in-house silicon photonics platform technology together with its fabrication and integration expertise in multi-GHz photonic devices. Such devices include integrated optical modulators and photo-detectors, edge-couplers, waveguides, array waveguide gratings (AWG), bends, couplers, ring resonators, splitters, multi-mode-interferometer (MMI), add/drop filters, crossing, and rotators. In return, the OPSIS team at University of Washington will contribute to IME’s extensive silicon photonics device library, a series of very high-bandwidth devices, including photo detectors and modulators at speeds in excess of 20 GHz.
The silicon photonics integrated circuits to be created under this programme will be immediately available to the photonic research community worldwide, and in the process, facilitate technological advancements and proliferate creative ideas for the development of the next generation devices. As the platform will be offered through multi-project wafer (MPW) runs, which allow users from multiple projects to share the costs of a single fabrication run, research costs are lowered significantly for individual projects, according to an A*STAR report.
“As silicon photonics goes beyond R&D to become mainstream technology, IME is excited and well positioned to enable the photonics research community to take this technology to the next level to fulfill its vast potential in every area requiring high speed interconnects,” notes Prof. Dim-Lee Kwong, the Executive Director of IME.
“We would like the photonics industry, 10 years from now, to function in a way that's very similar to the electronics industry today. OPSIS' shuttle runs will aid that development by reducing research and development costs by more than 100 times for an individual research team taking part,” says UW’s Michael Hochberg, director of the Institute for Photonic Integration and assistant professor of electrical engineering at the UW.