Created as part of President Obama’s National Network for Manufacturing Innovation (NNMI), the IP-IMI was launched this week in Rochester, NY by US Vice President Biden as the sixth of nine new manufacturing institutes designed to bring industry together with academia and government to advance the state-of-the-art in the design, manufacture, testing, assembly, and packaging of photonic integrated circuits and establish US Leadership in Integrated Photonics.
“IQE is proud to have been named as one of 55 key industrial partners in this important project led by SUNY to accelerate photonic capabilities and manufacturing in the U.S,” says IQE CEO Dr Drew Nelson, “the importance of the rapidly growing photonics technology industry cannot be overestimated and is already having a major impact in areas such as communications, energy efficiency, healthcare and safety and security systems. Inclusion as a key partner in this new US Manufacturing Institute is testament to IQE’s reputation as a global world leader in compound semiconductor materials, a key enabling technology (KET) for photonics.”
The consortium comprises 55 leading industrial partners, including Intel, IBM, Infinera, HP, Honeywell, Rockwell, Seagate and TI along with numerous other leading edge companies, universities and laboratories, and is led by the Research Foundation of the State University of New York (SUNY). IQE’s role in the consortium is to provide advanced epitaxy services to the Institute partners.
The IP-IMI has been awarded federal funding of $110 million by the Department of Defense, which is expected to yield total public-private investment of more than $610 million which will enable the institute to focus on developing an end-to-end integrated photonics ecosystem in the U.S., including domestic foundry access, integrated design tools, automated packaging, assembly and test, and workforce development. The Institute will develop and demonstrate innovative manufacturing technologies for:
- Ultra-high-speed transmission of signals for the internet and telecommunications
- New high-performance information-processing systems and computing
- Compact sensor applications enabling dramatic medical advances in diagnostics and treatment
- Multi-sensor applications including urban navigation, free space optical communications and quantum information sciences
- Other diverse military applications including electronic warfare, analog RF sensing, communications, and chemical/biological detection
- All of these developments will require cross-cutting disciplines of design, manufacturing, packaging, reliability and testing.
- Photonics is widely recognised globally as a key enabling technology that has significant potential to revolutionize a wide range of commercial, industrial and defense applications, including:
- Revolutionizing communications
- Creating dramatic energy savings at high-performing data centres
- Dramatically improving medical technologies
- Improving safety and security operations
The institute will provide central facilities through which academia, SMEs and large corporations can access latest technology for design and manufacture of photonics devices providing a route to commercialisation through high-value, high-volume manufacturing.