HELIOS Program Develops Complete Supply Chain for Integrating Photonics with CMOS Circuit via IC Fabrication Processes
GRENOBLE, France – May 14, 2013 – CEA-Leti said today that Europe is strongly positioned to design and manufacture volume silicon photonics devices because of the success of the recently completed HELIOS program. The €8.5 million European Commission project developed a complete design and fabrication supply chain for integrating a photonic layer with a CMOS circuit, using microelectronics fabrication processes.
HELIOS, which was coordinated by Leti, also demonstrated a complete design flow, integrating both silicon photonics device design and electronic/photonic system design in an EDA-compatible framework (see www.helios-project.eu)
“It is strategically important for Europe to maintain photonic chip-design and chip-integrating functions to compete with other countries and to encourage innovation by European microelectronics companies,” said Leti CEO Laurent Malier. “HELIOS’s success in creating the essential building blocks for integrating photonics with CMOS circuits and making the process available to a variety of users underscores the key role that broad European technological cooperation plays in a very competitive global business environment.”
Thomas Skordas, head of the EC’s photonics unit, said HELIOS has shown the large potential silicon photonics has in many different applications, such as data communications.
“The technology roadmap of silicon photonics becomes clearer now. Europe will have to move fast to become competitive in this new field,” Skordas said. “Strategies for the industrialisation of silicon photonics are currently being discussed in the context of Horizon 2020, the EU's new framework program for research and innovation for 2014-2020."
Silicon photonics is seen as key to developing optical telecommunications or for optical interconnects in microelectronic circuits, because of the cost advantages of integrating photonic and electronic functions on the same chip. CMOS photonics may lead to low-cost solutions for a range of applications such as optical communications, optical interconnections between semiconductor chips and circuit boards, optical signal processing, optical sensing, and biological applications.
Launched by the European Commission in 2008, HELIOS focused on developing essential building blocks like efficient optical sources (silicon-based and heterogeneous integration of III-V on silicon), integrated lasers, high-speed modulators and photo-detectors. The project, which had 20 members, also combined and packaged these building blocks to demonstrate complex functions that address a variety of industrial needs.
These include a 10Gb/s modulator integrated with an electronic BiCMOS driver, a 16x10 Gb/s transceiver for WDM-PON applications, a photonic QAM-10Gb/s wireless transmission system and a mixed analog-and-digital transceiver module for multi-function antennas.
The building blocks also led to results exceeding the original specifications, positioning the partners at the leading edge in their fields:
The work of the HELIOS consortium led to more than 170 publications and communications in peer-review journals and international conferences. Detailed information is available on http://www.helios-project.eu/
HELIOS program members:
- CEA-Leti, coordinator (France)
- IMEC (Belgium)
- CNRS (France)
- Alcatel Thales III-V lab (France)
- University of Surrey (UK)
- IMM (Italy)
- University of Paris-Sud (France)
- University of Valencia (Spain)
- University of Trento (Italy)
- University of Barcelona (Spain)
- 3S Photonics (France)
- IHP (Germany)
- University of Berlin (Germany)
- Thales (France)
- DAS Photonics (Spain)
- ams AG (Austria)
- University of Vienna (Austria)
- Phoenix BV (Netherlands)
- Photline Technologies (France)
- University of Southampton (UK)
Leti is an institute of CEA, a French research-and-technology organization with activities in energy, IT, healthcare, defence and security. Leti is focused on creating value and innovation through technology transfer to its industrial partners. It specializes in nanotechnologies and their applications, from wireless devices and systems, to biology, healthcare and photonics. NEMS and MEMS are at the core of its activities. An anchor of the MINATEC campus, CEA-Leti operates 8,000-m² of state-of-the-art clean room space on 200mm and 300mm wafer platforms. It employs 1,700 scientists and engineers including 320 Ph.D. students and 200 assignees from partner companies. CEA-Leti owns more than 2,200 patent families.
For more information, visit www.leti.fr.