The demand for global data traffic is growing at an unprecedented rate, with data centres and supercomputers already responsible for more than 75% of Internet traffic. This trend poses major technological, economic, and environmental challenges, as the energy consumption of data centres is projected to reach 3.2% of Europe’s total energy demand by 2030. Amica addresses this challenge by developing a new class of chip-scale multi-wavelength laser sources, known as super-efficient photonic molecule microcombs. These devices can provide many optical channels simultaneously, enabling faster and more energy-efficient communication links inside and between data centres. The project brings together leading academic partners, an industrial leader in datacentre interconnects, and a high-tech start-up to advance this disruptive photonics technology from the laboratory towards market deployment.
Amica’s objectives are to:
· Demonstrate prototype microcomb modules that meet the performance requirements of next-generation co-packaged optics (CPO).
· Prepare scalable manufacturing routes through heterogeneous integration.
· Validate the technology in relevant applications such as optical communication and optical clocks.
· Develop a credible pathway to commercialization via the start-up Solinide Photonics AB (formerly Iloomina AB).
By achieving these objectives, Amica will support Europe’s strategic goals in digital sovereignty, semiconductor leadership, and energy-efficient ICT.