The new photonic chips use silicon as a miniaturised optical medium for transmitting and switching data at very high speeds. The optical interconnection offered by the new chips means that huge amounts of data can be sent and received at the same time in a highly efficient manner. Optical interconnects communicate through optical cables; which have a much higher bandwidth compared to traditional cables.
The innovation reduces power consumption and increases capacity at the same time, leading to lower operational costs for businesses. The first chips are currently in the test and characterisation phase, and have been shown to enhance network performance.
Researchers from Ericsson in Pisa, Italy, who are coordinating the project, have already generated and filed all relevant patent proposals. Indeed, industrial partners within the consortium strongly believe that it is of strategic importance now to develop new functions that will enable new products to be developed in the era of fifth generation (5G) mobile network technology.
The forthcoming 5G era is about bringing the capacity needed to cope with the projected increase in wireless communication and data exchange. This technology wave is expected to be introduced around 2020 and should last until approximately 2035.
Whatever 5G will be – and no one is completely sure yet – it is unlikely to be the same as previous generations (4G, for example, started off as a way to provide smartphone users with easy and quick access to internet-based services like YouTube, Facebook, and Netflix). One prediction for 5G is that it will include more business to business services, which is exactly where the IRIS project results fit in.
The EU is investing significantly in the development of 5G in order to ensure that Europe as the forefront of this technology, and that European businesses can capitalise on demand for new applications and functions. The IRIS project, funded to the tune of EUR 3.35 million by the EU, is scheduled for completion at the end of 2016.