Researchers recently completed a 5-year research project looking at how to make fibre optic communications systems more energy efficient. Among their proposals are smart, error-correcting data chip circuits, which they refined to be 10 times less energy consumptive.
Streaming films and music, scrolling through social media, and using cloud-based storage services are everyday activities now. But to accommodate this digital lifestyle, a huge amount of data needs to be transmitted through fibre optic cables — and that amount is increasing at an almost unimaginable rate, consuming an enormous amount of electricity. This is completely unsustainable — at the current rate of increase, if no energy efficiency gains were made, within ten years the internet alone would consume more electricity than is currently generated worldwide. Electricity production cannot be increased at the same rate without massively increasing the usage of fossil fuels for electricity generation, in turn leading to a significant increase in carbon dioxide emissions.
«The challenge lies in meeting that inevitable demand for capacity and performance, while keeping costs at a reasonable level and minimising the environmental impacts,» says Peter Andrekson, Professor of Photonics at the Department of Microtechnology and Nanoscience at Chalmers.
Peter Andrekson was the leader of the 5-year research project ‘Energy-efficient optical fibre communication’, which has contributed significant advances to the field.
In the early phase of the project, the Chalmers researchers identified the biggest energy drains in today’s fibre optic systems. With this knowledge, they then designed and built a concept for a system for data transmission which consumes as little energy as possible. Optimising the components of the system against each other results in significant energy savings.
Currently, some of the most energy-intensive components are error-correction data chips, which are used in optical systems to compensate for noise and interference. The Chalmers researchers have now succeeded in designing these data chips with optimised circuits.
Story Source: Materials provided by Chalmers University of Technology. Note: Content may be edited for style and length.