TAMPERE, Finland--(BUSINESS WIRE)--It is estimated that by 2040, computers will need more electricity than the world’s energy resources can generate. The Approximate Computing for Power and Energy Optimisation (APROPOS) project will train 15 junior researchers around Europe to tackle the challenges of future-embedded and high-performance computing energy efficiency by using disruptive methodologies.
The energy consumption of mobile broadband networks is comparable to that of data centres. The Internet of Things paradigm will soon connect up to 50 billion devices through wireless networks. The APROPOS project aims at decreasing energy consumption in both distributed computing and communications for cloud-based cyber-physical systems.
“Luckily, in many parts of global data acquisition, transfer, computation, and storage systems, it’s possible to reduce accuracy to allow reduced energy and time consumption. By introducing accuracy to design optimisation, energy efficiency can be improved even up to 50-fold,” says Professor Jari Nurmi from the Electrical Engineering Unit of Tampere University.
Nurmi points out that, for example, numerous sensors measure noisy or inexact inputs, and the algorithms processing the acquired signals can be stochastic. Sensor swarms measuring natural environments produce a lot of noisy and inexact data that can be transferred and processed with less accuracy without losing the essential trends of the phenomena observed.
”The applications using data may not need completely correct results; acceptable accuracy may be sufficient. This means that the system can be resilient against random errors and, for example, a coarse classification may be enough for a data mining system.”
New solutions needed to tackle increasing energy consumption
The overall energy consumption of computing and communication systems is rapidly growing, despite the recent advances in semiconductor technology and energy-aware system design. The APROPOS project will train fifteen research fellows in a multisectoral, international environment to form the basis for enhanced features in products and energy-aware system design.
“The early-stage researchers of APROPOS will be trained in both entrepreneurial and academic directions. Thus, they will be able to develop the commercial potential of their research and come up with innovative product and service ideas,” Nurmi adds.
APROPOS is a four-year project funded by the European Union’s Horizon 2020 Marie Sklodowska Curie Innovative Training Networks. It is coordinated by Tampere University, Finland. Many of the young researchers are coming from outside the EU to work in Finland, Sweden, the Netherlands, Austria, Italy, Spain, Switzerland, France, and the UK.
Read more at http://www.apropos-itn.eu
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