University of Lille (France), Simula Metropolitan Center for Digital Engineering, University of Oslo, University of Stavanger (Norway) and Technical University of Berlin, GT-ARC, Technical University of Munich (Germany) are jointly organizing the Summer School on Green Computing and Green Energy.
The target audience for the summer school is early-stage PhD students and MSc students in the related degree programs of any European institution. Students from the host universities and institutes are particularly encouraged to apply.
Accommodation will be provided to the admitted students for the whole duration of the summer school. Upon presentation of documentation, travel expenses will be reimbursed after the summer school with a maximum of €300 for travels within Europe.
Apply now for the summer school here (deadline: 27 June, 2021)
[NEW] Link to the summer school program (living document)
|Location:||University of Lille, Lille, France|
|Dates:||6–10 September 2021|
Green Energy is produced from renewable sources, while Green Computing refers to the study and practice of environmentally sustainable computing. The goal of green computing, therefore, consists in maximizing energy efficiency and the use of renewable energy. Modern IT systems rely upon a complicated mix of people, networks, and hardware; as such, green computing must cover all of these areas. Cloud computing and large data centers have a severe impact on the worldwide energy demand accounting for about 1% of the world’s total energy use in 2018, and thus are a primary focus for proponents of green computing. Data transmission networks account for a similar share. This calls for integrating renewable power sources in order to progress towards carbon-free cloud and networking infrastructures. Energy-efficient data center design should address all of the energy use aspects included in a data center: from the IT equipment to the HVAC (Heating, Ventilation and Air Conditioning) equipment. The efficiency of algorithms and protocols affects the number of computer resources required for any given computation or communication function and there are many efficiency trade-offs in writing software programs. This meeting of green computing with green energy poses special challenges: green energy from solar and wind fluctuates and can be intermittent. Novel mechanisms to shift processing to times when green energy is available or other locations that have a current abundance of green energy are important. This particular form of demand-response applications in large-scale data centers can also bolster the stability and efficiency of power grids, which becomes increasingly challenging and important with the prevalence of distributed renewable generation.
This summer school will cover a comprehensive collection of theoretical and practical aspects at the intersection of energy-efficient computing and renewable energy, including their reciprocal impacts and benefits.
Technically co-sponsored by:
In collaboration with: