Search for European Projects

5 European Projects Found

Searched on 125080 European Projects

 FINISHED 
Modular interposer architecture providing scalable heat removal, power delivery and communicationCarrICool will deliver a game-changing 3D packaging platform for scale-up of future, many-core, Exascale computing systems. The project will also develop a strategic supplier base in Europe for high-end HPC components and systems integration capabilities in the Exascale era. In CarrICool, advanced More ...
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 9

 FINISHED 
Future electronic power devices and packages will need to demonstrate more performance and functionality at reduced cost, size, weight, energy consumption and thermal budget. Further, increasing reliability demands have also to be met by industry to be competitive in this growing multi-billion Euro market of heterogeneously integrated systems.To respond to these challenges, new innovative nano- an ...
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 18

 FINISHED 
Tomorrows micro-electronic devices will have to show more functionality and performance at smaller form factor, lower cost and lower energy consumption in order to be competitive on this multi-billion dollar market. Advanced system integration is thus inevitable, a trend bound to joining dissimilar materials with new packaging technologies. These processes must enable lower thermal resistances and ...
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 10

 FINISHED 

Fatigue testing of CFRP materials (FATIMA)

Start date: Jan 1, 2011, End date: Dec 31, 2013,

"The FATIMA project proposed by the consortium will work on testing and fatigue prediction of carbon fiber reinforced plastics (CFRP) as required in call JTI-CS-2010-3-ECO-01-007. The challenging objective is to go beyond the state of the art in terms of approaches to account for humidity, multi-ply and multi-axiality effects in organic laminate structures. Intensive work in the field resulted in ...
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 3

 FINISHED 
Micro- and nano-electronic components are multi-scale in nature, caused by the huge scale differences of the individual materials and components in these products. Consequently, product behaviour is becoming strongly dependent on material behaviour at the atomic scale. To prevent extensive trial-and-error based testing for new technology developments, new powerful quantitative knowledge-based mode ...
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 11