Browsing by Subject "Semiconductor device manufacture"

Now showing items 1-4 of 4

    • Article  

      Information theoretic modeling and analysis for global interconnects with process variations 

      Denic, S. Z.; Vasic, B.; Charalambous, Charalambos D.; Chen, J.; Wang, J. M. (2011)
      As the CMOS semiconductor technology enters nanometer regime, interconnect processes must be compatible with device roadmaps and meet manufacturing targets at the specified wafer size. The resulting ubiquitous process ...
    • Article  

      Low temperature and cost-effective growth of vertically aligned carbon nanofibers using spin-coated polymer-stabilized palladium nanocatalysts 

      Saleem, A. M.; Shafiee, S.; Krasia-Christoforou, T.; Savva, I.; Göransson, G.; Desmaris, V.; Enoksson, P. (2015)
      We describe a fast and cost-effective process for the growth of carbon nanofibers (CNFs) at a temperature compatible with complementary metal oxide semiconductor technology, using highly stable polymer-Pd nanohybrid colloidal ...
    • Conference Object  

      The TERAFLUX project: Exploiting the dataflow paradigm in next generation teradevices 

      Solinas, M.; Badia, R. M.; Bodin, F.; Cohen, A.; Evripidou, Paraskevas; Faraboschi, P.; Fechner, B.; Gao, G. R.; Garbade, A.; Girbal, S.; Goodman, D.; Khan, B.; Koliai, S.; Li, F.; Luján, M.; Morin, L.; Mendelson, A.; Navarro, N.; Pop, A.; Trancoso, Pedro; Ungerer, T.; Valero, M.; Weis, S.; Watson, I.; Zuckermann, S.; Giorgi, Roberto (2013)
      Thanks to the improvements in semiconductor technologies, extreme-scale systems such as teradevices (i.e., composed by 1000 billion of transistors) will enable systems with 1000+ general purpose cores per chip, probably ...
    • Article  

      TERAFLUX: Harnessing dataflow in next generation teradevices 

      Giorgi, Roberto; Badia, R. M.; Bodin, F.; Cohen, A.; Evripidou, Paraskevas; Faraboschi, P.; Fechner, B.; Gao, G. R.; Garbade, A.; Gayatri, R.; Girbal, S.; Goodman, D.; Khan, B.; Koliaï, S.; Landwehr, J.; Lê, N. M.; Li, F.; Lujàn, M.; Mendelson, A.; Morin, L.; Navarro, N.; Patejko, T.; Pop, A.; Trancoso, Pedro; Ungerer, T.; Watson, I.; Weis, S.; Zuckerman, S.; Valero, M. (2014)
      The improvements in semiconductor technologies are gradually enabling extreme-scale systems such as teradevices (i.e., chips composed by 1000 billion of transistors), most likely by 2020. Three major challenges have been ...