Now showing items 1-2 of 2

    • Paving the Way Towards a Highly Energy-Efficient and Highly Integrated Compute Node for the Exascale Revolution: The ExaNoDe Approach 

      Rigo, Alvise; Pinto, Christian; Pouget, Kevin; Raho, Daniel; Dutoit, Denis; Martinez, Pierre-Yves; Doran, Chris; Benini, Luca; Mavroidis, Iakovos; Marazakis, Manolis; Bartsch, Valeria; Lonsdale, Guy; Pop, Antoniu; Goodacre, John; Colliot, Annaïk; Carpenter, Paul; Radojkovic, Petar; Pleiter, Dirk; Drouin, Dominique; Dupont de Dinechin, Benoît (IEEE, 2017-09-28)
      Conference lecture
      Open Access
      Power consumption and high compute density are the key factors to be considered when building a compute node for the upcoming Exascale revolution. Current architectural design and manufacturing technologies are not able ...
    • The TERAFLUX Project: Exploiting the dataflow paradigm in next generation teradevices 

      Solinas, Marco; Badia Sala, Rosa Maria; Bodin, François; Cohen, Albert; Evripidou, Paraskevas; Faraboschi, Paolo; Fechner, Bernhard; Gao, Guang R.; Garbade, Arne; Girbal, Sylvain; Goodman, Daniel; Khan, Behran; Koliai, Souad; Li, Feng; Lujan, Mikel; Morin, Laurent; Mendelson, Avi; Navarro, Nacho; Pop, Antoniu; Trancoso, Pedro; Ungerer, Theo; Valero Cortés, Mateo; Weis, Sebastian; Watson, Ian; Zuckermann, Stéphane; Giorgi, Roberto (IEEE Computational Intelligence Society, 2013)
      Conference report
      Restricted access - publisher's policy
      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 ...