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
Radojković, Petar
Pleiter, Dirk
Drouin, Dominique
De Dinechin, Benoît Dupont

Open link

Publication date

January 2017

DOI

10.1109/DSD.2017.37

Publisher

country:USA

Abstract

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 to provide the requested level of density and power efficiency to realise an operational Exascale machine. A disruptive change in the hardware design and integration process is needed in order to cope with the requirements of this forthcoming computing target. This paper presents the ExaNoDe H2020 research project aiming to design a highly energy efficient and highly integrated heterogeneous compute node targeting Exascale level computing, mixing low-power processors, heterogeneous co-processors and using advanced hardware i...