International audienceAs side effects of the end of Dennard’s scaling, power and thermal technological walls stand in front of the evolution of supercomputers towards the exaflops era. Energy and temperature walls are big challenges to face for assuring a constant grow of performance in future. New generation architectures for HPC systems implement HW and SW components to address energy and thermal issues for increasing power and efficient computing in scientific workload. In thermal-bound HPC machines, workload-aware runtimes can leverage hardware knobs to guarantee the best operating point in term of performance and power saving without violating thermal constraints.In this paper, we present an integer-linear programming formulation for j...
International audienceDatacenters have become an important part of today's computing infrastructure....
Abstract—As we move towards the exascale era, power and energy have become major challenges. Some of...
Energy efficiency has become a crucial factor in high-performance computing, mainly due to its effec...
As side effects of the end of Dennard’s scaling, power and thermal technological walls stand in fron...
We are entering the era of thermally-bound computing: Advanced and costly cooling solutions are need...
In the scope of technical and scientific computing the rush towards larger simulations, has been so ...
International audienceDespite recent advances in improving the performance of high performance compu...
With the advent of a new generation of supercomputers characterized by tightly-coupled integration o...
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
The use of information technologies such as high performance computing (HPC) represents a basic tool...
Energy-efficiency is of primary interest in future HPC systems as their computational growth is limi...
Power consumption and process variability are two important, interconnected, challenges of future ge...
Energy efficiency has become a crucial factor in high-performance computing, mainly due to its effec...
International audienceDatacenters have become an important part of today's computing infrastructure....
Abstract—As we move towards the exascale era, power and energy have become major challenges. Some of...
Energy efficiency has become a crucial factor in high-performance computing, mainly due to its effec...
As side effects of the end of Dennard’s scaling, power and thermal technological walls stand in fron...
We are entering the era of thermally-bound computing: Advanced and costly cooling solutions are need...
In the scope of technical and scientific computing the rush towards larger simulations, has been so ...
International audienceDespite recent advances in improving the performance of high performance compu...
With the advent of a new generation of supercomputers characterized by tightly-coupled integration o...
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
The use of information technologies such as high performance computing (HPC) represents a basic tool...
Energy-efficiency is of primary interest in future HPC systems as their computational growth is limi...
Power consumption and process variability are two important, interconnected, challenges of future ge...
Energy efficiency has become a crucial factor in high-performance computing, mainly due to its effec...
International audienceDatacenters have become an important part of today's computing infrastructure....
Abstract—As we move towards the exascale era, power and energy have become major challenges. Some of...
Energy efficiency has become a crucial factor in high-performance computing, mainly due to its effec...