Energy efficiency has become increasingly important in high performance computing (HPC), as power constraints and costs escalate. Workload and system characteristics form a complex optimization search space in which optimal settings for energy efficiency and performance often diverge. Thus, we must identify trade-off options for performance and energy efficiency to find the desired balance between them. We present an innovative statistical model that accurately predicts the Pareto optimal performance and energy efficiency trade-off options using only user-controllable parameters. Our approach can also tolerate both measurement and model errors. We study model training and validation using several HPC kernels, then explore the feasibility of...
Keeping energy costs in budget and operating within available capacities of power distribu-tion and ...
Information and Communication Technologies (ICT) systems and devices are forecast to consume up to 5...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
Energy efficiency has become increasingly important in high performance computing (HPC), as power co...
Rising power costs and constraints are driving a growing focus on the energy efficiency of high perf...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
In order to operate within power supply constraints, the next generation of supercomputers must be e...
Energy costs nowadays represent a significant share of the total costs of ownership of High Performa...
The ability to predict the energy needed by a system to perform a task, or several concurrent parall...
Future large scale high performance supercomputer systems require high energy efficiency to achieve ...
The overarching goal of this thesis is to provide an algorithm-centric approach to analyzing the rel...
International audienceMonitoring and assessing the energy efficiency of supercomputers and data cent...
High Performance Computing (HPC) has become an indispensable tool for the scientific community to pe...
Nowadays, reducing energy consumption and improving the energy efficiency of computing systems becom...
Future large scale high performance supercomputer systems require high energy efficiency to achieve ...
Keeping energy costs in budget and operating within available capacities of power distribu-tion and ...
Information and Communication Technologies (ICT) systems and devices are forecast to consume up to 5...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
Energy efficiency has become increasingly important in high performance computing (HPC), as power co...
Rising power costs and constraints are driving a growing focus on the energy efficiency of high perf...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
In order to operate within power supply constraints, the next generation of supercomputers must be e...
Energy costs nowadays represent a significant share of the total costs of ownership of High Performa...
The ability to predict the energy needed by a system to perform a task, or several concurrent parall...
Future large scale high performance supercomputer systems require high energy efficiency to achieve ...
The overarching goal of this thesis is to provide an algorithm-centric approach to analyzing the rel...
International audienceMonitoring and assessing the energy efficiency of supercomputers and data cent...
High Performance Computing (HPC) has become an indispensable tool for the scientific community to pe...
Nowadays, reducing energy consumption and improving the energy efficiency of computing systems becom...
Future large scale high performance supercomputer systems require high energy efficiency to achieve ...
Keeping energy costs in budget and operating within available capacities of power distribu-tion and ...
Information and Communication Technologies (ICT) systems and devices are forecast to consume up to 5...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....