International audienceParallelizing software is a popular way of achieving high energy efficiency since parallel applications can be mapped on many cores and the clock frequency can be lowered. Perfect parallelism is, however, not often reached and different program phases usually contain different levels of parallelism due to data dependencies. Applications have currently no means of expressing the level of parallelism, and the power management is mostly done based on only the workload. In this work, we provide means of expressing QoS and levels of parallelism in applications for more tight integration with the power management to obtain optimal energy efficiency in multi-core systems. We utilize the dataflow framework PREESM to create and...
Improving software performance by deploying parallel software on multiple processors often comes at ...
International audienceThis paper proposes a framework to design energy efficient signal processing s...
Energy efficiency in supercomputing is critical to limit operating costs and carbon footprints. Whil...
International audienceParallelizing software is a popular way of achieving high energy efficiency si...
International audienceApplications have traditionally been executed as fast as possible (Race-to-Idl...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
The dataflow programming model has been extensively used as an effective solution to implement effic...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
In current computing systems, many applications require guarantees on their maximum power consumptio...
Due to energy limitations imposed to supercomputers, parallel applications developed for High Perfor...
Proceedings of: Third International Workshop on Sustainable Ultrascale Computing Systems (NESUS 2016...
Energy efficiency is a major concern in modern high-performance computing system design. In the past...
Performance and energy efficiency considerations have shifted computing paradigms from single-core t...
The increasing energy consumption of large-scale high performance resources raises technical and eco...
International audienceWe aim at mapping streaming applications that can be modeled by a series-paral...
Improving software performance by deploying parallel software on multiple processors often comes at ...
International audienceThis paper proposes a framework to design energy efficient signal processing s...
Energy efficiency in supercomputing is critical to limit operating costs and carbon footprints. Whil...
International audienceParallelizing software is a popular way of achieving high energy efficiency si...
International audienceApplications have traditionally been executed as fast as possible (Race-to-Idl...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
The dataflow programming model has been extensively used as an effective solution to implement effic...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
In current computing systems, many applications require guarantees on their maximum power consumptio...
Due to energy limitations imposed to supercomputers, parallel applications developed for High Perfor...
Proceedings of: Third International Workshop on Sustainable Ultrascale Computing Systems (NESUS 2016...
Energy efficiency is a major concern in modern high-performance computing system design. In the past...
Performance and energy efficiency considerations have shifted computing paradigms from single-core t...
The increasing energy consumption of large-scale high performance resources raises technical and eco...
International audienceWe aim at mapping streaming applications that can be modeled by a series-paral...
Improving software performance by deploying parallel software on multiple processors often comes at ...
International audienceThis paper proposes a framework to design energy efficient signal processing s...
Energy efficiency in supercomputing is critical to limit operating costs and carbon footprints. Whil...