High-performance computing (HPC) is indispensable in modern scientific research and industry applications, but its energy consumption is a growing concern. This thesis presents two novel approaches to optimize energy consumption in large data systems. The first chapter of the thesis will discuss the use of Dynamic Voltage and Frequency Scaling (DVFS) to optimize the energy efficiency of two popular lossy compression algorithms: SZ and ZFP. By adjusting the voltage and frequency levels of computing resources, DVFS can reduce energy consumption while maintaining the desired level of performance and accuracy. The second chapter of the thesis will focus on a detailed comparison and analysis of asynchronous and synchronous checkpointing energy c...
The conventional approaches to reduce the energy consumption of high performance computing (HPC) dat...
Every HPC system today has to cope with a deluge of data generated by scientific applications, simul...
International audienceHigh-performance computing (HPC) systems require energy during their full life...
High-performance computing (HPC) is indispensable in modern scientific research and industry applica...
International audienceHigh‐performance computing (HPC) systems require energy during their full life...
The conventional approaches to reduce the energy consumption of high performance computing (HPC) dat...
With respect to the continuous growth of computing systems, the energy-efficiency requirement of the...
Energy efficiency is a major concern in modern high-performance computing system design. In the past...
In High Performance Computing, being respectful of the environment is usually secondary compared to ...
The volume of data to process and store in high throughput computing (HTC) and scientific computing ...
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
The constant demand of raw performance in high-performance computing (HPC) often leads to over-provi...
The increasing energy consumption of large-scale high performance resources raises technical and eco...
The paper presents state of the art of energy-aware high-performance computing (HPC), in particular ...
ith the advent of the Exascale capability allowing supercomputers to perform at least 1018 IEEE 754 ...
The conventional approaches to reduce the energy consumption of high performance computing (HPC) dat...
Every HPC system today has to cope with a deluge of data generated by scientific applications, simul...
International audienceHigh-performance computing (HPC) systems require energy during their full life...
High-performance computing (HPC) is indispensable in modern scientific research and industry applica...
International audienceHigh‐performance computing (HPC) systems require energy during their full life...
The conventional approaches to reduce the energy consumption of high performance computing (HPC) dat...
With respect to the continuous growth of computing systems, the energy-efficiency requirement of the...
Energy efficiency is a major concern in modern high-performance computing system design. In the past...
In High Performance Computing, being respectful of the environment is usually secondary compared to ...
The volume of data to process and store in high throughput computing (HTC) and scientific computing ...
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
The constant demand of raw performance in high-performance computing (HPC) often leads to over-provi...
The increasing energy consumption of large-scale high performance resources raises technical and eco...
The paper presents state of the art of energy-aware high-performance computing (HPC), in particular ...
ith the advent of the Exascale capability allowing supercomputers to perform at least 1018 IEEE 754 ...
The conventional approaches to reduce the energy consumption of high performance computing (HPC) dat...
Every HPC system today has to cope with a deluge of data generated by scientific applications, simul...
International audienceHigh-performance computing (HPC) systems require energy during their full life...