The demands of improving energy efficiency for high performance scientific applications arise crucially nowadays. Software-controlled hardware solutions directed by Dynamic Voltage and Frequency Scaling (DVFS) have shown their effectiveness extensively. Although DVFS is beneficial to green computing, introducing DVFS itself can incur non-negligible overhead, if there exist a large number of frequency switches issued by DVFS. In this paper, we propose a strategy to achieve the optimal energy savings for distributed matrix multiplication via algorithmically trading more computation and communication at a time adaptively with user-specified memory costs for less DVFS switches, which saves 7.5% more energy on average than a classic strategy. Mo...
Recently, energy has become an important issue in high-performance computing. For example, low power...
Due to chip power density limitations as well as the recent breakdown of Dennard's Scalingover the p...
With the increase in the peak performance of modern computing platforms, their energy consumption gr...
AbstractThe demands of improving energy efficiency for high performance scientific applications aris...
Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DVFS) has b...
Boosting performance and energy efficiency of scientific applications running on high performance co...
In High Performance Computing, being respectful of the environment is usually secondary compared to ...
Execution time is no longer the only performance metric for computer systems. In fact, a trend is em...
Execution time is no longer the only performance metric for computer systems. In fact, a trend is em...
International audienceIn recent years, green computing has become an important topic in the supercom...
International audienceThe power consumption of large-scale high performance computing (HPC) systems ...
Abstract—Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DV...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
Energy management is a problem of all types of computing devices. For example, short battery life is...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
Recently, energy has become an important issue in high-performance computing. For example, low power...
Due to chip power density limitations as well as the recent breakdown of Dennard's Scalingover the p...
With the increase in the peak performance of modern computing platforms, their energy consumption gr...
AbstractThe demands of improving energy efficiency for high performance scientific applications aris...
Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DVFS) has b...
Boosting performance and energy efficiency of scientific applications running on high performance co...
In High Performance Computing, being respectful of the environment is usually secondary compared to ...
Execution time is no longer the only performance metric for computer systems. In fact, a trend is em...
Execution time is no longer the only performance metric for computer systems. In fact, a trend is em...
International audienceIn recent years, green computing has become an important topic in the supercom...
International audienceThe power consumption of large-scale high performance computing (HPC) systems ...
Abstract—Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DV...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
Energy management is a problem of all types of computing devices. For example, short battery life is...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
Recently, energy has become an important issue in high-performance computing. For example, low power...
Due to chip power density limitations as well as the recent breakdown of Dennard's Scalingover the p...
With the increase in the peak performance of modern computing platforms, their energy consumption gr...