In this paper we present optimizations that use DVFS mechanisms to reduce the total energy usage in scientific applications. Our main insight is that noise is intrinsic to large scale parallel executions and it appears whenever shared resources are contended. The presence of noise allows us to identify and manipulate any program regions amenable to DVFS. When compared to previous energy optimizations that make per core decisions using predictions of the running time, our scheme uses a qualitative approach to recognize the signature of executions amenable to DVFS. By recognizing the "shape of variability" we can optimize codes with highly dynamic behavior, which pose challenges to all existing DVFS techniques. We validate our approach using ...
Making modern computer systems energy-efficient is of paramount importance. Dynamic Voltage and Freq...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
High power dissipation and on-chip temperature limit performance and affect reliability in modern mi...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
Abstract—Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DV...
International audienceIn recent years, green computing has become an important topic in the supercom...
Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DVFS) has b...
Multi-core platforms are employing a greater number of heterogeneous cores and resource configuratio...
Energy efficiency is quickly becoming a first-class design constraint in high-performance computing ...
As power consumption being the first order constraint to build microprocessors, they are required to...
International audienceComputing platforms are consuming more and more energy due to the increasing n...
Power has become a primary concern for HPC systems. Dynamic voltage and frequency scal-ing (DVFS) an...
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...
Computers can reduce their power consumption by decreasing their speed using Dynamic Voltage and Fre...
Making modern computer systems energy-efficient is of paramount importance. Dynamic Voltage and Freq...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
High power dissipation and on-chip temperature limit performance and affect reliability in modern mi...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
Abstract—Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DV...
International audienceIn recent years, green computing has become an important topic in the supercom...
Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DVFS) has b...
Multi-core platforms are employing a greater number of heterogeneous cores and resource configuratio...
Energy efficiency is quickly becoming a first-class design constraint in high-performance computing ...
As power consumption being the first order constraint to build microprocessors, they are required to...
International audienceComputing platforms are consuming more and more energy due to the increasing n...
Power has become a primary concern for HPC systems. Dynamic voltage and frequency scal-ing (DVFS) an...
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...
Computers can reduce their power consumption by decreasing their speed using Dynamic Voltage and Fre...
Making modern computer systems energy-efficient is of paramount importance. Dynamic Voltage and Freq...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
High power dissipation and on-chip temperature limit performance and affect reliability in modern mi...