This paper discusses the benefit of dynamic voltage and frequency scaling for scientific applications under different optimization levels. The reported experiments show the tradeoffs between optimizations for performance in terms of execution time, power dissipation, and overall energy consumption.Technical report DCS-TR-44
This paper investigates the validity of common approaches to power management based on dynamic volta...
Thesis (Ph.D.), Computer Science, Washington State UniversityHigh performance computing centers need...
We describe and evaluate two new, independently-applicable power reduction techniques for power mana...
This paper discusses the benefit of dynamic voltage and frequency scaling for scientific applicatio...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
As microprocessor power has been growing exponentially ever since the microprocessor industry starte...
Increasing complexity and higher performance requirements of modern integrated circuits have natural...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
Dynamic voltage scaling (DVS) is a popular approach for energy reduction of integrated circuits. Cur...
Current embedded computing systems demand not only a high performance but also lower power consumpti...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
CMOS chips are engineered with sufficient performance margins to ensure that they meet the target pe...
The reduction of energy consumption in micro-processors can be accomplished without impacting the pe...
We propose and evaluate two new and independently-applicable techniques, process-driven voltage scal...
This paper investigates the validity of common approaches to power management based on dynamic volta...
Thesis (Ph.D.), Computer Science, Washington State UniversityHigh performance computing centers need...
We describe and evaluate two new, independently-applicable power reduction techniques for power mana...
This paper discusses the benefit of dynamic voltage and frequency scaling for scientific applicatio...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
As microprocessor power has been growing exponentially ever since the microprocessor industry starte...
Increasing complexity and higher performance requirements of modern integrated circuits have natural...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
Dynamic voltage scaling (DVS) is a popular approach for energy reduction of integrated circuits. Cur...
Current embedded computing systems demand not only a high performance but also lower power consumpti...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
CMOS chips are engineered with sufficient performance margins to ensure that they meet the target pe...
The reduction of energy consumption in micro-processors can be accomplished without impacting the pe...
We propose and evaluate two new and independently-applicable techniques, process-driven voltage scal...
This paper investigates the validity of common approaches to power management based on dynamic volta...
Thesis (Ph.D.), Computer Science, Washington State UniversityHigh performance computing centers need...
We describe and evaluate two new, independently-applicable power reduction techniques for power mana...
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