A surge of interest in data-intensive computing has led to a drastic increase in the demand for data centers. Given this growing popularity, data centers are becoming a primary contributor to the increased consumption of energy worldwide. To mitigate this problem, this paper revisits DVFS (Dynamic Voltage Frequency Scaling), a well-known technique to reduce the energy usage of processors, from the viewpoint of distributed systems. Distributed data systems typically adopt a replication facility to provide high availability and short latency. In this type of architecture, the replicas are maintained in an asynchronous manner, while the master synchronously operates via user requests. Based on this relaxation constraint of replica, we present ...
Energy management is a problem of all types of computing devices. For example, short battery life is...
Limit studies on Dynamic Voltage and Frequency Scaling (DVFS) provide apparently contradictory concl...
We describe and evaluate two new, independently-applicable power reduction techniques for power mana...
Energy efficiency is quickly becoming a first-class design constraint in high-performance computing ...
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...
The fraction of server energy consumed by the memory system has been increasing rapidly and is now o...
In the recent decades, power consumption has evolved to one of the most critical resources in a comp...
As power consumption being the first order constraint to build microprocessors, they are required to...
International audiencePower consumption and the ever-increasing service demand are key issues that r...
Abstract—Low power is an important design requirement for HPC systems nowadays. Dynamic voltage and ...
Abstract—Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DV...
Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DVFS) has b...
We propose and evaluate two new and independently-applicable techniques, process-driven voltage scal...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
Energy management is a problem of all types of computing devices. For example, short battery life is...
Limit studies on Dynamic Voltage and Frequency Scaling (DVFS) provide apparently contradictory concl...
We describe and evaluate two new, independently-applicable power reduction techniques for power mana...
Energy efficiency is quickly becoming a first-class design constraint in high-performance computing ...
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...
The fraction of server energy consumed by the memory system has been increasing rapidly and is now o...
In the recent decades, power consumption has evolved to one of the most critical resources in a comp...
As power consumption being the first order constraint to build microprocessors, they are required to...
International audiencePower consumption and the ever-increasing service demand are key issues that r...
Abstract—Low power is an important design requirement for HPC systems nowadays. Dynamic voltage and ...
Abstract—Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DV...
Featured by high portability and programmability, Dynamic Voltage and Frequency Scaling (DVFS) has b...
We propose and evaluate two new and independently-applicable techniques, process-driven voltage scal...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
Energy management is a problem of all types of computing devices. For example, short battery life is...
Limit studies on Dynamic Voltage and Frequency Scaling (DVFS) provide apparently contradictory concl...
We describe and evaluate two new, independently-applicable power reduction techniques for power mana...