abstract: Multicore processors have proliferated in nearly all forms of computing, from servers, desktop, to smartphones. The primary reason for this large adoption of multicore processors is due to its ability to overcome the power-wall by providing higher performance at a lower power consumption rate. With multi-cores, there is increased need for dynamic energy management (DEM), much more than for single-core processors, as DEM for multi-cores is no more a mechanism just to ensure that a processor is kept under specified temperature limits, but also a set of techniques that manage various processor controls like dynamic voltage and frequency scaling (DVFS), task migration, fan speed, etc. to achieve a stated objective. The objectives span...
Energy efficiency in supercomputing is critical to limit operating costs and carbon footprints. Whil...
Power and energy have become increasingly important concerns in the design and implementation of tod...
Power and energy is the first-class design constraint for multi-core processors and is a limiting fa...
We introduce a novel algorithm for dynamic energy management (DEM) under performance constraints in ...
Energy management is a problem of all types of computing devices. For example, short battery life is...
Energy efficiency is a key design goal for future computing systems. With diverse components interac...
With the current technology trends, the number of computers and computation demand is increasing dra...
This dissertation addresses the problem of power and performance management for various computing sy...
AbstractMulti-core processors support all modern electronic devices nowadays. However, power managem...
Thesis (Ph.D.)--Boston UniversityMany-core systems, ranging from small-scale many-core processors to...
Power consumption is an important constraint in achieving efficient execution on High Performance Co...
Fueled by increasing human appetite for high computing performance, semiconductor technology has now...
In this paper we investigate and contrast two techniques to maxi-mize the performance of multi-core ...
Over the past decades, the shrinking transistor size enabled more transistors to be integrated into ...
In this paper we investigate and contrast two techniques to maximize the performance of multi-core p...
Energy efficiency in supercomputing is critical to limit operating costs and carbon footprints. Whil...
Power and energy have become increasingly important concerns in the design and implementation of tod...
Power and energy is the first-class design constraint for multi-core processors and is a limiting fa...
We introduce a novel algorithm for dynamic energy management (DEM) under performance constraints in ...
Energy management is a problem of all types of computing devices. For example, short battery life is...
Energy efficiency is a key design goal for future computing systems. With diverse components interac...
With the current technology trends, the number of computers and computation demand is increasing dra...
This dissertation addresses the problem of power and performance management for various computing sy...
AbstractMulti-core processors support all modern electronic devices nowadays. However, power managem...
Thesis (Ph.D.)--Boston UniversityMany-core systems, ranging from small-scale many-core processors to...
Power consumption is an important constraint in achieving efficient execution on High Performance Co...
Fueled by increasing human appetite for high computing performance, semiconductor technology has now...
In this paper we investigate and contrast two techniques to maxi-mize the performance of multi-core ...
Over the past decades, the shrinking transistor size enabled more transistors to be integrated into ...
In this paper we investigate and contrast two techniques to maximize the performance of multi-core p...
Energy efficiency in supercomputing is critical to limit operating costs and carbon footprints. Whil...
Power and energy have become increasingly important concerns in the design and implementation of tod...
Power and energy is the first-class design constraint for multi-core processors and is a limiting fa...