Power and energy efficiency have become an increasingly important design metric for a wide spectrum of computing devices. Battery efficiency, which requires a mixture of energy and power efficiency, is exceedingly important especially since there have been no groundbreaking advances in battery capacity recently. The need for energy and power efficiency stretches from small embedded devices to portable computers to large scale data centers. The projected future of computing demand, referred to as exascale computing, demands that researchers find ways to perform exaFLOPs of computation at a power bound much lower than would be required by simply scaling today's standards. There is a large body of work on power and energy efficiency for a wid...
The overarching goal of this thesis is to provide an algorithm-centric approach to analyzing the rel...
Energy efficiency in supercomputing is critical to limit operating costs and carbon footprints. Whil...
Power and energy is the first-class design constraint for multi-core processors and is a limiting fa...
Society’s increasing dependence on information technology has resulted in the deployment of vast com...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
With the breakdown of Dennard Scaling and Moore's law, power consumption appears to be a primary cha...
Reducing power consumption has become a major challenge in the design and operation of to-day’s comp...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
Rapidly increasing chip densities and processor speeds have made energy dissipation a leading concer...
Thesis (Ph. D.)--University of Rochester. Department of Electrical and Computer Engineering, 2018.Th...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
In the context of the big picture as energy demands rise due to growing economies and growing popula...
As we approach exascale systems, power is turning from an optimization goal to a critical operating ...
The overarching goal of this thesis is to provide an algorithm-centric approach to analyzing the rel...
Energy efficiency in supercomputing is critical to limit operating costs and carbon footprints. Whil...
Power and energy is the first-class design constraint for multi-core processors and is a limiting fa...
Society’s increasing dependence on information technology has resulted in the deployment of vast com...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
With the breakdown of Dennard Scaling and Moore's law, power consumption appears to be a primary cha...
Reducing power consumption has become a major challenge in the design and operation of to-day’s comp...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
Rapidly increasing chip densities and processor speeds have made energy dissipation a leading concer...
Thesis (Ph. D.)--University of Rochester. Department of Electrical and Computer Engineering, 2018.Th...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
In the context of the big picture as energy demands rise due to growing economies and growing popula...
As we approach exascale systems, power is turning from an optimization goal to a critical operating ...
The overarching goal of this thesis is to provide an algorithm-centric approach to analyzing the rel...
Energy efficiency in supercomputing is critical to limit operating costs and carbon footprints. Whil...
Power and energy is the first-class design constraint for multi-core processors and is a limiting fa...