Peak power consumption is the first order design constraint of data centers. Though peak power consumption is rarely, if ever, observed, the entire data center facility must prepare for it, leading to inefficient usage of its resources. The most prominent way for addressing this issue is to limit the power consumption of the data center IT facility far below its theoretical peak value. Many approaches have been proposed to achieve that, based on the same small set of enforcement mechanisms, but there has been no corresponding work on systematically examining the advantages and disadvantages of each such mechanism. In the absence of such a study, it is unclear what is the optimal mechanism for a given computing environment, which can lead to...
Power budgeting - allocating power among computing components to maximize performance - is a necessi...
Supercomputer installed capacity worldwide increased for many years and further growth is expected i...
Millions of datacenters are operating all over the world, consuming up to 3% of the global electrici...
In this manuscript we evaluate the impact of HW power capping mechanisms on a real scientific applic...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
Abstract—The increasing demand for computation and the commensurate rise in the power density of dat...
Abstract—The rapid growth of large scale computing systems imposes a grave challenge to their power ...
Data centers contribute to approximately 1% of the global electricity consumption, and billions of d...
Abstract—Peak power management of datacenters has tremendous cost implications. While numerous mecha...
Power consumption is a key factor in modern ICT infrastructure, especially in the expanding world of...
We introduce a novel power capping technique, IdleCap, that achieves higher effective server frequen...
Datacenters spend $10-25 per watt in provisioning their power infrastructure, regardless of the watt...
Emerging computing systems face the critical management challenge of both performance and power simu...
The overall goal of the work presented in this thesis was to find ways of managing power-performance...
In this paper we present an approach to improve power and cooling capacity management in a data cent...
Power budgeting - allocating power among computing components to maximize performance - is a necessi...
Supercomputer installed capacity worldwide increased for many years and further growth is expected i...
Millions of datacenters are operating all over the world, consuming up to 3% of the global electrici...
In this manuscript we evaluate the impact of HW power capping mechanisms on a real scientific applic...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
Abstract—The increasing demand for computation and the commensurate rise in the power density of dat...
Abstract—The rapid growth of large scale computing systems imposes a grave challenge to their power ...
Data centers contribute to approximately 1% of the global electricity consumption, and billions of d...
Abstract—Peak power management of datacenters has tremendous cost implications. While numerous mecha...
Power consumption is a key factor in modern ICT infrastructure, especially in the expanding world of...
We introduce a novel power capping technique, IdleCap, that achieves higher effective server frequen...
Datacenters spend $10-25 per watt in provisioning their power infrastructure, regardless of the watt...
Emerging computing systems face the critical management challenge of both performance and power simu...
The overall goal of the work presented in this thesis was to find ways of managing power-performance...
In this paper we present an approach to improve power and cooling capacity management in a data cent...
Power budgeting - allocating power among computing components to maximize performance - is a necessi...
Supercomputer installed capacity worldwide increased for many years and further growth is expected i...
Millions of datacenters are operating all over the world, consuming up to 3% of the global electrici...