Many computing systems are constrained by power budgets. While they could temporarily draw more power, doing so creates unsustainable temperatures and unwanted electricity consumption. Developing systems that operate within power budgets is a constrained optimization problem: configuring the components within the system to maximize performance while maintaining sustainable power consumption. This is a challenging problem because many different components within a system affect power/performance tradeoffs and they interact in complex ways. Prior approaches address these challenges by fixing a set of components and designing a power budgeting framework that manages only that one set of components. If new components become available, then this...
Abstract—The increasing demand for computation and the commensurate rise in the power density of dat...
As technology scales, thermal management for multi-core archi-tectures becomes a critical challenge ...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
Power management is one of the most critical challenges on the path to exascale supercomputing. High...
As we approach exascale systems, power is turning from an optimization goal to a critical operating ...
A number of techniques have been proposed to provide run- time performance guarantees while minimizi...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
Power budgeting - allocating power among computing components to maximize performance - is a necessi...
The general purpose of operating systems like Linux, thanks to their predisposition to adapt easily ...
Today, power is increasingly becoming the key limitation in CPU performance; therefore, power consum...
Energy management is a problem of all types of computing devices. For example, short battery life is...
Heterogeneous processors (e.g., ARM’s big.LITTLE) improve performance in power-constrained environme...
Rapidly increasing chip densities and processor speeds have made energy dissipation a leading concer...
High Performance Computing (HPC) has become an indispensable tool for the scientific community to pe...
Abstract—The increasing demand for computation and the commensurate rise in the power density of dat...
As technology scales, thermal management for multi-core archi-tectures becomes a critical challenge ...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
Power management is one of the most critical challenges on the path to exascale supercomputing. High...
As we approach exascale systems, power is turning from an optimization goal to a critical operating ...
A number of techniques have been proposed to provide run- time performance guarantees while minimizi...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
Power budgeting - allocating power among computing components to maximize performance - is a necessi...
The general purpose of operating systems like Linux, thanks to their predisposition to adapt easily ...
Today, power is increasingly becoming the key limitation in CPU performance; therefore, power consum...
Energy management is a problem of all types of computing devices. For example, short battery life is...
Heterogeneous processors (e.g., ARM’s big.LITTLE) improve performance in power-constrained environme...
Rapidly increasing chip densities and processor speeds have made energy dissipation a leading concer...
High Performance Computing (HPC) has become an indispensable tool for the scientific community to pe...
Abstract—The increasing demand for computation and the commensurate rise in the power density of dat...
As technology scales, thermal management for multi-core archi-tectures becomes a critical challenge ...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...