Maximizing performance in power-constrained computing environments is highly important in cloud and datacenter computing. To achieve the best possible performance of parallel applications under power capping, it is crucial to execute them with the optimal concurrency level and cross-component power allocation between CPUs and memory. Despite extensive prior works, it still remains unexplored to investigate the efficient runtime support that maximizes the performance of parallel applications under power capping through the coordinated control of concurrency level and cross-component power allocation. To bridge this gap, this work proposes RPPC, a holistic runtime system for maximizing performance under power capping. In contrast to the state...
Heterogeneous multicores offer flexibility in the form of different core types and Dynamic Voltage a...
Being on the verge of exascale performance has shifted the prioritization of performance in applicat...
Energy-related costs are among the major contributors to the total cost of ownership of data centers...
Energy consumption has become a core concern in computing systems. In this context, power capping is...
As we approach exascale systems, power is turning from an optimization goal to a critical operating ...
As power consumption being the first order constraint to build microprocessors, they are required to...
Emerging computing systems face the critical management challenge of both performance and power simu...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
In this manuscript we evaluate the impact of HW power capping mechanisms on a real scientific applic...
Multi-threaded applications facilitate the exploitation of the computing power of multicore architec...
Abstract—The increasing demand for computation and the commensurate rise in the power density of dat...
Power capping is an important solution to keep the system within a fixed power constraint. However, ...
Concurrent heterogeneous computing (CHC) is rapidly emerging as a promising solution for high-perfor...
In the last few years, multi-core processors entered into the domain of embedded systems: this, toge...
Peak power consumption is the first order design constraint of data centers. Though peak power consu...
Heterogeneous multicores offer flexibility in the form of different core types and Dynamic Voltage a...
Being on the verge of exascale performance has shifted the prioritization of performance in applicat...
Energy-related costs are among the major contributors to the total cost of ownership of data centers...
Energy consumption has become a core concern in computing systems. In this context, power capping is...
As we approach exascale systems, power is turning from an optimization goal to a critical operating ...
As power consumption being the first order constraint to build microprocessors, they are required to...
Emerging computing systems face the critical management challenge of both performance and power simu...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
In this manuscript we evaluate the impact of HW power capping mechanisms on a real scientific applic...
Multi-threaded applications facilitate the exploitation of the computing power of multicore architec...
Abstract—The increasing demand for computation and the commensurate rise in the power density of dat...
Power capping is an important solution to keep the system within a fixed power constraint. However, ...
Concurrent heterogeneous computing (CHC) is rapidly emerging as a promising solution for high-perfor...
In the last few years, multi-core processors entered into the domain of embedded systems: this, toge...
Peak power consumption is the first order design constraint of data centers. Though peak power consu...
Heterogeneous multicores offer flexibility in the form of different core types and Dynamic Voltage a...
Being on the verge of exascale performance has shifted the prioritization of performance in applicat...
Energy-related costs are among the major contributors to the total cost of ownership of data centers...