Power management is one of the most critical challenges on the path to exascale supercomputing. High Performance Computing (HPC) centers today are designed to be worst-case power provisioned, leading to two main problems: limited application performance and under-utilization of procured power. In this dissertation we introduce hardware overprovisioning: a novel, flexible design methodology for future HPC systems that addresses the aforementioned problems and leads to significant improvements in application and system performance under a power constraint. We first establish that choosing the right configuration based on application characteristics when using hardware overprovisioning can improve application performance under a power constrai...
Power and Energy have been identified as a first order challenge for future extreme scale high perfo...
In the scope of technical and scientific computing the rush towards larger simulations, has been so ...
Achieving faster performance without increasing power and energy consumption for computing systems i...
Power management is one of the key research challenges on the path to exascale. Supercomputers today...
Abstract—Building future generation supercomputers while constraining their power consumption is one...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
In the age of data, there is an increasing demand for higher compute capacity machines. This demand ...
Power has become a critical constraint for the evolution of large scale High Performance Computing (...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
As we approach exascale systems, power is turning from an optimization goal to a critical operating ...
Power budgeting - allocating power among computing components to maximize performance - is a necessi...
Many computing systems are constrained by power budgets. While they could temporarily draw more powe...
Power and Energy have been identified as a first order challenge for future extreme scale high perfo...
In the scope of technical and scientific computing the rush towards larger simulations, has been so ...
Achieving faster performance without increasing power and energy consumption for computing systems i...
Power management is one of the key research challenges on the path to exascale. Supercomputers today...
Abstract—Building future generation supercomputers while constraining their power consumption is one...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
Power constraint has become arguably the biggest obstacle for the performance scaling of computing m...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
In the age of data, there is an increasing demand for higher compute capacity machines. This demand ...
Power has become a critical constraint for the evolution of large scale High Performance Computing (...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
As we approach exascale systems, power is turning from an optimization goal to a critical operating ...
Power budgeting - allocating power among computing components to maximize performance - is a necessi...
Many computing systems are constrained by power budgets. While they could temporarily draw more powe...
Power and Energy have been identified as a first order challenge for future extreme scale high perfo...
In the scope of technical and scientific computing the rush towards larger simulations, has been so ...
Achieving faster performance without increasing power and energy consumption for computing systems i...