© 2002-2011 IEEE. We present for the first time the concept of per-task energy accounting (PTEA) and relate it to per-task energy metering (PTEM). We show the benefits of supporting both in future computing systems. Using the shared last-level cache (LLC) as an example: (1) We illustrate the complexities in providing PTEM and PTEA; (2) we present an idealized PTEM model and an accurate and low-cost implementation of it; and (3) we introduce a hardware mechanism to provide accurate PTEA in the cache.Peer Reviewe
In this paper we present a new accounting model for heterogeneous supercomputers. An increasing numb...
Energy transparency is a concept that makes a program’s energy consumption visible, from hardware up...
An effective way to improve energy efficiency is to throttle hardware resources to meet a certain Qo...
We present for the first time the concept of per-task energy accounting (PTEA) and relate it to per-...
Energy has become arguably the most expensive resource in a computing system. As multi-core processo...
Chip multicore processors (CMPs) are the preferred processing platform across different domains such...
As the energy cost in todays computing systems keeps increasing, measuring the energy becomes crucia...
Accurate per-task energy estimation in multicore systems would allow performing per-task energy-awar...
This paper presents a novel energy attribution and accounting architecture for multi-core systems th...
Proposals have focused on reducing energy requirements for large-scale computing facilities (LSCFs),...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
High-performance computing platforms have become critical in meeting the demands of modern computing...
This whitepaper describes the technical side of a research work into the energy-efficiency tradeoffs...
Power consumption is an important design constraint for computers. Many power management policies ha...
The ability to predict the energy needed by a system to perform a task, or several concurrent parall...
In this paper we present a new accounting model for heterogeneous supercomputers. An increasing numb...
Energy transparency is a concept that makes a program’s energy consumption visible, from hardware up...
An effective way to improve energy efficiency is to throttle hardware resources to meet a certain Qo...
We present for the first time the concept of per-task energy accounting (PTEA) and relate it to per-...
Energy has become arguably the most expensive resource in a computing system. As multi-core processo...
Chip multicore processors (CMPs) are the preferred processing platform across different domains such...
As the energy cost in todays computing systems keeps increasing, measuring the energy becomes crucia...
Accurate per-task energy estimation in multicore systems would allow performing per-task energy-awar...
This paper presents a novel energy attribution and accounting architecture for multi-core systems th...
Proposals have focused on reducing energy requirements for large-scale computing facilities (LSCFs),...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
High-performance computing platforms have become critical in meeting the demands of modern computing...
This whitepaper describes the technical side of a research work into the energy-efficiency tradeoffs...
Power consumption is an important design constraint for computers. Many power management policies ha...
The ability to predict the energy needed by a system to perform a task, or several concurrent parall...
In this paper we present a new accounting model for heterogeneous supercomputers. An increasing numb...
Energy transparency is a concept that makes a program’s energy consumption visible, from hardware up...
An effective way to improve energy efficiency is to throttle hardware resources to meet a certain Qo...