Controlling power usage has become a core objective in modern computing platforms. In this article we present an innovative Time Warp architecture oriented to efficiently run parallel simulations under a power cap. Our architectural organization considers power usage as a foundational design principle, as opposed to classical power-unaware Time Warp design. We provide early experimental results showing the potential of our proposal
An abstract of this work will be presented at the Compiler, Architecture and Tools Conference (CATC)...
The order according to which the different tasks are carried out within a Time Warp platform has a d...
In this paper, we present PARTSim, an open-source power/thermal-aware simulator for embedded real-ti...
Controlling power usage has become a core objective in modern computing platforms. In this article w...
While transitioning to exascale systems, it has become clear that power management plays a fundament...
Energy consumption has become a core concern in computing systems. In this context, power capping is...
open3siWork supported by the EU FETHPC project ANTAREX (g.a. 671623),EU project ExaNoDe (g.a. 671578...
It is well known that Time Warp may suffer from large usage of memory, which may hamper the efficien...
Although Parallel Discrete Event Simulation (PDES) platforms relying on the Time Warp (optimistic) s...
Multi-threaded applications facilitate the exploitation of the computing power of multicore architec...
Journal ArticleA variation of the Time Warp parallel discrete event simulation mechanism is presente...
In current computing systems, many applications require guarantees on their maximum power consumptio...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
Cavazos, JohnAs the high-performance computing (HPC) community continues the push towards exascale ...
textIncreasing power dissipation is one of the most serious challenges facing designers in the micro...
An abstract of this work will be presented at the Compiler, Architecture and Tools Conference (CATC)...
The order according to which the different tasks are carried out within a Time Warp platform has a d...
In this paper, we present PARTSim, an open-source power/thermal-aware simulator for embedded real-ti...
Controlling power usage has become a core objective in modern computing platforms. In this article w...
While transitioning to exascale systems, it has become clear that power management plays a fundament...
Energy consumption has become a core concern in computing systems. In this context, power capping is...
open3siWork supported by the EU FETHPC project ANTAREX (g.a. 671623),EU project ExaNoDe (g.a. 671578...
It is well known that Time Warp may suffer from large usage of memory, which may hamper the efficien...
Although Parallel Discrete Event Simulation (PDES) platforms relying on the Time Warp (optimistic) s...
Multi-threaded applications facilitate the exploitation of the computing power of multicore architec...
Journal ArticleA variation of the Time Warp parallel discrete event simulation mechanism is presente...
In current computing systems, many applications require guarantees on their maximum power consumptio...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
Cavazos, JohnAs the high-performance computing (HPC) community continues the push towards exascale ...
textIncreasing power dissipation is one of the most serious challenges facing designers in the micro...
An abstract of this work will be presented at the Compiler, Architecture and Tools Conference (CATC)...
The order according to which the different tasks are carried out within a Time Warp platform has a d...
In this paper, we present PARTSim, an open-source power/thermal-aware simulator for embedded real-ti...