In this paper, we introduce a novel modeling tech- nique to reduce the time associated with cycle-accurate simula- tion of parallel applications deployed on many-core embedded platforms. We introduce an ensemble model based on artificial neural networks that exploits (in the training phase) multiple levels of simulation abstraction, from cycle-accurate to cycle- approximate, to predict the cycle-accurate results for unknown application configurations. We show that high-level modeling can be used to significantly reduce the number of low-level model evaluations provided that a suitable artificial neural network is used to aggregate the results. We propose a methodology for the design and optimization of such an ensemble model and we assess t...
Since the computational needs precipitously grow each year, HPC technology becomes a driving force f...
As deep sub-micron technologies advance, architectures of microprocessors have evolved from traditio...
Computer architects heavily rely on software simulation to evaluate new and existing processor desig...
In this paper, we introduce a novel modeling tech- nique to reduce the time associated with cycle-ac...
Computer architects extensively use simulation to steer future processor research and development. S...
Large core counts and complex cache hierarchies are increasing the burden placed on commonly used si...
Simulation is an important means of evaluating new microarchitectures. With the invention of multi-c...
Today, even the simplest laptop processor has at least four cores and a graphics card containing ten...
AbstractTransistor density has made possible the design of massively parallel architectures with hun...
Instruction-level simulation is necessary to evaluate new ar-chitectures. However, single-node simul...
In recent years, the research focus has moved from core microarchitecture to uncore microarchitectur...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
Simulation speed matters for neuroscientific research: this includes not only how fast the simulated...
Architectural simulation is time-consuming, and the trend towards hundreds of cores is making sequen...
Industry trends indicate that many-core heterogeneous processors will be the next-generation answer ...
Since the computational needs precipitously grow each year, HPC technology becomes a driving force f...
As deep sub-micron technologies advance, architectures of microprocessors have evolved from traditio...
Computer architects heavily rely on software simulation to evaluate new and existing processor desig...
In this paper, we introduce a novel modeling tech- nique to reduce the time associated with cycle-ac...
Computer architects extensively use simulation to steer future processor research and development. S...
Large core counts and complex cache hierarchies are increasing the burden placed on commonly used si...
Simulation is an important means of evaluating new microarchitectures. With the invention of multi-c...
Today, even the simplest laptop processor has at least four cores and a graphics card containing ten...
AbstractTransistor density has made possible the design of massively parallel architectures with hun...
Instruction-level simulation is necessary to evaluate new ar-chitectures. However, single-node simul...
In recent years, the research focus has moved from core microarchitecture to uncore microarchitectur...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
Simulation speed matters for neuroscientific research: this includes not only how fast the simulated...
Architectural simulation is time-consuming, and the trend towards hundreds of cores is making sequen...
Industry trends indicate that many-core heterogeneous processors will be the next-generation answer ...
Since the computational needs precipitously grow each year, HPC technology becomes a driving force f...
As deep sub-micron technologies advance, architectures of microprocessors have evolved from traditio...
Computer architects heavily rely on software simulation to evaluate new and existing processor desig...