Add to ORKGWe investigate the benefits that an energy-aware implementation of the runtime in charge of the concurrent execution of ILUPACK—a sophisticated preconditioned iterative solver for sparse linear systems—produces on the time-power-energy balance of the application. Furthermore, to connect the experimental results with the theory, we propose several simple yet accurate power models that capture the variations of average power that result from the introduction of the energy-aware strategies as well as the impact of the P-states into ILUPACK’s runtime, at high accuracy, on two distinct platforms based on multicore technology from AMD and Intel.Peer Reviewe
We develop a new energy-aware methodology to improve the energy consumption of a task-parallel preco...
In this paper, we propose a model for the energy consumption of the concurrent execution of three ke...
In this paper we conduct a detailed analysis of the sources of power dissipation and energy consumpt...
We investigate the benefits that an energy-aware implementation of the runtime in charge of the conc...
We investigate the benefits that an energyaware implementation of the runtime in charge of the con...
We investigate the benefits that an energyaware implementation of the runtime in charge of the con...
We analyze the energy-performance balance of a task-parallel computation of an ILU-based preconditio...
We analyze the energy-performance balance of a task-parallel computation of an ILU-based preconditio...
This is the pre-peer reviewed version of the following article: Energy‐aware strategies for task‐par...
This is the pre-peer reviewed version of the following article: Energy‐aware strategies for task‐par...
Ponència presentada al 2nd Workshop on Power-Aware Computing (PACO 2017) Ringberg Castle, Germany, J...
Sparse and irregular computations constitute a large fraction of applications in the data-intensive ...
We analyze the efficiency of servers equipped with state-of-the-art general-purpose multicore proces...
En esta tesis doctoral se aborda la solución de sistemas dispersos de ecuaciones lineales utilizando...
En esta tesis doctoral se aborda la solución de sistemas dispersos de ecuaciones lineales utilizando...
We develop a new energy-aware methodology to improve the energy consumption of a task-parallel preco...
In this paper, we propose a model for the energy consumption of the concurrent execution of three ke...
In this paper we conduct a detailed analysis of the sources of power dissipation and energy consumpt...
We investigate the benefits that an energy-aware implementation of the runtime in charge of the conc...
We investigate the benefits that an energyaware implementation of the runtime in charge of the con...
We investigate the benefits that an energyaware implementation of the runtime in charge of the con...
We analyze the energy-performance balance of a task-parallel computation of an ILU-based preconditio...
We analyze the energy-performance balance of a task-parallel computation of an ILU-based preconditio...
This is the pre-peer reviewed version of the following article: Energy‐aware strategies for task‐par...
This is the pre-peer reviewed version of the following article: Energy‐aware strategies for task‐par...
Ponència presentada al 2nd Workshop on Power-Aware Computing (PACO 2017) Ringberg Castle, Germany, J...
Sparse and irregular computations constitute a large fraction of applications in the data-intensive ...
We analyze the efficiency of servers equipped with state-of-the-art general-purpose multicore proces...
En esta tesis doctoral se aborda la solución de sistemas dispersos de ecuaciones lineales utilizando...
En esta tesis doctoral se aborda la solución de sistemas dispersos de ecuaciones lineales utilizando...
We develop a new energy-aware methodology to improve the energy consumption of a task-parallel preco...
In this paper, we propose a model for the energy consumption of the concurrent execution of three ke...
In this paper we conduct a detailed analysis of the sources of power dissipation and energy consumpt...