Asymmetric multi-core architectures, such as the ARM big.LITTLE, are emerging as successful solutions for the embedded and mobile markets due to their capabilities to trade-off performance and power consumption. However, both the Heterogeneous Multi-Processing (HMP) scheduler integrated in the commercial products and the previous research approaches are not able to fully exploit such potentiality. We propose a new runtime resource management policy for the big. LITTLE architecture integrated in Linux aimed at optimizing the power consumption while fulfilling performance requirements specified for the running applications. Experimental results show an improvement of the 11% on the performance and at the same time 8% in peak power consumption...
International audienceIn this paper, we address the problem of executing (soft) real-time data proce...
Heterogeneous multiprocessing (HMP) is an emerging technology for high-performance and energy-effici...
none5siThis paper presents a power-aware scheduling algorithm based on efficient distribution of the...
Asymmetric multi-core architectures, such as the ARM big.LITTLE, are emerging as successful solution...
As battery-powered embedded devices move towards multicore processors, multicore energy efficiency i...
Heterogeneous processors (e.g., ARM’s big.LITTLE) improve performance in power-constrained environme...
ARM big.LITTLE architectures are spreading more and more in the mobile world thanks to their power-s...
Asymmetric single-ISA multicore processors (AMPs), which integrate high-performance big cores and lo...
Energy efficiency has become the main challenge for high performance computing (HPC). The use of mob...
Heterogeneous multi-cores that integrate cores with differ-ent power-performance characteristics are...
Asymmetric multi-cores (AMCs) are a successful architectural solution for both mobile devices and su...
Recently, under a fixed power budget, asymmetric multiprocessors (AMP) have been proposed to improve...
Asymmetric single-ISA multicore processors (AMPs), which integrate high-performance big cores and lo...
Heterogeneous multicores offer flexibility in the form of different core types and Dynamic Voltage a...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
International audienceIn this paper, we address the problem of executing (soft) real-time data proce...
Heterogeneous multiprocessing (HMP) is an emerging technology for high-performance and energy-effici...
none5siThis paper presents a power-aware scheduling algorithm based on efficient distribution of the...
Asymmetric multi-core architectures, such as the ARM big.LITTLE, are emerging as successful solution...
As battery-powered embedded devices move towards multicore processors, multicore energy efficiency i...
Heterogeneous processors (e.g., ARM’s big.LITTLE) improve performance in power-constrained environme...
ARM big.LITTLE architectures are spreading more and more in the mobile world thanks to their power-s...
Asymmetric single-ISA multicore processors (AMPs), which integrate high-performance big cores and lo...
Energy efficiency has become the main challenge for high performance computing (HPC). The use of mob...
Heterogeneous multi-cores that integrate cores with differ-ent power-performance characteristics are...
Asymmetric multi-cores (AMCs) are a successful architectural solution for both mobile devices and su...
Recently, under a fixed power budget, asymmetric multiprocessors (AMP) have been proposed to improve...
Asymmetric single-ISA multicore processors (AMPs), which integrate high-performance big cores and lo...
Heterogeneous multicores offer flexibility in the form of different core types and Dynamic Voltage a...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
International audienceIn this paper, we address the problem of executing (soft) real-time data proce...
Heterogeneous multiprocessing (HMP) is an emerging technology for high-performance and energy-effici...
none5siThis paper presents a power-aware scheduling algorithm based on efficient distribution of the...