International audienceThe energy efficiency of a Multiprocessor SoC (MPSoC) is enhanced by complex hardware features such as Dynamic Voltage and Frequency Scaling (DVFS) and Dynamic Power Management (DPM). This paper proposes a methodology to learn an energy model from real power measurements. From this energy model, a convex optimization framework can determine the optimal energy efficient operating point in terms of frequency and number of active cores in an MPSoC. Experimental data are reported using a Samsung Exynos 5410 MPSoC. They show that a precise yet relatively simple model can be derived. © 2017 ACM
In this paper, we present the Energy-Aware Modeling and Optimization Methodology (E-AMOM) framework,...
This paper introduces a methodology to develop energy models for the design space exploration of emb...
Energy management is a problem of all types of computing devices. For example, short battery life is...
International audienceThe energy efficiency of a Multiprocessor SoC (MPSoC) is enhanced by complex h...
The increasing processing capability of Multi-Processor Systemson-Chips (MPSoCs) is leading to an in...
Energy optimization is one of the most critical objectives for the synthesis of multiprocessor syste...
The increasing processing capability of Multi-Processor Systems-on-Chips (MPSoCs) is leading to an i...
none3Estimating the energy consumption of software in multiprocessor systems-on-chip (MPSoCs) is cru...
International audienceCurrently, designing low-power complex embedded systems is a main challenge fo...
The ever-increasing computational workload enforces new design approaches for Hardware (HW) and Soft...
International audienceThis article proposes a method to estimate and optimize energy consumption in ...
Energy optimization is an increasingly important aspect of today's high-performance computing applic...
Energy management is a critical challenge in multi-core processors due to continuous technology scal...
Optimizing computing and communication systems that host energy-critical applications is becoming a ...
Abstract. Early energy estimation is increasingly important in MultiProcessor System-On-Chip (MPSoC)...
In this paper, we present the Energy-Aware Modeling and Optimization Methodology (E-AMOM) framework,...
This paper introduces a methodology to develop energy models for the design space exploration of emb...
Energy management is a problem of all types of computing devices. For example, short battery life is...
International audienceThe energy efficiency of a Multiprocessor SoC (MPSoC) is enhanced by complex h...
The increasing processing capability of Multi-Processor Systemson-Chips (MPSoCs) is leading to an in...
Energy optimization is one of the most critical objectives for the synthesis of multiprocessor syste...
The increasing processing capability of Multi-Processor Systems-on-Chips (MPSoCs) is leading to an i...
none3Estimating the energy consumption of software in multiprocessor systems-on-chip (MPSoCs) is cru...
International audienceCurrently, designing low-power complex embedded systems is a main challenge fo...
The ever-increasing computational workload enforces new design approaches for Hardware (HW) and Soft...
International audienceThis article proposes a method to estimate and optimize energy consumption in ...
Energy optimization is an increasingly important aspect of today's high-performance computing applic...
Energy management is a critical challenge in multi-core processors due to continuous technology scal...
Optimizing computing and communication systems that host energy-critical applications is becoming a ...
Abstract. Early energy estimation is increasingly important in MultiProcessor System-On-Chip (MPSoC)...
In this paper, we present the Energy-Aware Modeling and Optimization Methodology (E-AMOM) framework,...
This paper introduces a methodology to develop energy models for the design space exploration of emb...
Energy management is a problem of all types of computing devices. For example, short battery life is...