Memories are known to be the energy bottleneck of portable embedded devices. Numerous memory aware energy optimizations have been proposed. However, both the optimization and the validation are performed in an ad-hoc manner as a coherent optimizing compilation and simulation framework does not exist as yet. In this paper, we present such a framework for performing memory hierarchy aware energy optimization. Both the compiler and the simulator are configured from a single memory hierarchy description. Significant savings of up to 50% in the total energy dissipation are reporte
Energy-ecient design of battery-powered embedded sys tems demands optimizations in both hardware and...
In this paper, we present the Energy-Aware Modeling and Optimization Methodology (E-AMOM) framework,...
With the advent of mobile and handheld devices, power consumption in embedded systems has become a k...
Memories are known to be the energy bottleneck of portable embedded devices. Numerous memory aware e...
The demand for high-performance architectures and powerful battery-operated mobile devices has accen...
Memory system usually consumes a significant amount of energy in many battery-operated devices. In t...
This paper studies the overhead of data memory optimizations on the instruction memories in embedded...
Abstract—Main memory is one of the primary shared resources in a virtualized environment. Current tr...
The increased demand on the long battery life of complex SoC systems requires power/energy aware met...
Abstract. For mobile embedded systems, the energy consumption is a limiting factor because of today’...
Abstract—Optimizing for energy constraints is of critical importance due to the proliferation of bat...
Estimating energy consumption already during development as precisely as possible is crucial for man...
This paper addresses the problem of minimizing the energy consumption by the memory subsystem in an ...
ICOOOLPS'2006 was co-located with the 20th European Conference on Object-Oriented Programming (ECOOP...
Deeply embedded systems often have the tightest constraints on energy consumption, requiring that th...
Energy-ecient design of battery-powered embedded sys tems demands optimizations in both hardware and...
In this paper, we present the Energy-Aware Modeling and Optimization Methodology (E-AMOM) framework,...
With the advent of mobile and handheld devices, power consumption in embedded systems has become a k...
Memories are known to be the energy bottleneck of portable embedded devices. Numerous memory aware e...
The demand for high-performance architectures and powerful battery-operated mobile devices has accen...
Memory system usually consumes a significant amount of energy in many battery-operated devices. In t...
This paper studies the overhead of data memory optimizations on the instruction memories in embedded...
Abstract—Main memory is one of the primary shared resources in a virtualized environment. Current tr...
The increased demand on the long battery life of complex SoC systems requires power/energy aware met...
Abstract. For mobile embedded systems, the energy consumption is a limiting factor because of today’...
Abstract—Optimizing for energy constraints is of critical importance due to the proliferation of bat...
Estimating energy consumption already during development as precisely as possible is crucial for man...
This paper addresses the problem of minimizing the energy consumption by the memory subsystem in an ...
ICOOOLPS'2006 was co-located with the 20th European Conference on Object-Oriented Programming (ECOOP...
Deeply embedded systems often have the tightest constraints on energy consumption, requiring that th...
Energy-ecient design of battery-powered embedded sys tems demands optimizations in both hardware and...
In this paper, we present the Energy-Aware Modeling and Optimization Methodology (E-AMOM) framework,...
With the advent of mobile and handheld devices, power consumption in embedded systems has become a k...