There is an increasing need for obtaining a reasonably ac-curate estimate of energy dissipation in SoC designs. Array structures have a significant contribution to the total system level energy consumption. In this paper, we propose a new methodology to develop analytical models for accurately es-timating energy dissipation in array structures. The method-ology is based on the characterization of arrays for energy as a function of micro-architecture level inputs. The coefficients of the function are extracted using circuit level simulations. We apply the proposed methodology to develop energy models for three different array structures used in the Motorola e5001 processor core. The models are validated by comparing them against post-layout ...
National audienceThis paper proposes a method for energy consumption estimation and optimisation on ...
Low power consumption has been established as the third main design target for digital systems toget...
APSIPA ASC 2010 (APSIPA Annual Summit and Conference) : December 14-17, 2010 : Biopolis, SingaporeEn...
We propose a high-level analytical model for estimating the energy and/or power dissipation in VLSI ...
This paper presents a method for energy consumption estimation and optimisation on hardware-software...
International audienceThis paper proposes a method for energy consumption estimation and optimisatio...
Abstract — The need to perform power analysis in the early stages of the design process has become c...
This paper introduces a methodology to develop energy models for the design space exploration of emb...
In recent years, power consumption has become a critical concern for many VLSI systems. Whereas seve...
9 pagesA new approach to characterize the power dissipation on complex digital signal processors (DS...
In recent years, power consumption has become a critical concern for many VLSI systems. Whereas seve...
This paper presents a methodology for cycle-accurate simulation of energy dissipation in embedded sy...
This work presents an analysis of power efficiency in microprocessor architectures targeting wide-ra...
Workshop on Embedded Systems for Real-Time Multimedia (ESTIMedia2006) : 2006年10月26日~27日:Seoul, South...
With the continuous exponential growth in complexity and the increasing performance potential of hig...
National audienceThis paper proposes a method for energy consumption estimation and optimisation on ...
Low power consumption has been established as the third main design target for digital systems toget...
APSIPA ASC 2010 (APSIPA Annual Summit and Conference) : December 14-17, 2010 : Biopolis, SingaporeEn...
We propose a high-level analytical model for estimating the energy and/or power dissipation in VLSI ...
This paper presents a method for energy consumption estimation and optimisation on hardware-software...
International audienceThis paper proposes a method for energy consumption estimation and optimisatio...
Abstract — The need to perform power analysis in the early stages of the design process has become c...
This paper introduces a methodology to develop energy models for the design space exploration of emb...
In recent years, power consumption has become a critical concern for many VLSI systems. Whereas seve...
9 pagesA new approach to characterize the power dissipation on complex digital signal processors (DS...
In recent years, power consumption has become a critical concern for many VLSI systems. Whereas seve...
This paper presents a methodology for cycle-accurate simulation of energy dissipation in embedded sy...
This work presents an analysis of power efficiency in microprocessor architectures targeting wide-ra...
Workshop on Embedded Systems for Real-Time Multimedia (ESTIMedia2006) : 2006年10月26日~27日:Seoul, South...
With the continuous exponential growth in complexity and the increasing performance potential of hig...
National audienceThis paper proposes a method for energy consumption estimation and optimisation on ...
Low power consumption has been established as the third main design target for digital systems toget...
APSIPA ASC 2010 (APSIPA Annual Summit and Conference) : December 14-17, 2010 : Biopolis, SingaporeEn...