Virtual Platform for Embedded System Power Estimation

International audienceIn this paper, we propose a virtual platform for power estimation of processor based embedded systems. Our platform consists of a combination of Functional Level Power Analysis (FLPA) for power modeling and fast system prototyping for transactional simulation. In this proposal, we aim at esti- mating power automatically with the help of power models and SystemC IP libraries. These libraries are enriched with different power models and various hardware components required by the embedded platforms. This will allow to use our proposed virtual platform to port various hardware systems and applications in the same environment in order to satisfy the requirements of reliable and efficient design space exploration. Our experiments performed on this virtual embedded platform show that the obtained power estimation results are less than 3% of error in an average for all the processor when compared to the real board measurements

An Efficient Power Estimation Methodology for Complex RISC Processor-based Platforms

International audienceIn this contribution, we propose an efficient power estima- tion methodology for complex RISC processor-based plat- forms. In this methodology, the Functional Level Power Analysis (FLPA) is used to set up generic power models for the different parts of the system. Then, a simulation framework based on virtual platform is developed to evalu- ate accurately the activities used in the related power mod- els. The combination of the two parts above leads to a het- erogeneous power estimation that gives a better trade-off be- tween accuracy and speed. The usefulness and effectiveness of our proposed methodology is validated through ARM9 and ARM CortexA8 processor designed respectively around the OMAP5912 and OMAP3530 boards. This efficiency and the accuracy of our proposed methodology is evaluated by using a variety of basic programs to complete media bench- marks. Estimated power values are compared to real board measurements for the both ARM940T and ARM CortexA8 architectures. Our obtained power estimation results pro- vide less than 3% of error for ARM940T processor, 3.5% for ARM CortexA8 processor-based system and 1x faster compared to the state-of-the-art power estimation tools

System-Level Power Estimation Methodology for MPSoC based Platforms

Avec l'essor des nouvelles technologies d'intégration sur silicium submicroniques, la consommation de puissance dans les systèmes sur puce multiprocesseur (MPSoC) est devenue un facteur primordial au niveau du flot de conception. La prise en considération de ce facteur clé dès les premières phases de conception, joue un rôle primordial puisqu'elle permet d'augmenter la fiabilité des composants et de réduire le temps d'arrivée sur le marché du produit final.Shifting the design entry point up to the system-level is the most important countermeasure adopted to manage the increasing complexity of Multiprocessor System on Chip (MPSoC). The reason is that decisions taken at this level, early in the design cycle, have the greatest impact on the final design in terms of power and energy efficiency. However, taking decisions at this level is very difficult, since the design space is extremely wide and it has so far been mostly a manual activity. Efficient system-level power estimation tools are therefore necessary to enable proper Design Space Exploration (DSE) based on power/energy and timing.VALENCIENNES-Bib. électronique (596069901) / SudocSudocFranceF

System-Level Power Estimation Methodology for MPSoC based Platforms

Avec l'essor des nouvelles technologies d'intégration sur silicium submicroniques, la consommation de puissance dans les systèmes sur puce multiprocesseur (MPSoC) est devenue un facteur primordial au niveau du flot de conception. La prise en considération de ce facteur clé dès les premières phases de conception, joue un rôle primordial puisqu'elle permet d'augmenter la fiabilité des composants et de réduire le temps d'arrivée sur le marché du produit final.Shifting the design entry point up to the system-level is the most important countermeasure adopted to manage the increasing complexity of Multiprocessor System on Chip (MPSoC). The reason is that decisions taken at this level, early in the design cycle, have the greatest impact on the final design in terms of power and energy efficiency. However, taking decisions at this level is very difficult, since the design space is extremely wide and it has so far been mostly a manual activity. Efficient system-level power estimation tools are therefore necessary to enable proper Design Space Exploration (DSE) based on power/energy and timing

Une approche système pour l'estimation de la consommation de puissance des plateformes MPSoC

Shifting the design entry point up to the system-level is the most important countermeasure adopted to manage the increasing complexity of Multiprocessor System on Chip (MPSoC). The reason is that decisions taken at this level, early in the design cycle, have the greatest impact on the final design in terms of power and energy efficiency. However, taking decisions at this level is very difficult, since the design space is extremely wide and it has so far been mostly a manual activity. Efficient system-level power estimation tools are therefore necessary to enable proper Design Space Exploration (DSE) based on power/energy and timing.Avec l'essor des nouvelles technologies d'intégration sur silicium submicroniques, la consommation de puissance dans les systèmes sur puce multiprocesseur (MPSoC) est devenue un facteur primordial au niveau du flot de conception. La prise en considération de ce facteur clé dès les premières phases de conception, joue un rôle primordial puisqu'elle permet d'augmenter la fiabilité des composants et de réduire le temps d'arrivée sur le marché du produit final

A System Level Power Consumption Estimation for MPSoC

International audienceno abstrac

A system level power consumption estimation for MPSoC

International audienceno abstrac

Fast and Accurate Power Estimation Methodology for Embedded Systems

International audienc

Hybrid System Level Power Consumption Estimation for 29FPGA-Based MPSoC

International audienceno abstrac

Fast and Accurate Hybrid Power Estimation Methodology for Embedded Systems

International audienc