| Property |
Value |
| dbo:abstract
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- La gestion de l’énergie dans les systèmes embarqués est fondamentale pour leur bon fonctionnement. Le nombre de ces systèmes est en augmentation constante et leurs domaines d’utilisation sont de plus en plus variés. Les contraintes sont très différentes selon que la conception porte sur un capteur environnemental, un téléphone portable ou une sonde corporelle. L’objectif principal peut être une grande longévité, une taille réduite ou encore un fonctionnement sans batterie. En plus des sources d’énergies utilisables, l'article aborde les méthodes permettant d’analyser la consommation énergétique d'un système et donc de valider que telle méthode est plus efficace que telle autre, dans l’atteinte d'objectifs précis. Deux domaines sont pris en exemple pour pointer le fait que les objectifs peuvent grandement différer en fonction de l'utilisation qui est faite du système embarqué : les téléphones portables et les capteurs corporels. L'optimisation de la consommation peut être réalisée selon différentes méthodes, dont certaines peuvent même être combinées. L’amélioration peut par exemple se faire au niveau matériel, en pilotant sélectivement certains composants ou périphériques. Des composants particuliers peuvent également être sélectionnés dès la conception, en fonction des objectifs recherchés. L’amélioration peut également être de type logicielle (système d’exploitation, type du code, programmation de l’applicatif,…). Beaucoup d’éléments participent à la consommation énergétique, dont certains ne sont pas évidents de prime abord. En fonction de la manière de coder, par exemple, un système peut consommer plus ou moins d’énergie. (fr)
- La gestion de l’énergie dans les systèmes embarqués est fondamentale pour leur bon fonctionnement. Le nombre de ces systèmes est en augmentation constante et leurs domaines d’utilisation sont de plus en plus variés. Les contraintes sont très différentes selon que la conception porte sur un capteur environnemental, un téléphone portable ou une sonde corporelle. L’objectif principal peut être une grande longévité, une taille réduite ou encore un fonctionnement sans batterie. En plus des sources d’énergies utilisables, l'article aborde les méthodes permettant d’analyser la consommation énergétique d'un système et donc de valider que telle méthode est plus efficace que telle autre, dans l’atteinte d'objectifs précis. Deux domaines sont pris en exemple pour pointer le fait que les objectifs peuvent grandement différer en fonction de l'utilisation qui est faite du système embarqué : les téléphones portables et les capteurs corporels. L'optimisation de la consommation peut être réalisée selon différentes méthodes, dont certaines peuvent même être combinées. L’amélioration peut par exemple se faire au niveau matériel, en pilotant sélectivement certains composants ou périphériques. Des composants particuliers peuvent également être sélectionnés dès la conception, en fonction des objectifs recherchés. L’amélioration peut également être de type logicielle (système d’exploitation, type du code, programmation de l’applicatif,…). Beaucoup d’éléments participent à la consommation énergétique, dont certains ne sont pas évidents de prime abord. En fonction de la manière de coder, par exemple, un système peut consommer plus ou moins d’énergie. (fr)
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- ACM Transactions on Embedded Computing Systems (fr)
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- X. (fr)
- Bo (fr)
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- Proceedings of the 2006 International Symposium on Low Power Electronics and Design, 2006. ISLPED'06. (fr)
- DAC '15 Proceedings of the 52nd Annual Design Automation Conference (fr)
- DAC '14 Proceedings of the 51st Annual Design Automation Conference (fr)
- ISSS '00 Proceedings of the 13th international symposium on System synthesis (fr)
- Proceedings. Ninth International Conference on VLSI Design, 1996. (fr)
- EmNets '07 Proceedings of the 4th workshop on Embedded networked sensors (fr)
- ACM SIGBED Review - Special Issue on 14th International Workshop on RealTime Networks (fr)
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- ISLPED '12 Proceedings of the 2012 ACM/IEEE international symposium on Low power electronics and design (fr)
- ACM Transactions on Embedded Computing Systems - Special Section LCTES'05 (fr)
- MobileHCI '07 Proceedings of the 9th international conference on Human computer interaction with mobile devices and services (fr)
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- VLSI Signal Processing, VII (fr)
- ISLPED '10 Proceedings of the 16th ACM/IEEE international symposium on Low power electronics and design (fr)
- Wireless Networks Journal (fr)
- DATE '00 Proceedings of the conference on Design, automation and test in Europe (fr)
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- IEEE International [Systems-on-Chip] SOC Conference, 2003. Proceedings. (fr)
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- ENSsys '14 Proceedings of the 2nd International Workshop on Energy Neutral Sensing Systems (fr)
- ISLPED '13 Proceedings of the 2013 International Symposium on Low Power Electronics and Design (fr)
- Proceedings Design, Automation and Test in Europe. Conference and Exhibition 2001. (fr)
- e-Energy '17 Proceedings of the Eighth International Conference on Future Energy Systems (fr)
- DATE '14 Proceedings of the conference on Design, Automation & Test in Europe (fr)
- IEEE/ACM International Conference on Computer Aided Design, 2004. ICCAD-2004. (fr)
- IEEE Transactions on Circuits and Systems I: Regular Papers (fr)
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- ISCA '09 Proceedings of the 36th annual international symposium on Computer architecture (fr)
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- CODES+ISSS '11 Proceedings of the seventh IEEE/ACM/IFIP international conference on Hardware/software codesign and system synthesis (fr)
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- Proceedings of the conference on Design, automation and test in Europe 00 (fr)
- Proceeding SOSP '01 Proceedings of the eighteenth ACM symposium on Operating systems principles (fr)
- The 14th International Symposium on System Synthesis, 2001. Proceedings. (fr)
- Proceeding SOSP '99 Proceedings of the seventeenth ACM symposium on Operating systems principles (fr)
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- IEEE Transactions on Circuits and Systems II: Express Briefs (fr)
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- ISSS '01 Proceedings of the 14th international symposium on Systems synthesis (fr)
- CODES '02 Proceedings of the tenth international symposium on Hardware/software code (fr)
- Proceedings. IEEE International Conference on Computer Design: VLSI in Computers and Processors (fr)
- DAC '08 Proceedings of the 45th annual Design Automation Conference (fr)
|
| prop-fr:site
| |
| prop-fr:titre
|
- A survey on wireless body area networks (fr)
- Energy-aware adaptation for mobile applications (fr)
- Energy management for battery-powered embedded systems (fr)
- Evaluating integrated hardware-software optimizations using a unified energy estimation framework (fr)
- Fast cache and bus power estimation for parameterized system-on-a-chip design (fr)
- Voltage-Clock-Scaling Adaptive Scheduling Techniques for Low Power in Hard Real-Time Systems (fr)
- Dependence of Voltage and Size on Write Error Rates in Spin-Transfer Torque Magnetic Random-Access Memory (fr)
- A Block-Level Flash Memory Management Scheme for Reducing Write Activities in PCM-based Embedded Systems (fr)
- Eon: a language and runtime system for perpetual systems (fr)
- Global communication and memory optimizing transformations for low power signal processing systems (fr)
- AmbiMax: Autonomous Energy Harvesting Platform for Multi-Supply Wireless Sensor Nodes (fr)
- Energy-oriented compiler optimizations for partitioned memory architectures (fr)
- A framework for estimating and minimizing energy dissipation of embedded HW/SW systems (fr)
- A discrete-time battery model for high-level power estimation (fr)
- Instruction level power analysis and optimization of software (fr)
- Modeling and Optimization of Memristor and STT-RAM-Based Memory for Low-Power Applications (fr)
- Energy-efficient design of battery-powered embedded systems (fr)
- Exploiting Scratch-Pad Memory Using Presburger Formulas (fr)
- Scratchpad memory: design alternative for cache on-chip memory in embedded systems (fr)
- A Power Manager with Balanced Quality of Service for Energy-Harvesting Wireless Sensor Nodes (fr)
- Online Energy-Aware I/O Device Scheduling for Hard Real-Time Systems (fr)
- Real-time dynamic voltage scaling for low-power embedded operating systems (fr)
- The Internet of Things - How the Next Evolution of the Internet Is Changing Everything (fr)
- Fixed Priority Scheduling Strategies for Ambient Energy-Harvesting Embedded Systems (fr)
- Source code transformation based on software cost analysis (fr)
- BattAlloc : Effective Battery Allocation against Power Outage for Cellular Base Stations (fr)
- A Lazy DVS Approach for Dynamic Real Time System (fr)
- A dynamic voltage scaled microprocessor system (fr)
- A survey on sensor networks (fr)
- Avoiding Dead Batteries (fr)
- Battery modeling for energy aware system design (fr)
- COS: A Configurable OS for Embedded SoC Systems (fr)
- DR. Swap: Energy-efficient paging for smartphones (fr)
- Demo Abstract: Hybrid-powered RFID sensor networks (fr)
- A Durable and Energy Efficient Main Memory Using Phase Change Memory Technology (fr)
- Embedded Memory Design Using Memristor (fr)
- Energy Consumption of Networked Embedded Systems (fr)
- Energy types (fr)
- Constructing Large and Fast Multi-Level Cell STT-MRAM based Cache for Embedded Processors (fr)
- Full TCP/IP for 8-Bit Architectures (fr)
- How We Found The Missing Memristor (fr)
- Human–battery interaction on mobile phones (fr)
- Influence of Compiler Optimizations on System Power (fr)
- Inductive telemetry of multiple sensor modules (fr)
- Proactive and adaptive energy-aware programming with mixed typechecking (fr)
- Emerging Non-Volatile Memories: Opportunities and Challenges (fr)
- Green: a framework for supporting energy-conscious programming using controlled approximation (fr)
- Memristor-The missing circuit element (fr)
- Operating Energy-Neutral Real-Time Systems (fr)
- Operating-System Directed Power Reduction (fr)
- Parasitic power harvesting in shoes (fr)
- Perpetual environmentally powered sensor networks (fr)
- Power analysis of embedded operating systems (fr)
- Powering the Internet of Things (fr)
- Scheduling for Reduced CPU Energy (fr)
- Software power optimizations in an embedded system (fr)
- Techniques for low energy software (fr)
- The 6LoWPAN Architecture (fr)
- Selective Restore: an Energy Efficient Read Disturbance Mitigation Scheme for Future STT-MRAM (fr)
- Energy management of embedded wireless systems through voltage and modulation scaling under probabilistic workloads (fr)
- Power-Adaptive Computing System Design for Solar-Energy-Powered Embedded Systems (fr)
- The effects of energy management on reliability in real-time embedded systems (fr)
- Power management in energy harvesting embedded systems with discrete service levels (fr)
- Universal Principles for Ultra Low Power and Energy Efficient Design (fr)
- Design considerations for solar energy harvesting wireless embedded systems (fr)
- Bandwidth Optimization and Energy Management in Real-Time Wireless Networks (fr)
- Understanding human-battery interaction on mobile phones (fr)
- Energy scavenging for mobile and wireless electronics (fr)
- Computing Optimal Schedules of Battery Usage in Embedded Systems (fr)
- Minimizing Energy Consumption of Embedded Systems via Optimal Code Layout (fr)
- Managing Hybrid On-chip Scratchpad and Cache Memories for Multi-tasking Embedded Systems (fr)
- Power management in energy harvesting sensor networks (fr)
- Power analysis of embedded software: a first step towards software power minimization (fr)
- PicoRadio supports ad hoc ultra-low power wireless networking (fr)
- Source code optimization and profiling of energy consumption in embedded systems (fr)
- SLC-enabled Wear Leveling for MLC PCM Considering Process Variation (fr)
- A survey of energy harvesting sources for embedded systems (fr)
- Advanced Low Power Spintronic Memories beyond STT-MRAM (fr)
- Extending lifetime of portable systems by battery scheduling (fr)
- A Survey on Wireless Body Area Networks: Technologies and Design Challenges (fr)
- DuraCap: a Supercapacitor-Based, Power-Bootstrapping, Maximum Power Point Tracking Energy-Harvesting System (fr)
- A Framework of Concurrent Task Scheduling and Dynamic Voltage and Frequency Scaling in Real-Time Embedded Systems with Energy Harvesting (fr)
- Reducing Charge Redistribution Loss for Supercapacitor-Operated Energy Harvesting Wireless Sensor Nodes (fr)
- Chain: Tasks and Channels for Reliable Intermittent Programs (fr)
- Voltage-clock scaling for low energy consumption in real-time embedded systems (fr)
- Energy-optimizing source code transformations for operating system-driven embedded software (fr)
- Users and batteries: interactions and adaptive energy management in mobile systems (fr)
- Comparing algorithm for dynamic speed-setting of a low-power CPU (fr)
- Design of a Solar-Harvesting Circuit for Batteryless Embedded Systems (fr)
- Context aware power management for motion-sensing body area network nodes (fr)
- Collaborative Operating System and Compiler Power Management for Real-Time Applications (fr)
- Interface exploration for reduced power in core-based systems (fr)
- Optimality and Improvement of Dynamic Voltage Scaling Algorithms for Multimedia Applications (fr)
- Utilizing PCM for Energy Optimization in Embedded Systems (fr)
- Volatile STT-RAM Scratchpad Design and Data Allocation for Low Energy (fr)
- Automated Checkpointing for Enabling Intensive Applications on Energy Harvesting Devices (fr)
- Circuit Design Advances for Wireless Sensing Applications (fr)
- A Wear-Leveling-Aware Dynamic Stack for PCM Memory in Embedded Systems (fr)
- Alternative Choice for Energy Optimization in Embedded System (fr)
- Adaptive Thermal Management for Portable System Batteries by Forced Convection Cooling (fr)
- Batteries in Portable Electronic Devices: A User's Perspective (fr)
- Extending the Lifetime of a Network of Battery-Powered Mobile Devices by Remote Processing: A Markovian Decision-based Approach (fr)
- Wireless sensor networks powered by ambient energy harvesting - Survey and challenges (fr)
- Compiler-directed array interleaving for reducing energy in multi-bank memories (fr)
- Energy modeling for mobile devices using performance counters (fr)
- Tragedy of the Coulombs: Federating Energy Storage for Tiny, Intermittently-Powered Sensors (fr)
- Design and Power Management of Energy Harvesting Embedded Systems (fr)
- The simulation and evaluation of dynamic voltage scaling algorithms (fr)
- Dynamic power management for embedded systems [SOC design] (fr)
- Energy Aware Routing Protocol for Resource Constrained Wireless Sensor Networks (fr)
- Embedded operating system energy analysis and macro-modeling (fr)
- Energy Framework: An Extensible Framework for Simulating Battery Consumption in Wireless Networks (fr)
- Battery-driven system design: a new frontier in low power design (fr)
- ER: Elastic RESET for Low Power and Long Endurance MLC based Phase Change Memory (fr)
- Human++: autonomous wireless sensors for body area networks (fr)
- Energy management in solar cells powered wireless sensor networks for quality of service optimization (fr)
- A survey on wireless body area networks (fr)
- Energy-aware adaptation for mobile applications (fr)
- Energy management for battery-powered embedded systems (fr)
- Evaluating integrated hardware-software optimizations using a unified energy estimation framework (fr)
- Fast cache and bus power estimation for parameterized system-on-a-chip design (fr)
- Voltage-Clock-Scaling Adaptive Scheduling Techniques for Low Power in Hard Real-Time Systems (fr)
- Dependence of Voltage and Size on Write Error Rates in Spin-Transfer Torque Magnetic Random-Access Memory (fr)
- A Block-Level Flash Memory Management Scheme for Reducing Write Activities in PCM-based Embedded Systems (fr)
- Eon: a language and runtime system for perpetual systems (fr)
- Global communication and memory optimizing transformations for low power signal processing systems (fr)
- AmbiMax: Autonomous Energy Harvesting Platform for Multi-Supply Wireless Sensor Nodes (fr)
- Energy-oriented compiler optimizations for partitioned memory architectures (fr)
- A framework for estimating and minimizing energy dissipation of embedded HW/SW systems (fr)
- A discrete-time battery model for high-level power estimation (fr)
- Instruction level power analysis and optimization of software (fr)
- Modeling and Optimization of Memristor and STT-RAM-Based Memory for Low-Power Applications (fr)
- Energy-efficient design of battery-powered embedded systems (fr)
- Exploiting Scratch-Pad Memory Using Presburger Formulas (fr)
- Scratchpad memory: design alternative for cache on-chip memory in embedded systems (fr)
- A Power Manager with Balanced Quality of Service for Energy-Harvesting Wireless Sensor Nodes (fr)
- Online Energy-Aware I/O Device Scheduling for Hard Real-Time Systems (fr)
- Real-time dynamic voltage scaling for low-power embedded operating systems (fr)
- The Internet of Things - How the Next Evolution of the Internet Is Changing Everything (fr)
- Fixed Priority Scheduling Strategies for Ambient Energy-Harvesting Embedded Systems (fr)
- Source code transformation based on software cost analysis (fr)
- BattAlloc : Effective Battery Allocation against Power Outage for Cellular Base Stations (fr)
- A Lazy DVS Approach for Dynamic Real Time System (fr)
- A dynamic voltage scaled microprocessor system (fr)
- A survey on sensor networks (fr)
- Avoiding Dead Batteries (fr)
- Battery modeling for energy aware system design (fr)
- COS: A Configurable OS for Embedded SoC Systems (fr)
- DR. Swap: Energy-efficient paging for smartphones (fr)
- Demo Abstract: Hybrid-powered RFID sensor networks (fr)
- A Durable and Energy Efficient Main Memory Using Phase Change Memory Technology (fr)
- Embedded Memory Design Using Memristor (fr)
- Energy Consumption of Networked Embedded Systems (fr)
- Energy types (fr)
- Constructing Large and Fast Multi-Level Cell STT-MRAM based Cache for Embedded Processors (fr)
- Full TCP/IP for 8-Bit Architectures (fr)
- How We Found The Missing Memristor (fr)
- Human–battery interaction on mobile phones (fr)
- Influence of Compiler Optimizations on System Power (fr)
- Inductive telemetry of multiple sensor modules (fr)
- Proactive and adaptive energy-aware programming with mixed typechecking (fr)
- Emerging Non-Volatile Memories: Opportunities and Challenges (fr)
- Green: a framework for supporting energy-conscious programming using controlled approximation (fr)
- Memristor-The missing circuit element (fr)
- Operating Energy-Neutral Real-Time Systems (fr)
- Operating-System Directed Power Reduction (fr)
- Parasitic power harvesting in shoes (fr)
- Perpetual environmentally powered sensor networks (fr)
- Power analysis of embedded operating systems (fr)
- Powering the Internet of Things (fr)
- Scheduling for Reduced CPU Energy (fr)
- Software power optimizations in an embedded system (fr)
- Techniques for low energy software (fr)
- The 6LoWPAN Architecture (fr)
- Selective Restore: an Energy Efficient Read Disturbance Mitigation Scheme for Future STT-MRAM (fr)
- Energy management of embedded wireless systems through voltage and modulation scaling under probabilistic workloads (fr)
- Power-Adaptive Computing System Design for Solar-Energy-Powered Embedded Systems (fr)
- The effects of energy management on reliability in real-time embedded systems (fr)
- Power management in energy harvesting embedded systems with discrete service levels (fr)
- Universal Principles for Ultra Low Power and Energy Efficient Design (fr)
- Design considerations for solar energy harvesting wireless embedded systems (fr)
- Bandwidth Optimization and Energy Management in Real-Time Wireless Networks (fr)
- Understanding human-battery interaction on mobile phones (fr)
- Energy scavenging for mobile and wireless electronics (fr)
- Computing Optimal Schedules of Battery Usage in Embedded Systems (fr)
- Minimizing Energy Consumption of Embedded Systems via Optimal Code Layout (fr)
- Managing Hybrid On-chip Scratchpad and Cache Memories for Multi-tasking Embedded Systems (fr)
- Power management in energy harvesting sensor networks (fr)
- Power analysis of embedded software: a first step towards software power minimization (fr)
- PicoRadio supports ad hoc ultra-low power wireless networking (fr)
- Source code optimization and profiling of energy consumption in embedded systems (fr)
- SLC-enabled Wear Leveling for MLC PCM Considering Process Variation (fr)
- A survey of energy harvesting sources for embedded systems (fr)
- Advanced Low Power Spintronic Memories beyond STT-MRAM (fr)
- Extending lifetime of portable systems by battery scheduling (fr)
- A Survey on Wireless Body Area Networks: Technologies and Design Challenges (fr)
- DuraCap: a Supercapacitor-Based, Power-Bootstrapping, Maximum Power Point Tracking Energy-Harvesting System (fr)
- A Framework of Concurrent Task Scheduling and Dynamic Voltage and Frequency Scaling in Real-Time Embedded Systems with Energy Harvesting (fr)
- Reducing Charge Redistribution Loss for Supercapacitor-Operated Energy Harvesting Wireless Sensor Nodes (fr)
- Chain: Tasks and Channels for Reliable Intermittent Programs (fr)
- Voltage-clock scaling for low energy consumption in real-time embedded systems (fr)
- Energy-optimizing source code transformations for operating system-driven embedded software (fr)
- Users and batteries: interactions and adaptive energy management in mobile systems (fr)
- Comparing algorithm for dynamic speed-setting of a low-power CPU (fr)
- Design of a Solar-Harvesting Circuit for Batteryless Embedded Systems (fr)
- Context aware power management for motion-sensing body area network nodes (fr)
- Collaborative Operating System and Compiler Power Management for Real-Time Applications (fr)
- Interface exploration for reduced power in core-based systems (fr)
- Optimality and Improvement of Dynamic Voltage Scaling Algorithms for Multimedia Applications (fr)
- Utilizing PCM for Energy Optimization in Embedded Systems (fr)
- Volatile STT-RAM Scratchpad Design and Data Allocation for Low Energy (fr)
- Automated Checkpointing for Enabling Intensive Applications on Energy Harvesting Devices (fr)
- Circuit Design Advances for Wireless Sensing Applications (fr)
- A Wear-Leveling-Aware Dynamic Stack for PCM Memory in Embedded Systems (fr)
- Alternative Choice for Energy Optimization in Embedded System (fr)
- Adaptive Thermal Management for Portable System Batteries by Forced Convection Cooling (fr)
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- MobiCom '95 Proceedings of the 1st annual international conference on Mobile computing and networking. Proceeding. (fr)
- ICST (fr)
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- La gestion de l’énergie dans les systèmes embarqués est fondamentale pour leur bon fonctionnement. Le nombre de ces systèmes est en augmentation constante et leurs domaines d’utilisation sont de plus en plus variés. Les contraintes sont très différentes selon que la conception porte sur un capteur environnemental, un téléphone portable ou une sonde corporelle. L’objectif principal peut être une grande longévité, une taille réduite ou encore un fonctionnement sans batterie. (fr)
- La gestion de l’énergie dans les systèmes embarqués est fondamentale pour leur bon fonctionnement. Le nombre de ces systèmes est en augmentation constante et leurs domaines d’utilisation sont de plus en plus variés. Les contraintes sont très différentes selon que la conception porte sur un capteur environnemental, un téléphone portable ou une sonde corporelle. L’objectif principal peut être une grande longévité, une taille réduite ou encore un fonctionnement sans batterie. (fr)
|
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- Gestion de l'énergie des systèmes embarqués (fr)
- Gestion de l'énergie des systèmes embarqués (fr)
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