- 1.Advanced RISC Machines Ltd (ARM), ARM Software Development Toolkit Version 2.11, 1996.Google Scholar
- 2.G. Q. Maguire, M. Smith, H. W. Peter Beadle, "SmartBadges: a wearable computer and communication system," Invited talk slides url: www.it, kth.se/maguire/Talks/CODES- gSO313.pdf, 6th International Workshop on Hardware/Software Codesign, 1998.Google Scholar
- 3.T. Simunic, L. Benini, G. De Micheli, "Cycle-Accurate Simulation of Energy Consumption in Embedded Systems,'' to appear in Proceedings of DAC, 1999. Google ScholarDigital Library
- 4.M. Pedram, Q. Wu, "Battery-Powered Digital CMOS Design," Proceedings of DATE, 1999. Google ScholarDigital Library
- 5.H. Mehta, R.M. Owens, M.j. Irvin, R. Chen, D. Ghosh, "Techniques for Low Energy Software," Proceedings of ISLPED, pp. 72-75, 1997. Google ScholarDigital Library
- 6."Commercial NiMH Technology Evaluation," Proceedings of the 12th Battery Conference, p.9-15,1997.Google Scholar
- 7."A PSPICE Macromodel for Lithium-Ion Battery Systems,'' Proceedings of the 12th Battery Conference, p.215-222,1997.Google Scholar
- 8."Writing Efficient C for ARM," Application Note 3~, ARM Inc., January 1998.Google Scholar
- 9.V. Tiwari, S. Malik, A. Wolfe, M. Lee, "instruction Level Power Analysis and Optimization of Software," Journal of VLSI Signal Processing Systems, vol 13, no.2-3, pp.223-2383, 1996. Google ScholarDigital Library
- 10.V. Tiwari, S. Malik, A. Wolfe, "Power Analysis of Embedded Software: A First Step Towards Software Power Minimization," IEEE T~ansactions on VLSI Systems, vol. 2, no.4, pp.437-445, December 1994. Google ScholarDigital Library
- 11.H. Tomyiama, H., T. Ishihara, A. Inoue, H. Yasuura, "Instruction scheduling for power reduction in processor-based system design," Proceedings of Design, Automation and Test in Europe, pp. 23-26, February 1998. Google ScholarDigital Library
- 12.Y. Li and J. Henkel, "A Framework for Estimating and Minimizing Energy Dissipation of Embedded HW/SW Systems," Proceedings of DAC 1998, pp.188-193, 1998. Google ScholarDigital Library
Index Terms
- Energy-efficient design of battery-powered embedded systems
Recommendations
Energy management for battery-powered embedded systems
Portable embedded computing systems require energy autonomy. This is achieved by batteries serving as a dedicated energy source. The requirement of portability places severe restrictions on size and weight, which in turn limits the amount of energy that ...
Energy-efficient design of battery-powered embedded systems
Special issue on low power electronics and designEnergy-efficient design of battery-powered systems demands optimizations in both hardware and software. We present a modular approach for enhancing instruction level simulators with cycle-accurate simulation of energy dissipation in embedded systems. ...
An adaptive method for energy-efficiency in battery-powered embedded smart cameras
ICDSC '10: Proceedings of the Fourth ACM/IEEE International Conference on Distributed Smart CamerasWith the introduction of battery-powered wireless embedded smart cameras, it has now become viable to deploy large numbers of spatially-distributed cameras with more flexibility in terms of camera locations. However, many challenges remain to be ...
Comments