Embedded Systems Energy Consumption Analysis Through Co-Modelling And Simulation
| Autor: | Jose Antonio Esparza Isasa, Finn Overgaard Hansen, Peter Gorm Larsen |
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| Jazyk: | angličtina |
| Rok vydání: | 2013 |
| Předmět: | |
| Zdroj: | Aarhus University Esparza Isasa, J A, Hansen, F O & Larsen, P G 2013, ' Embedded Systems Energy Consumption Analysis Through Co-modelling and Simulation ', World Academy of Science, Engineering and Technology. Proceedings, vol. 78, pp. 424-430 . < http://www.waset.org/journals/waset/v78/v78-74.pdf > |
| DOI: | 10.5281/zenodo.1080128 |
| Popis: | This paper presents a new methodology to study power and energy consumption in mechatronic systems early in the development process. This new approach makes use of two modeling languages to represent and simulate embedded control software and electromechanical subsystems in the discrete event and continuous time domain respectively within a single co-model. This co-model enables an accurate representation of power and energy consumption and facilitates the analysis and development of both software and electro-mechanical subsystems in parallel. This makes the engineers aware of energy-wise implications of different design alternatives and enables early trade-off analysis from the beginning of the analysis and design activities. {"references":["John Fitzgerald and Peter Gorm Larsen and Marcel Verhoef, \"Vienna\nDevelopment Method,\" Wiley Encyclopedia of Computer Science and\nEngineering, 2008, edited by Benjamin Wah, John Wiley & Sons, Inc.","Peter Gorm Larsen and Nick Battle and Miguel Ferreira and John\nFitzgerald and Kenneth Lausdahl and Marcel Verhoef, \"The Overture\nInitiative - Integrating Tools for VDM,\" ACM Software Engineering\nNotes, vol. 35, no. 1, p. , January 2010. (Online). Available:\n{http://dl.acm.org/citation.cfm?id=1668864}","Controllab products, \"http://www.20sim.com/,\" January 2013, 20-Sim\nofficial website.","C. Kleijn, 20-sim 4.1 Reference Manual, First ed. Enschede: Controllab\nProducts B.V., 2009, ISBN 978-90-79499-05-2.","J. F. Broenink and P. G. Larsen and M. Verhoef, and C. Kleijn and D.\nJovanovic and K. Pierce and F. Wouters, \"Design Support and Tooling\nfor Dependable Embedded Control Software,\" in Proceedings of Serene\n2010 International Workshop on Software Engineering for Resilient\nSystems. ACM, April 2010, pp. 77-82.","Jan Broenink et al, \"DESTECS Methodologogical Guidelines, Deliberable\n2.3,\" DESTECS consortium, Tech. Rep., August 2012.","Sandford Friedenthal, Alan Moore, Rick Steiner, A Practical Guide to\nSysML, First ed. Sanford Friendenthal: Morgan Kaufman OMG Press,\n2008, ISBN 978-0-12-374379-4.","Sheayun Lee and Andreas Ermedahl and Sang Lyul Min, \"An Accurate\nInstruction-Level Energy Consumption Model for Embedded RISC\nProcessors,\" 2001.","Mostafa E.A. Ibrahim and Markus Rupp and Hossam A. H. Fahmy, \"A\nPrecise High-Level Power Consumption Model for Embedded Systems\nSoftware,\" EURASIP Journal on Embedded Systems, vol. Volume 2011,\nno. 1, January 2011.\n[10] Y.-H. Park, S. Pasricha, F. J. Kurdahi, and N. Dutt, \"A multi-granularity\npower modeling methodology for embedded processors,\" IEEE Trans.\nVery Large Scale Integr. Syst., vol. 19, no. 4, pp. 668-681, 2011.\n[11] Ozgur Celebican and Tajana Simunic Rosing and Vincent J. III Mooney,\n\"Energy Estimation of Peripheral Devices in Embedded Systems,\" in\nProceedings of the 14th ACM Great Lakes symposium on VLSI, ser.\nGLSVLSI -04, 2004.\n[12] B. Ouni, C. Belleudy, and E. Senn, \"Accurate energy characterization\nof os services in embedded systems,\" EURASIP Journal on Embedded\nSystems, vol. 2012, no. 1, p. 6, 2012.\n[13] N. Vijaykrishnan, M. Kandemir, M. J. Irwin, H. S. Kim, and W. Ye,\n\"Energy-driven integrated hardware-software optimizations using simplepower,\"\nSIGARCH Comput. Archit. News, vol. 28, no. 2, pp. 95-106,\nMay 2000.\n[14] Q. Wang, M. Hempstead, and W. Yang, \"A realistic power consumption\nmodel for wireless sensor network devices,\" in Sensor and Ad Hoc\nCommunications and Networks, 2006. SECON -06. 2006 3rd Annual\nIEEE Communications Society on, vol. 1, sept. 2006, pp. 286 -295.\n[15] F. Zhang, Z. Shi, and W. Wolf, \"A dynamic battery model\nfor co-design in cyber-physical systems,\" in Proceedings of the\n2009 29th IEEE International Conference on Distributed Computing\nSystems Workshops, ser. ICDCSW -09. Washington, DC, USA:\nIEEE Computer Society, 2009, pp. 51-56. (Online). Available:\nhttp://dx.doi.org/10.1109/ICDCSW.2009.62\n[16] R. Rao, S. Vrudhula, and D. N. Rakhmatov, \"Battery modeling for\nenergy-aware system design,\" Computer, vol. 36, no. 12, pp. 77-87, Dec.\n2003. (Online). Available: http://dx.doi.org/10.1109/MC.2003.1250886\n[17] A. Tiwari, M. A. Laurenzano, L. Carrington, and A. Snavely, \"Modeling\nPower and Energy Usage of HPC Kernels,\" in Proceedings of the 2012\nIEEE 26th International Parallel and Distributed Processing Symposium\nWorkshops & PhD Forum, ser. IPDPSW -12. Washington, DC, USA:\nIEEE Computer Society, 2012, pp. 990-998."]} |
| Databáze: | OpenAIRE |
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