Valderrama, Carlos ; Université de Mons > Faculté Polytechnique > Service d'Electronique et Microélectronique
Xavier-de-Souza, S.
Language :
English
Title :
Optimal Processor Dynamic-Energy Reduction for Parallel Workloads on Heterogeneous Multi-core Architectures
Publication date :
22 May 2015
Journal title :
Microprocessors and Microsystems
ISSN :
0141-9331
Publisher :
Elsevier, Netherlands
Volume :
Volume 39
Issue :
Issue 6, August 2015
Pages :
418-425
Peer reviewed :
Peer Reviewed verified by ORBi
Research unit :
F109 - Electronique et Microélectronique
Research institute :
R300 - Institut de Recherche en Technologies de l'Information et Sciences de l'Informatique R450 - Institut NUMEDIART pour les Technologies des Arts Numériques
G.M. Amdahl Validity of the single processor approach to achieving large scale computing capabilities Proceedings of the Spring Joint Computer Conference, AFIPS '67 (Spring) 1967 ACM New York, NY, USA 483 485
S. Borkar, Thousand core chips - a technology perspective, in: 44th ACM/IEEE Design Automation Conference, 2007, pp. 746-749.
G. Blake, R.G. Dreslinski, and T. Mudge A survey of multicore processors: a review of their common attributes IEEE Signal Process. Mag. 26 6 2009 26 37
M.D. Hill, and M.R. Marty Amdahl's law in the multicore era IEEE Comput. 41 7 2008 33 38
T.Y. Morad, U.C. Weiser, A. Kolodny, M. Valero, and E. Ayguadé Performance, power efficiency and scalability of asymmetric cluster chip multiprocessors IEEE Comput. Archit. Lett. 5 1 2006 14 17
D.H. Woo, and H.-H.S. Lee Extending Amdahl's law for energy-efficient computing in the many-core era Computer 2008 24 31
A.S. Cassidy, and A.G. Andreou Beyond Amdahl's law: an objective function that links multiprocessor performance gains to delay and energy IEEE Trans. Comput. 61 8 2012 1110 1126
T. Zidenberg, I. Keslassy, and U. Weiser MultiAmdahl: how should i divide my heterogenous chip? IEEE Comput. Archit. Lett. 11 2 2012 65 68
R. Ge, K.W. Cameron, Power-aware speedup, in: IEEE International Parallel and Distributed Processing Symposium, 2007, pp. 1-10.
K.W. Cameron, and R. Ge Generalizing Amdahl's law for power and energy Computer 45 3 2012 75 77
S. Cho, and R.G. Melhem Corollaries to Amdahl's law for energy IEEE Comput. Archit. Lett. 7 1 2008 25 28
S.M. Londoño, J.P. De Gyvez, Extending Amdahl's law for energy-efficiency, in: International Conference on Energy Aware Computing, ICEAC 2010, 2010, pp. 1-4.
Q. Wu, P. Juang, M. Martonosi, D.W. Clark, Voltage and frequency control with adaptive reaction time in multiple-clock-domain processors, in: 11th International Symposium on High-Performance Computer Architecture, 2005, pp. 178-189.
A. Murali, E. Grochowski, and J. Shen Mitigating Amdahl's law through EPI throttling 32nd International Symposium on Computer Architecture (ISCA'05) 2005 IEEE 298 309
R. Kumar, D.M. Tullsen, N.P. Jouppi, Core architecture optimization for heterogeneous chip multiprocessors, in: Proceedings of the 15th International Conference on Parallel Architectures and Compilation Techniques - PACT '06, 2006, p. 23.
J.L. Aragón, J. González, A. González, Power-aware control speculation through selective throttling, in: Proceedings of The Ninth International Symposium on High-Performance Computer Architecture, 2003, pp. 103-112.
R. Kumar, D.M. Tullsen, N.P. Jouppi, and P. Ranganathan Heterogeneous chip multiprocessors Computer 38 11 2005 32 38
B. Chatterjee, M. Sachdev, S. Hsu, R. Krishnamurthy, S. Borkar, Effectiveness and scaling trends of leakage control techniques for sub-130 nm CMOS technologies, in: Proceedings of the 2003 International Symposium on Low Power Electronics and Design, 2003, pp. 122-127.
S. Borkar Circuit techniques for subthreshold leakage avoidance, control and tolerance Electron Devices Meeting, 2004, IEDM Technical Digest 2004 IEEE International 421 424
J.D. Gelas, The Quest for More Processing Power, Part One: Is the Single Core CPU Doomed? 2005. < http://www.anandtech.com/show/1611 > (accessed 01.02.14).
T. Mudge Power: a first-class architectural design constraint Computer 34 4 2001 52 58
V. Venkatachalam, and M. Franz Power reduction techniques for microprocessor systems ACM Comput. Surv. 37 3 2005 195 237
E.F. Weglarz, K.K. Saluja, M.H. Lipasti, Minimizing energy consumption for high-performance processing, in: Proceeding of Design Automation Conference, 2002 - ASP-DAC 2002, 7th Asia and South Pacific and the 15th International Conference on VLSI Design, 2002, pp. 199-204.
D.R. Suleiman, M.A. Ibrahim, I.I. Hamarash, Dynamic voltage frequency scaling (DVFS) for microprocessors power and energy reduction, in: 4th International Conference on Electrical and Electronics Engineering, 2005.
A.D.D. Lima, C.A. Barros, L.F.Q. Silveira, S. Xavier-de Souza, and C.A. Valderrama Parallel cyclostationarity-exploiting algorithm for energy-efficient spectrum sensing IEICE Trans. Commun. E97-B 2 2014 326 333
S. Usman, S.U. Khan, S. Khan, A comparative study of voltage/frequency scaling in NoC, in: IEEE International Conference on Electro/Information Technology (EIT), 2013, 2013, pp. 1-5.
R. Basmadjian, H. Meer, Evaluating and modeling power consumption of multi-core processors, in: Third International Conference on Future Energy Systems: Where Energy, Computing and Communication Meet (e-Energy), 2012, 2012, pp. 1-10.
