isbn = {0-7695-2700-0},
location = {Tampa, Florida},
articleno = {107},
- doi = {10.1145/1188455.1188567},
acmid = {1188567},
publisher = {ACM},
address = {New York, NY, USA}
@article{2,
author = {Peraza , J. and Tiwari , A. and Laurenzano , M. and Carrington L. and Snavely},
- title = {{PMaC}'s green queue: a framework for selecting energy optimal {DVFS} configurations in large scale {MPI} applications},
- journal = {Concurrency Computat.: Pract. Exper.DOI: 10.1002/cpe},
+ title = {PMaC's green queue: a framework for selecting energy optimal DVFS configurations in large scale MPI applications},
+ journal = {Concurrency and Computation: Practice and Experience},
pages = {1-20},
year = {2012}
-
+ }
}
location = {San Diego, CA, USA},
pages = {275--280},
numpages = {6},
- doi = {10.1145/996566.996650},
acmid = {996650},
publisher = {ACM},
address = {New York, NY, USA},
year={2007},
month=nov,
pages={1-9},
-keywords={Clustering algorithms;Delay effects;Dynamic voltage scaling;Energy consumption;Frequency;Government;Laboratories;Large-scale systems;Linear programming;Processor scheduling},
-doi={10.1145/1362622.1362688}
+keywords={Clustering algorithms;Delay effects;Dynamic voltage scaling;Energy consumption;Frequency;Government;Laboratories;Large-scale systems;Linear programming;Processor scheduling}
}
@phdthesis {Malkowski_energy.efficient.high.performance.computing,
- author = "Malkowski, Konrad",
- title = "Co-adapting scientific applications and architectures toward energy-efficient high performance computing",
- school = "The Pennsylvania State University",
- address = "USA",
- year = "2009",
- pages = "227",
+ author = {Malkowski, Konrad},
+ title = {Co-adapting scientific applications and architectures toward energy-efficient high performance computing},
+ school = {The Pennsylvania State University},
+ address = {USA},
+ year = {2009},
+ pages = {227}
-
}
@INPROCEEDINGS{10,
year={2013},
month=sep,
pages={215-222},
-keywords={cores;microprocessor chips;optimisation;power consumption;resource allocation;scaling circuits;scheduling;ILP;crown scheduling;data flows;discrete voltage-frequency scaling;dynamic discrete frequency scaling;dynamic rescaling;energy-efficient resource allocation;energy-optimal code;integer linear programming;malleable streaming tasks;many-core processor;mapping;optimization;pipelined task graph;power consumption;processor cores;streaming task collections;Dynamic scheduling;Optimization;Processor scheduling;Radio spectrum management;Resource management;Schedules},
-doi={10.1109/PATMOS.2013.6662176}
+keywords={cores;microprocessor chips;optimisation;power consumption;resource allocation;scaling circuits;scheduling;ILP;crown scheduling;data flows;discrete voltage-frequency scaling;dynamic discrete frequency scaling;dynamic rescaling;energy-efficient resource allocation;energy-optimal code;integer linear programming;malleable streaming tasks;many-core processor;mapping;optimization;pipelined task graph;power consumption;processor cores;streaming task collections;Dynamic scheduling;Optimization;Processor scheduling;Radio spectrum management;Resource management;Schedules}
}
@INPROCEEDINGS{11,
month=sep,
pages={1-10},
keywords={directed graphs;parallel programming;power aware computing;AMD Turion;PC clusters;PowerWatch;Transmeta Crusoe;control library;directed acyclic task graph;dynamic voltage scaling;energy consumption;energy reduction;frequency scaling;high performance computing;microprocessors;parallel programs;power consumption;power monitoring tools;slack reclamation;Clustering algorithms;Concurrent computing;Dynamic voltage scaling;Energy consumption;Energy efficiency;Frequency synchronization;Gears;Libraries;Microprocessors;Monitoring},
-doi={10.1109/CLUSTR.2006.311839},
ISSN={1552-5244}
}
issn = {1094-3420},
pages = {342--350},
numpages = {9},
- doi = {10.1177/1094342011414749},
acmid = {2020813},
publisher = {Sage Publications, Inc.},
address = {Thousand Oaks, CA, USA},
}
@ARTICLE{13,
- author = {Lizhe Wang a,b, Samee U. Khan c , Dan Chen a , Joanna Kołodziej d , Rajiv Ranjan e , Cheng-zhong Xu f ,Albert Zomaya},
+ author = {Lizhe Wang a,b, Samee U. Khan c, Dan Chen a, Joanna Kołodziej d, Rajiv Ranjan e, Cheng-zhong Xu f,Albert Zomaya},
title = {Energy-aware parallel task scheduling in a cluster},
journal = {Future Generation Computer Systems},
volume = {29},
year={2009},
month=may,
pages={68-75},
-keywords={parallel processing;power aware computing;workstation clusters;cluster computer;eco-friendly daemon;energy consumption reduction;energy-efficient cluster computing;power consumption reduction;processor stall cycles;workload characterization;Application software;Clustering algorithms;Energy consumption;Energy efficiency;Frequency;Grid computing;Hardware;High performance computing;Runtime;Voltage},
-doi={10.1109/CCGRID.2009.88}
+keywords={parallel processing;power aware computing;workstation clusters;cluster computer;eco-friendly daemon;energy consumption reduction;energy-efficient cluster computing;power consumption reduction;processor stall cycles;workload characterization;Application software;Clustering algorithms;Energy consumption;Energy efficiency;Frequency;Grid computing;Hardware;High performance computing;Runtime;Voltage}
}
@article{Zhuo_Energy.efficient.Dynamic.Task.Scheduling,
pages = {17:1--17:25},
articleno = {17},
numpages = {25},
- doi = {10.1145/1331331.1331341},
acmid = {1331341},
publisher = {ACM},
address = {New York, NY, USA},
year = {2007},
isbn = {0-7695-2933-X},
pages = {19--},
- doi = {10.1109/ICPP.2007.39},
acmid = {1306033},
publisher = {IEEE Computer Society},
address = {Washington, DC, USA}
year = {2005},
isbn = {0-7695-2312-9},
pages = {4a-4a},
- doi = {10.1109/IPDPS.2005.214},
acmid = {1054466},
publisher = {IEEE Computer Society},
address = {Washington, DC, USA}
month=apr,
pages={1-12},
keywords={message passing;parallel algorithms;power aware computing;HPC environment;dynamic concurrency throttling;dynamic voltage-and-frequency scaling;high performance computing;hybrid MPI-OpenMP computing;hybrid programming models;large-scale distributed systems;message passing interface;parallel programs;power-aware computing;power-aware performance prediction model;Concurrent computing;Discrete cosine transforms;Dynamic programming;Dynamic voltage scaling;Frequency;Heuristic algorithms;Large-scale systems;Multicore processing;Power system modeling;Predictive models;MPI;OpenMP;performance modeling;power-aware high -performance computing},
-doi={10.1109/IPDPS.2010.5470463},
ISSN={1530-2075}
}
and energy management},
booktitle = {ISQED},
year = {2012},
- pages = {747-754},
- ee = {http://dx.doi.org/10.1109/ISQED.2012.6187575},
- CCcrossref = {DBLP:conf/isqed/2012},
- CCbibsource = {DBLP, http://dblp.uni-trier.de}
+ pages = {747-754}
+
}
location = {New York, New York, USA},
pages = {230--238},
numpages = {9},
- doi = {10.1145/1122971.1123006},
acmid = {1123006},
publisher = {ACM},
address = {New York, NY, USA},
pages = {11-18},
publisher = {SCS/ACM},
timestamp = {2011-12-01T00:00:00.000+0100},
- title = {Modeling the energy consumption for concurrent executions of parallel tasks.},
+ title = {Modeling the energy consumption for concurrent executions of parallel tasks},
year = {2011}
}
year = {2005},
isbn = {1-59593-061-2},
pages = {34--},
- doi = {10.1109/SC.2005.57},
acmid = {1105799},
publisher = {IEEE Computer Society},
address = {Washington, DC, USA}
year = {2005},
isbn = {0-7695-2312-9},
pages = {34--},
- doi = {10.1109/IPDPS.2005.346},
acmid = {1054376},
publisher = {IEEE Computer Society},
address = {Washington, DC, USA}
date = {2009-11-27},
description = {dblp},
editor = {Mueller, Peter and Cao, Jian-Nong and Wang, Cho-Li},
- ee = {http://dx.doi.org/10.1007/978-3-642-10485-5_8},
interhash = {d191ac30e6c4bd27288ffdf9e6d0e815},
intrahash = {4601b8a777bdf956bb48fa611b7556f5},
isbn = {978-3-642-10484-8},
issn = {0743-7315},
pages = {1154--1164},
numpages = {11},
- doi = {10.1016/j.jpdc.2011.01.004},
acmid = {1998949},
publisher = {Academic Press, Inc.},
address = {Orlando, FL, USA},
issn = {0278-0070},
pages = {676--689},
numpages = {14},
- doi = {10.1109/TCAD.2009.2015740},
acmid = {1656937},
publisher = {IEEE Press},
address = {Piscataway, NJ, USA},
year={2007},
month=mar,
pages={204-209},
-keywords={circuit optimisation;embedded systems;integrated circuit design;low-power electronics;microprocessor chips;nonlinear programming;thermal management (packaging);DVFS-enabled processors;application peak temperature;cooling costs;dynamic voltage voltage;embedded systems;energy consumption;frequency scaling;nonlinear programming;power optimization;run-time thermal emergencies;system thermal profile;thermal optimization;thermal-constrained energy optimization;Cooling;Cost function;Design optimization;Dynamic voltage scaling;Embedded system;Energy consumption;Frequency;Power system planning;Runtime;Temperature},
-doi={10.1109/ISQED.2007.158}
+keywords={circuit optimisation;embedded systems;integrated circuit design;low-power electronics;microprocessor chips;nonlinear programming;thermal management (packaging);DVFS-enabled processors;application peak temperature;cooling costs;dynamic voltage voltage;embedded systems;energy consumption;frequency scaling;nonlinear programming;power optimization;run-time thermal emergencies;system thermal profile;thermal optimization;thermal-constrained energy optimization;Cooling;Cost function;Design optimization;Dynamic voltage scaling;Embedded system;Energy consumption;Frequency;Power system planning;Runtime;Temperature}
}
@INPROCEEDINGS{29,
year={2005},
month=aug,
pages={287-292},
-keywords={approximation theory;energy conservation;low-power electronics;power consumption;power supply circuits;DVFS policy;discrete voltage/frequency voltage level;dynamic voltage scaling;dynamic voltage/frequency scaling;energy reduction technique;exponential algorithm;linear-time heuristic approximation;power reduction technique;switching cost;Approximation algorithms;Costs;Dynamic voltage scaling;Energy consumption;Frequency;Linear approximation;Power system modeling;Runtime;Semiconductor device modeling;Upper bound},
-doi={10.1109/LPE.2005.195529}
+keywords={approximation theory;energy conservation;low-power electronics;power consumption;power supply circuits;DVFS policy;discrete voltage/frequency voltage level;dynamic voltage scaling;dynamic voltage/frequency scaling;energy reduction technique;exponential algorithm;linear-time heuristic approximation;power reduction technique;switching cost;Approximation algorithms;Costs;Dynamic voltage scaling;Energy consumption;Frequency;Linear approximation;Power system modeling;Runtime;Semiconductor device modeling;Upper bound}
}
@INPROCEEDINGS{30,
year={2010},
month=may,
pages={368-377},
-keywords={environmental factors;parallel processing;power aware computing;scheduling;workstation clusters;dynamic voltage frequency scaling technique;energy aware scheduling heuristics;green service level agreement;high end computing;precedence constrained parallel tasks;Computational modeling;Concurrent computing;Costs;Dynamic voltage scaling;Energy consumption;Frequency;Grid computing;High performance computing;Power engineering computing;Processor scheduling;Cluster Computing;Green Computing;Task Scheduling},
-doi={10.1109/CCGRID.2010.19}
+keywords={environmental factors;parallel processing;power aware computing;scheduling;workstation clusters;dynamic voltage frequency scaling technique;energy aware scheduling heuristics;green service level agreement;high end computing;precedence constrained parallel tasks;Computational modeling;Concurrent computing;Costs;Dynamic voltage scaling;Energy consumption;Frequency;Grid computing;High performance computing;Power engineering computing;Processor scheduling;Cluster Computing;Green Computing;Task Scheduling}
}
@article{31,
issn = {1556-6056},
year = {2013},
pages = {1},
-doi = {http://doi.ieeecomputersociety.org/10.1109/L-CA.2013.1},
publisher = {IEEE Computer Society},
address = {Los Alamitos, CA, USA}
}
year = "2013",
note = "S.I.Energy efficiency in grids and clouds ",
issn = "1569-190X",
-doi = "http://dx.doi.org/10.1016/j.simpat.2013.04.007",
author = {Tom Guérout and Thierry Monteil and Georges Da Costa and Rodrigo Neves Calheiros and Rajkumar Buyya and Mihai Alexandru}
}
year={2005},
month=nov,
pages={33-33},
-keywords={Computer science;Dynamic voltage scaling;Energy consumption;Energy efficiency;Frequency;Gears;Jitter;Microprocessors;Performance loss;Permission},
-doi={10.1109/SC.2005.39}
+keywords={Computer science;Dynamic voltage scaling;Energy consumption;Energy efficiency;Frequency;Gears;Jitter;Microprocessors;Performance loss;Permission}
}
@inproceedings{34,
year = "2013",
note = "",
issn = "1084-8045",
-doi = "http://dx.doi.org/10.1016/j.jnca.2013.10.009",
author = {Wei Liu and Wei Du and Jing Chen and Wei Wang and GuoSun Zeng}
}
issn = {0018-9162},
pages = {68--75},
numpages = {8},
- doi = {10.1109/MC.2003.1250885},
acmid = {957974},
publisher = {IEEE Computer Society Press},
address = {Los Alamitos, CA, USA}
location = {Porto Alegre, Brazil},
pages = {175--185},
numpages = {11},
- doi = {10.1145/2155620.2155641},
acmid = {2155641},
publisher = {ACM},
address = {NY, USA}
year={2007},
month=aug,
pages={207-212},
-keywords={Linux;computer aided instruction;multiprogramming;power aware computing;program compilers;system monitoring;Intel PXA27x;Linux 2.6.9;dynamic voltage frequency scaling;multitasking systems;online learning;processors runtime statistics;Batteries;Computer applications;Delay;Dynamic voltage scaling;Embedded system;Energy consumption;Frequency estimation;Linux;Power engineering computing;Statistics;dynamic voltage frequency scaling;online learning},
-doi={10.1145/1283780.1283825}
+keywords={Linux;computer aided instruction;multiprogramming;power aware computing;program compilers;system monitoring;Intel PXA27x;Linux 2.6.9;dynamic voltage frequency scaling;multitasking systems;online learning;processors runtime statistics;Batteries;Computer applications;Delay;Dynamic voltage scaling;Embedded system;Energy consumption;Frequency estimation;Linux;Power engineering computing;Statistics;dynamic voltage frequency scaling;online learning}
+
}
@inproceedings{40,
location = {Vancouver, B.C., CANADA},
pages = {155--165},
numpages = {11},
- doi = {10.1109/MICRO.2012.23},
acmid = {2457493},
publisher = {IEEE Computer Society},
address = {Washington, DC, USA}
number={5},
pages={676-689},
keywords={power aware computing;DPM policies;Intel PXA27x core;device leakage characteristics;dynamic power management;dynamic voltage-frequency scaling problems;hard disk drive;online learning;system-level power management;workload characterization;Dynamic voltage frequency scaling;energy-performance trade-off;online learning;power management},
-doi={10.1109/TCAD.2009.2015740},
ISSN={0278-0070}
}
isbn = {978-0-7695-3114-4},
pages = {126--131},
numpages = {6},
- doi = {10.1109/UKSIM.2008.28},
acmid = {1398183},
publisher = {IEEE Computer Society},
address = {Washington, DC, USA}
pages = {2899--2917},
year = 2014,
month = oct,
- doi = {10.1016/j.jpdc.2014.06.008},
pdf = {http://hal.inria.fr/docs/01/05/75/41/PDF/simgrid3-journal.pdf}
}
month=sep,
pages={48-57},
keywords={energy consumption;graphics processing units;parallel architectures;AMD Phenom II CPU;CUDA framework;GPU-CPU heterogeneous architectures;GreenGPU;Nvidia GeForce GPU;energy consumption;energy efficiency;high performance computing;holistic approach;Algorithm design and analysis;Computer architecture;Frequency conversion;Graphics processing unit;Green products;Heuristic algorithms;Time frequency analysis;GPU;dynamic frequency scaling;energy efficiency;workload division},
-doi={10.1109/ICPP.2012.31},
ISSN={0190-3918}
}
month=oct,
pages={826-833},
keywords={energy conservation;graphics processing units;parallel processing;power aware computing;power consumption;DVFS schedulers;GPU computing;K20 GPU;Nvidia K20c Kepler GPU;application performance;compute-bound high-performance workloads;dual Intel Sandy Bridge CPU;dynamic voltage and frequency scaling;energy efficiency;high-throughput workloads;power consumption;power-aware heterogeneous system;Benchmark testing;Computer architecture;Energy consumption;Graphics processing units;Market research;Measurement;Power demand;DVFS in GPU Computing;Dynamic Voltage and Frequency Scaling;Energy-Efficient Computing},
-doi={10.1109/ICPP.2013.98},
ISSN={0190-3918}
}
urldate = {2014-10-16},
institution = {{DTIC} Document},
author = {Luley, Ryan and Usmail, Courtney and Barnell, Mark},
- year = {2011},
+ year = {2011}
}
pages = "1661 - 1670",
year = "2013",
issn = "0167-739X",
-doi = "http://dx.doi.org/10.1016/j.future.2013.02.010",
author = {Lizhe Wang and Samee U. Khan and Dan Chen and Joanna Kołodziej and Rajiv Ranjan and Cheng-zhong Xu and Albert Zomaya}
title={Green governors: A framework for Continuously Adaptive DVFS},
year={2011},
month=jul,
-pages={1-8},
-doi={10.1109/IGCC.2011.6008552}
+pages={1-8}
}
number={99},
pages={1-1},
keywords={Energy consumption;Optimization;Partitioning algorithms;Processor scheduling;Program processors;Runtime;Time-frequency analysis},
-doi={10.1109/TPDS.2014.2313338},
ISSN={1045-9219},}
}
url = {http://www.eia.gov/}
}
+@MISC{U.S_Annual.Energy.Outlook.2015,
+ title = {{U.S. Energy Information Administration, Annual Energy Outlook 2015}},
+ url = {http://www.eia.gov/}
+}
@inproceedings{pdsec2015,
title = {Energy Consumption Reduction with DVFS for Message Passing Iterative Applications on Heterogeneous Architectures},
author = {Charr, Jean-Claude and Couturier, Rapha\~{A}«l and Fanfakh, Ahmed and Giersch, Arnaud},
journal={The Journal of Supercomputing},
volume={70},
number={3},
-doi={10.1007/s11227-014-1236-4},
title={Energy measurement, modeling, and prediction for processors with frequency scaling},
publisher={Springer US},
keywords={Dynamic voltage–frequency scaling; DVFS; SPEC CPU2006 benchmarks; Energy measurement; Energy models},
year={2013},
publisher={Springer Science \& Business Media}
}
+
+@article{EDP_for_multi_processors,
+year={2015},
+journal={Human-centric Computing and Information Sciences},
+eid={28},
+volume={5},
+number={1},
+title={An energy-delay product study on chip multi-processors for variable stage pipelining},
+publisher={Springer Berlin Heidelberg},
+keywords={Chip multi-processors (CMP); Variable stage pipelining (VSP); Power-performance; Optimal pipeline},
+author={Saravanan, Vijayalakshmi and Anpalagan, Alagan and Woungang, Isaac}
+}
+
+
+@INPROCEEDINGS{Energy_aware_application_scheduling,
+author={Jian Chen and John, L.K.},
+booktitle={Workload Characterization, 2008. IISWC 2008. IEEE International Symposium on},
+title={Energy-aware application scheduling on a heterogeneous multi-core system},
+year={2008},
+pages={5-13},
+keywords={fuzzy logic;power aware computing;processor scheduling;resource allocation;branch transition rate;energy-aware application scheduling mechanism;fuzzy logic;heterogeneous multicore processor;instruction dependency distance;power efficient computing;program execution;random scheduling approach;resource requirement;suitability-guided program scheduling mechanism;workload balancing;Algorithm design and analysis;Application software;Energy consumption;Fuzzy logic;Hardware;Multicore processing;Power engineering and energy;Power engineering computing;Processor scheduling;Scheduling algorithm},
+month={Sept}
+}
+
+@INPROCEEDINGS{elusive_metric_for_low_power,
+ author = {Hsien-hsin S. Lee and Joshua B. Fryman and A. Utku Diril and Yuvraj S. Dhillon},
+ title = {The elusive metric for low-power architecture research},
+ booktitle = {In Proceedings of the Workshop on Complexity-Effective Design},
+ year = {2003}
+}
+
+@incollection{Exploring_Energy_Performance_TradeOffs,
+year={2006},
+isbn={978-3-540-68039-0},
+booktitle={High Performance Computing - HiPC 2006},
+volume={4297},
+editor={Robert, Yves and Parashar, Manish and Badrinath, Ramamurthy and Prasanna, ViktorK.},
+title={Exploring Energy-Performance Trade-Offs for Heterogeneous Interconnect Clustered VLIW Processors},
+publisher={Springer Berlin Heidelberg},
+author={Nagpal, Rahul and Srikant, Y.N.},
+pages={497-508}
+}
