Runtime data center temperature prediction using Grammatical Evolution techniques
Created by W.Langdon from
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- @Article{journals/asc/ZapaterRAAMH16,
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author = "Marina Zapater and Jose L. Risco-Martin and
Patricia Arroba and Jose L. Ayala and Jose Manuel Moya and
Roman Hermida",
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title = "Runtime data center temperature prediction using
Grammatical Evolution techniques",
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journal = "Applied Soft Computing",
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year = "2016",
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volume = "49",
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pages = "94--107",
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month = dec,
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keywords = "genetic algorithms, genetic programming, grammatical
evolution",
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bibdate = "2017-05-26",
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bibsource = "DBLP,
http://dblp.uni-trier.de/db/journals/asc/asc49.html#ZapaterRAAMH16",
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DOI = "doi:10.1016/j.asoc.2016.07.042",
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abstract = "Data Centers are huge power consumers, both because of
the energy required for computation and the cooling
needed to keep servers below thermal redlining. The
most common technique to minimise cooling costs is
increasing data room temperature. However, to avoid
reliability issues, and to enhance energy efficiency,
there is a need to predict the temperature attained by
servers under variable cooling setups. Due to the
complex thermal dynamics of data rooms, accurate
runtime data center temperature prediction has remained
as an important challenge. By using Grammatical
Evolution techniques, this paper presents a methodology
for the generation of temperature models for data
centers and the runtime prediction of CPU and inlet
temperature under variable cooling setups. As opposed
to time costly Computational Fluid Dynamics techniques,
our models do not need specific knowledge about the
problem, can be used in arbitrary data centers,
re-trained if conditions change and have negligible
overhead during runtime prediction. Our models have
been trained and tested by using traces from real Data
Center scenarios. Our results show how we can fully
predict the temperature of the servers in a data rooms,
with prediction errors below 2C and 0.5C in CPU and
server inlet temperature respectively.",
- }
Genetic Programming entries for
Marina Zapater
Jose L Risco-Martin
Patricia Arroba
Jose Luis Ayala Rodrigo
Jose Manuel Moya
Roman Hermida Correa
Citations