Paper Info
Title
TAPA: Temperature aware power allocation in data center with Map-Reduce
Abstract
In this paper, we analytically derive, implement, and empirically evaluate a solution for maximizing the execution rate of Map-Reduce jobs subject to power constraints in data centers. Our solution is novel in that it takes into account the dependence of power consumption on temperature, attributed to temperature-induced changes in leakage current and fan speed. While this dependence is well-known, we are the first to consider it in the context of maximizing the throughput of Map-Reduce workdloads. Accordingly, we provide a new power model and optimization strategy for temperature-aware power allocation (TAPA), and modify Hadoop on a 13-machine cluster to implement our optimization algorithm. Our experimental results show that TAPA can not only limit the power consumption to the power budget but also achieves higher computational efficiency against static solutions and temperature oblivious DVFS solutions.
Year
DOI
Venue
2011
10.1109/IGCC.2011.6008602
IGCC
Keywords
Field
DocType
map-reduce job,temperature aware power allocation,optimization algorithm,power constraint,data center,static solution,optimization strategy,power consumption,map-reduce workdloads,temperature-aware power allocation,power budget,new power model,energy management,servers,temperature measurement,leakage current,indexing terms,optimization,time frequency analysis
Power budget,Energy management,Mathematical optimization,Leakage (electronics),Power model,Real-time computing,Optimization algorithm,Throughput,Engineering,Data center,Power consumption
Conference
Citations 
PageRank 
References 
21
0.79
16
Authors
3
Name
Order
Citations
PageRank
Shen Li116612.23
Tarek Abdelzaher210179729.36
Mindi Yuan3785.22