Storage modeling for power estimation

Miriam Allalouf; Yuriy Arbitman; Michael Factor; Ronen I. Kat; Kalman Meth; Dalit Naor

doi:10.1145/1534530.1534535

Storage modeling for power estimation

Miriam Allalouf, Yuriy Arbitman, Michael Factor, Ronen I. Kat, Kalman Meth, Dalit Naor

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

29 Scopus citations

Abstract

Power consumption is a major issue in today's datacenters. Storage typically comprises a significant percentage of datacenter power. Thus, understanding, managing, and reducing storage power consumption is an essential aspect of any efforts that address the total power consumption of datacenters. We developed a scalable power modeling method that estimates the power consumption of storage workloads. The modeling concept is based on identifying the major workload contributors to the power consumed by the disk arrays. To estimate the power consumed by a given host work- load, our method translates the workload to the primitive activities induced on the disks. In addition, we identified that I/O queues have a fundamental influence on the power consumption. Our power estimation results are highly accurate, with only 2% deviation for typical random workloads with small transfer sizes (up to 8K), and a deviation of up to 8% for workloads with large transfer sizes. We successfully integrated our modeling into a poweraware capacity planning tool to predict system power requirements and integrated it into an online storage system to provide online estimation for the power consumed.

Original language	English
Title of host publication	Proceedings of the Israeli Experimental Systems Conference, SYSTOR 2009
Pages	3
Number of pages	1
DOIs	https://doi.org/10.1145/1534530.1534535
State	Published - 9 Nov 2009
Externally published	Yes
Event	SYSTOR 2009: The Israeli Experimental Systems Conference - Haifa, Israel Duration: 4 May 2009 → 6 May 2009

Publication series

Name	ACM International Conference Proceeding Series

Conference

Conference	SYSTOR 2009: The Israeli Experimental Systems Conference
Country/Territory	Israel
City	Haifa
Period	4/05/09 → 6/05/09

Keywords

Modeling
Power
Storage

ASJC Scopus subject areas

Software
Human-Computer Interaction
Computer Vision and Pattern Recognition
Computer Networks and Communications

Access to Document

10.1145/1534530.1534535

Cite this

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title = "Storage modeling for power estimation",

abstract = "Power consumption is a major issue in today's datacenters. Storage typically comprises a significant percentage of datacenter power. Thus, understanding, managing, and reducing storage power consumption is an essential aspect of any efforts that address the total power consumption of datacenters. We developed a scalable power modeling method that estimates the power consumption of storage workloads. The modeling concept is based on identifying the major workload contributors to the power consumed by the disk arrays. To estimate the power consumed by a given host work- load, our method translates the workload to the primitive activities induced on the disks. In addition, we identified that I/O queues have a fundamental influence on the power consumption. Our power estimation results are highly accurate, with only 2% deviation for typical random workloads with small transfer sizes (up to 8K), and a deviation of up to 8% for workloads with large transfer sizes. We successfully integrated our modeling into a poweraware capacity planning tool to predict system power requirements and integrated it into an online storage system to provide online estimation for the power consumed.",

keywords = "Modeling, Power, Storage",

author = "Miriam Allalouf and Yuriy Arbitman and Michael Factor and Kat, {Ronen I.} and Kalman Meth and Dalit Naor",

year = "2009",

month = nov,

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doi = "10.1145/1534530.1534535",

language = "English",

isbn = "9781605586236",

series = "ACM International Conference Proceeding Series",

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T1 - Storage modeling for power estimation

AU - Allalouf, Miriam

AU - Arbitman, Yuriy

AU - Factor, Michael

AU - Kat, Ronen I.

AU - Meth, Kalman

AU - Naor, Dalit

PY - 2009/11/9

Y1 - 2009/11/9

N2 - Power consumption is a major issue in today's datacenters. Storage typically comprises a significant percentage of datacenter power. Thus, understanding, managing, and reducing storage power consumption is an essential aspect of any efforts that address the total power consumption of datacenters. We developed a scalable power modeling method that estimates the power consumption of storage workloads. The modeling concept is based on identifying the major workload contributors to the power consumed by the disk arrays. To estimate the power consumed by a given host work- load, our method translates the workload to the primitive activities induced on the disks. In addition, we identified that I/O queues have a fundamental influence on the power consumption. Our power estimation results are highly accurate, with only 2% deviation for typical random workloads with small transfer sizes (up to 8K), and a deviation of up to 8% for workloads with large transfer sizes. We successfully integrated our modeling into a poweraware capacity planning tool to predict system power requirements and integrated it into an online storage system to provide online estimation for the power consumed.

AB - Power consumption is a major issue in today's datacenters. Storage typically comprises a significant percentage of datacenter power. Thus, understanding, managing, and reducing storage power consumption is an essential aspect of any efforts that address the total power consumption of datacenters. We developed a scalable power modeling method that estimates the power consumption of storage workloads. The modeling concept is based on identifying the major workload contributors to the power consumed by the disk arrays. To estimate the power consumed by a given host work- load, our method translates the workload to the primitive activities induced on the disks. In addition, we identified that I/O queues have a fundamental influence on the power consumption. Our power estimation results are highly accurate, with only 2% deviation for typical random workloads with small transfer sizes (up to 8K), and a deviation of up to 8% for workloads with large transfer sizes. We successfully integrated our modeling into a poweraware capacity planning tool to predict system power requirements and integrated it into an online storage system to provide online estimation for the power consumed.

KW - Modeling

KW - Power

KW - Storage

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M3 - Conference contribution

AN - SCOPUS:70350642058

SN - 9781605586236

T3 - ACM International Conference Proceeding Series

SP - 3

BT - Proceedings of the Israeli Experimental Systems Conference, SYSTOR 2009

T2 - SYSTOR 2009: The Israeli Experimental Systems Conference

Y2 - 4 May 2009 through 6 May 2009

ER -

Storage modeling for power estimation

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this