A study of suitable fault tolerance frameworks for an energy-efficient storage system

Shou Han Chen, Tseng Yi Chen, Hsin Wen Wei, Nai Yuan Jhang, Tsan Sheng Hsu, Wei Kuan Shih

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

1 Scopus citations

Abstract

A new kind of cloud service, called Database-as-aservice (DaaS), provides a novel paradigm which allows data to be stored in remote databases. The types of database used in remote sites can be divided into two categories: Relational Databases (RDB) and NoSQL. NoSQL databases store data in a flexible format, and without schema, so NoSQL databases can be easily scaled across multiple devices. Because of the advantages of the NoSQL databases, many large data applications use NoSQL databases as the backend data management system. Because NoSQL databases usually access the stored data as files, through a distributed file system, the problem of decentralized data management is critical in NoSQL databases. In order to address this issue, many energy-efficient algorithms for file placement are used in distributed file systems. However, these energy-efficient algorithms only focus on reducing the power consumption of storage systems and they ignore the cost of data reliability, which is affected by frequently setting the disk status to standby mode. To maintain data reliability, energy-efficient storage systems usually combine framework of power conservation and a fault tolerance mechanism. However, most developers of energy-efficient frameworks do not consider whether the fault tolerance mechanism can avoid data loss when this combination is used for energy-efficient storage systems. This study proposes a general energy-efficient framework that can be integrated different fault tolerance mechanisms. The experimental results show that the capability of the proposed framework with different erasure code algorithms.

Original languageEnglish
Title of host publication2015 International Conference on Collaboration Technologies and Systems, CTS 2015
EditorsWaleed W. Smari, Joseph Natarian, William McQuay, Mads Nygard
PublisherInstitute of Electrical and Electronics Engineers Inc.
Pages220-225
Number of pages6
ISBN (Electronic)9781467376464
DOIs
StatePublished - 19 Aug 2015
Event16th International Conference on Collaboration Technologies and Systems, CTS 2015 - Atlanta, United States
Duration: 1 Jun 20155 Jun 2015

Publication series

Name2015 International Conference on Collaboration Technologies and Systems, CTS 2015

Conference

Conference16th International Conference on Collaboration Technologies and Systems, CTS 2015
Country/TerritoryUnited States
CityAtlanta
Period1/06/155/06/15

Keywords

  • DaaS
  • distributed file system
  • energy-efficient storage system
  • fault tolerance
  • NoSQL

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