An Analysis of Public Clouds Elasticity in the Execution of Scientific Applications: a Survey

Elasticity can be seen as the ability of a system to increase or decrease the computing resources allocated in a dynamic and on demand way. It is an important feature provided by cloud computing, that has been widely used in web applications and is also gaining attention in the scientific community....

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Published inJournal of grid computing Vol. 14; no. 2; pp. 193 - 216
Main Authors Galante, Guilherme, Erpen De Bona, Luis Carlos, Mury, Antonio Roberto, Schulze, Bruno, da Rosa Righi, Rodrigo
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.06.2016
Subjects
Applications programs
Cloud computing
Clouds
Communities
Computation
Computer Science
Dynamical systems
Elasticity
Management of Computing and Information Systems
Mathematical models
Processor Architectures
User Interfaces and Human Computer Interaction
Scientific applications
Elasticity
Cloud computing
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Abstract Elasticity can be seen as the ability of a system to increase or decrease the computing resources allocated in a dynamic and on demand way. It is an important feature provided by cloud computing, that has been widely used in web applications and is also gaining attention in the scientific community. Considering the possibilities of using elasticity in this context, a question arises: “Are the available public cloud solutions suitable to provide elasticity to scientific applications?” To answer the question, in a first moment we present a survey on the use of cloud computing in scientific scenarios, providing an overview of the subject. Next, we describe the elasticity mechanisms offered by major public cloud providers and analyzes the limitations of the solutions in providing elasticity for scientific applications. As the main contribution of the article, we also present an analysis over some initiatives that are being developed to overcome the current challenges. In our opinion, current computational clouds are developing rapidly but have not yet reached the necessary maturity level to meet all scientific applications elasticity requirements. We expect that in the coming years the efforts being taken by numerous researchers in this area identify and address these challenges and lead to better and more mature technologies that will improve cloud computing practices.
AbstractList Elasticity can be seen as the ability of a system to increase or decrease the computing resources allocated in a dynamic and on demand way. It is an important feature provided by cloud computing, that has been widely used in web applications and is also gaining attention in the scientific community. Considering the possibilities of using elasticity in this context, a question arises: "Are the available public cloud solutions suitable to provide elasticity to scientific applications?" To answer the question, in a first moment we present a survey on the use of cloud computing in scientific scenarios, providing an overview of the subject. Next, we describe the elasticity mechanisms offered by major public cloud providers and analyzes the limitations of the solutions in providing elasticity for scientific applications. As the main contribution of the article, we also present an analysis over some initiatives that are being developed to overcome the current challenges. In our opinion, current computational clouds are developing rapidly but have not yet reached the necessary maturity level to meet all scientific applications elasticity requirements. We expect that in the coming years the efforts being taken by numerous researchers in this area identify and address these challenges and lead to better and more mature technologies that will improve cloud computing practices.
Author Schulze, Bruno
Erpen De Bona, Luis Carlos
Mury, Antonio Roberto
Galante, Guilherme
da Rosa Righi, Rodrigo
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  surname: Galante
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  organization: Department of Computer Science, Western Paraná State University
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  givenname: Luis Carlos
  surname: Erpen De Bona
  fullname: Erpen De Bona, Luis Carlos
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  organization: National Laboratory for Scientific Computing
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  organization: National Laboratory for Scientific Computing
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  givenname: Rodrigo
  surname: da Rosa Righi
  fullname: da Rosa Righi, Rodrigo
  organization: Applied Computing Graduate Program, Unisinos
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Snippet Elasticity can be seen as the ability of a system to increase or decrease the computing resources allocated in a dynamic and on demand way. It is an important...
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SubjectTerms Applications programs
Cloud computing
Clouds
Communities
Computation
Computer Science
Dynamical systems
Elasticity
Management of Computing and Information Systems
Mathematical models
Processor Architectures
User Interfaces and Human Computer Interaction
Title An Analysis of Public Clouds Elasticity in the Execution of Scientific Applications: a Survey
URI https://link.springer.com/article/10.1007/s10723-016-9361-3
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Volume 14
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