Wings for pegasus: A semantic approach to creating very large scientific workflows

Yolanda Gil; Varun Ratnakar; Ewa Deelman; Marc Spraragen; Jihie Kim

Wings for pegasus: A semantic approach to creating very large scientific workflows

Yolanda Gil, Varun Ratnakar, Ewa Deelman, Marc Spraragen, Jihie Kim

Department of Computer Science and Artificial Intelligence

University of Southern California

Research output: Contribution to journal › Conference article › peer-review

5 Scopus citations

Abstract

Scientific workflows are being developed for many domains as a paradigm to manage complex scientific computations. In our work, we are challenged with efficiently generating and validating workflows that contain large amounts (hundreds to thousands) of individual computations to be executed over distributed environments. We describe a new approach to workflow creation and validation that uses semantic representations to describe complex scientific applications in a data-independent manner, then automatically generates workflows of computations for given data sets, and finally maps them to available computing resources. We have implemented this approach in Wings and used it to create workflows of thousands of computations, which are submitted to the Pegasus mapping system for execution over grid computing environments.

Original language	English
Journal	CEUR Workshop Proceedings
Volume	216
State	Published - 2006
Event	Workshop on OWL: Experiences and Directions, OWLED 2006 - Athens, GA, United States Duration: 10 Nov 2006 → 11 Nov 2006

Keywords

Grid workflows
Scientific workflows
Semantic grid
Workflow editors
Workflow generation

Cite this

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title = "Wings for pegasus: A semantic approach to creating very large scientific workflows",

abstract = "Scientific workflows are being developed for many domains as a paradigm to manage complex scientific computations. In our work, we are challenged with efficiently generating and validating workflows that contain large amounts (hundreds to thousands) of individual computations to be executed over distributed environments. We describe a new approach to workflow creation and validation that uses semantic representations to describe complex scientific applications in a data-independent manner, then automatically generates workflows of computations for given data sets, and finally maps them to available computing resources. We have implemented this approach in Wings and used it to create workflows of thousands of computations, which are submitted to the Pegasus mapping system for execution over grid computing environments.",

keywords = "Grid workflows, Scientific workflows, Semantic grid, Workflow editors, Workflow generation",

author = "Yolanda Gil and Varun Ratnakar and Ewa Deelman and Marc Spraragen and Jihie Kim",

year = "2006",

language = "English",

volume = "216",

journal = "CEUR Workshop Proceedings",

issn = "1613-0073",

publisher = "CEUR-WS",

note = "Workshop on OWL: Experiences and Directions, OWLED 2006 ; Conference date: 10-11-2006 Through 11-11-2006",

}

TY - JOUR

T1 - Wings for pegasus

T2 - Workshop on OWL: Experiences and Directions, OWLED 2006

AU - Gil, Yolanda

AU - Ratnakar, Varun

AU - Deelman, Ewa

AU - Spraragen, Marc

AU - Kim, Jihie

PY - 2006

Y1 - 2006

N2 - Scientific workflows are being developed for many domains as a paradigm to manage complex scientific computations. In our work, we are challenged with efficiently generating and validating workflows that contain large amounts (hundreds to thousands) of individual computations to be executed over distributed environments. We describe a new approach to workflow creation and validation that uses semantic representations to describe complex scientific applications in a data-independent manner, then automatically generates workflows of computations for given data sets, and finally maps them to available computing resources. We have implemented this approach in Wings and used it to create workflows of thousands of computations, which are submitted to the Pegasus mapping system for execution over grid computing environments.

AB - Scientific workflows are being developed for many domains as a paradigm to manage complex scientific computations. In our work, we are challenged with efficiently generating and validating workflows that contain large amounts (hundreds to thousands) of individual computations to be executed over distributed environments. We describe a new approach to workflow creation and validation that uses semantic representations to describe complex scientific applications in a data-independent manner, then automatically generates workflows of computations for given data sets, and finally maps them to available computing resources. We have implemented this approach in Wings and used it to create workflows of thousands of computations, which are submitted to the Pegasus mapping system for execution over grid computing environments.

KW - Grid workflows

KW - Scientific workflows

KW - Semantic grid

KW - Workflow editors

KW - Workflow generation

UR - http://www.scopus.com/inward/record.url?scp=84884607866&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:84884607866

SN - 1613-0073

VL - 216

JO - CEUR Workshop Proceedings

JF - CEUR Workshop Proceedings

Y2 - 10 November 2006 through 11 November 2006

ER -

Wings for pegasus: A semantic approach to creating very large scientific workflows

Abstract

Keywords

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