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ORCIDWorkflows for e-Science, Scientific Workflows for Grids 2007
- Ian J. Taylor
, Ewa Deelman, Dennis B. Gannon, Matthew S. Shields:
Workflows for e-Science, Scientific Workflows for Grids. Springer 2007, ISBN 978-1-84628-519-6
Introduction
- Dennis Gannon, Ewa Deelman, Matthew S. Shields, Ian J. Taylor:
Introduction. 1-8
Scientific versus Business Workflows
- Roger S. Barga, Dennis Gannon:
Scientific versus Business Workflows. 9-16
Application and User Perspective
- G. Bruce Berriman, Ewa Deelman, John Good, Joseph C. Jacob, Daniel S. Katz, Anastasia C. Laity, Thomas A. Prince, Gurmeet Singh, Mei-Hui Su:
Generating Complex Astronomy Workflows. 19-38 - Duncan A. Brown, Patrick R. Brady, Alexander Dietz, Junwei Cao, Ben Johnson, John McNabb:
A Case Study on the Use of Workflow Technologies for Scientific Analysis: Gravitational Wave Data Analysis. 39-59 - John Brooke, Stephen Pickles, Paul Carr, Michael Kramer:
Workflows in Pulsar Astronomy. 60-79 - Andrew C. Jones:
Workflow and Biodiversity e-Science. 80-90 - Deana D. Pennington, Dan Higgins, A. Townsend Peterson, Matthew B. Jones, Bertram Ludäscher, Shawn Bowers:
Ecological Niche Modeling Using the Kepler Workflow System. 91-108 - Abel W. Lin, Steven T. Peltier, Jeffrey S. Grethe, Mark H. Ellisman:
Case Studies on the Use of Workflow Technologies for Scientific Analysis: The Biomedical Informatics Research Network and the Telescience Project. 109-125 - Dennis Gannon, Beth Plale, Suresh Marru, Gopi Kandaswamy, Yogesh Simmhan, Satoshi Shirasuna:
Dynamic, Adaptive Workflows for Mesoscale Meteorology. 126-142 - Philip Maechling, Ewa Deelman, Li Zhao, Robert Graves, Gaurang Mehta, Nitin Gupta, John Mehringer, Carl Kesselman, Scott Callaghan, David Okaya, Hunter Francoeur, Vipin Gupta, Yifeng Cui, Karan Vahi, Thomas H. Jordan, Edward Field:
SCEC CyberShake Workflows - Automating Probabilistic Seismic Hazard Analysis Calculations. 143-163
Workflow Representation and Common Structure
- Matthew S. Shields:
Control- Versus Data-Driven Workflows. 167-173 - Dennis Gannon:
Component Architectures and Services: From Application Construction to Scientific Workflows. 174-189 - Andreas Hoheisel, Martin Helmut Alt:
Petri Nets. 190-207 - Aleksander Slominski:
Adapting BPEL to Scientific Workflows. 208-226 - Simon Woodman, Savas Parastatidis, Jim Webber:
Protocol-Based Integration Using SSDL and π-Calculus. 227-243 - Yolanda Gil:
Workflow Composition: Semantic Representations for Flexible Automation. 244-257 - Yong Zhao, Michael Wilde, Ian T. Foster:
Virtual Data Language: A Typed Workflow Notation for Diversely Structured Scientific Data. 258-275
Frameworks and Tools: Workflow Generation, Refinement, and Execution
- Tristan Glatard, Gergely Sipos, Johan Montagnat, Zoltán Farkas, Péter Kacsuk:
Workflow-Level Parametric Study Support by MOTEUR and the P-GRADE Portal. 279-299 - Tom Oinn, Peter Li, Douglas B. Kell, Carole A. Goble, Antoon Goderis, Robert Mark Greenwood, Duncan Hull, Robert Stevens, Daniele Turi, Jun Zhao:
Taverna/myGrid: Aligning a Workflow System with the Life Sciences Community. 300-319 - Ian J. Taylor, Matthew S. Shields, Ian Wang, Andrew Harrison:
The Triana Workflow Environment: Architecture and Applications. 320-339 - Gregor von Laszewski, Mihael Hategan, Deepti Kodeboyina:
Java CoG Kit Workflow. 340-356 - Peter Couvares, Tevfik Kosar, Alain Roy, Jeff Weber, Kent Wenger:
Workflow Management in Condor. 357-375 - Ewa Deelman, Gaurang Mehta, Gurmeet Singh, Mei-Hui Su, Karan Vahi:
Pegasus: Mapping Large-Scale Workflows to Distributed Resources. 376-394 - A. Stephen McGough, William Lee, Jeremy Cohen, Eleftheria Katsiri, John Darlington:
ICENI. 395-415 - Tom Goodale:
Expressing Workflow in the Cactus Framework. 416-427 - Bruno Wassermann, Wolfgang Emmerich, Ben Butchart, Nick Cameron, Liang Chen, Jignesh Patel:
Sedna: A BPEL-Based Environment for Visual Scientific Workflow Modeling. 428-449 - Thomas Fahringer, Radu Prodan, Rubing Duan, Jürgen Hofer, Farrukh Nadeem, Francesco Nerieri, Stefan Podlipnig, Jun Qin, Mumtaz Siddiqui, Hong Linh Truong, Alex Villazón, Marek Wieczorek:
ASKALON: A Development and Grid Computing Environment for Scientific Workflows. 450-471
Future Requirements
- Ewa Deelman:
Looking into the Future of Workflows: The Challenges Ahead. 475-481
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