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Scientific Workflow Design for Mere MortalsTimothy McPhillips, Shawn Bowers, Daniel Zinn, Bertram Ludaescher
Citation
Timothy McPhillips, Shawn Bowers, Daniel Zinn, Bertram Ludaescher. "Scientific Workflow Design for Mere Mortals". Future Generation Computer Systems, 25(5):541-551, May 2009.
Abstract
Recent years have seen a dramatic increase in research and development of scientific workflow systems. These systems promise to make scientists more productive by automating data-driven and compute-intensive analyses. Despite many early achievements, the long-term success of scientific workflow technology critically depends on making these systems useable by “mere mortals”, i.e., scientists who have a very good idea of the analysis methods they wish to assemble, but who are neither software developers nor scripting-language experts. With these users in mind, we identify a set of desiderata for scientific workflow systems crucial for enabling scientists to model and design the workflows they wish to automate themselves. As a first step towards meeting these requirements, we also show how the collection-oriented modeling and design (comad) approach for scientific workflows, implemented within the Kepler system, can help provide these critical, design-oriented capabilities to scientists.
Keywords: Workflow; Collection; COMAD; Resilience; Desiderata; Provenance; Automatic optimization
Electronic downloads
- HTML
Timothy McPhillips, Shawn Bowers, Daniel Zinn, Bertram
Ludaescher. <a
href="http://chess.eecs.berkeley.edu/pubs/534.html"
>Scientific Workflow Design for Mere Mortals</a>,
<i>Future Generation Computer Systems</i>,
25(5):541-551, May 2009.
- Plain text
Timothy McPhillips, Shawn Bowers, Daniel Zinn, Bertram
Ludaescher. "Scientific Workflow Design for Mere
Mortals". <i>Future Generation Computer
Systems</i>, 25(5):541-551, May 2009.
- BibTeX
@article{McPhillipsBowersZinnLudaescher09_ScientificWorkflowDesignForMereMortals,
author = {Timothy McPhillips and Shawn Bowers and Daniel
Zinn and Bertram Ludaescher},
title = {Scientific Workflow Design for Mere Mortals},
journal = {Future Generation Computer Systems},
volume = {25},
number = {5},
pages = {541-551},
month = {May},
year = {2009},
abstract = {Recent years have seen a dramatic increase in
research and development of scientific workflow
systems. These systems promise to make scientists
more productive by automating data-driven and
compute-intensive analyses. Despite many early
achievements, the long-term success of scientific
workflow technology critically depends on making
these systems useable by âmere mortalsâ, i.e.,
scientists who have a very good idea of the
analysis methods they wish to assemble, but who
are neither software developers nor
scripting-language experts. With these users in
mind, we identify a set of desiderata for
scientific workflow systems crucial for enabling
scientists to model and design the workflows they
wish to automate themselves. As a first step
towards meeting these requirements, we also show
how the collection-oriented modeling and design
(comad) approach for scientific workflows,
implemented within the Kepler system, can help
provide these critical, design-oriented
capabilities to scientists. <p>Keywords: Workflow;
Collection; COMAD; Resilience; Desiderata;
Provenance; Automatic optimization },
URL = {http://chess.eecs.berkeley.edu/pubs/534.html}
}
Posted by Christopher Brooks on 26 Feb 2009.
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