Steve Mock
University of California, San Diego
5 Papers
164 Citations
Steve Mock is an academic researcher from University of California, San Diego. The author has contributed to research in topics: Grid computing & Grid. The author has an hindex of 4, co-authored 5 publications.
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Papers
The GridPort toolkit: a system for building Grid portals
Mary Thomas,Steve Mock,Maytal Dahan,Kurt Mueller,D. Sutton,J.R. Boisseau +5 more
- 07 Aug 2001
TL;DR: The creation of GridPort is described, a unique, layered software system for building Grid portals, written in Perl/CGI, which has several unique features: the software is portable and runs on most Web servers; it is flexible and adaptable; it supports single login between multiple portals; and portals built with it may run across multiple sites and organizations.
Interoperable Web Services for Computational Portals
Marlon Pierce,Geoffrey C. Fox,Choonhan Youn,Steve Mock,Kurt Mueller,Ozgur Balsoy +5 more
- 16 Nov 2002
TL;DR: An overview of research efforts undertaken by the group to build interoperating portal services around a Web Services model is presented, beginning with core portal services that can be used to build Application Web Services, which in turn may be aggregated and managed through portlet containers.
The Computational Chemistry Prototyping Environment
Kim K. Baldridge,Jerry P. Greenberg,Wibke Sudholt,Steve Mock,Ilkay Altintas,Celine Amoreira,Yohann Potier,Adam Birnbaum,Karan Bhatia,Michela Taufer +9 more
- 28 Feb 2005
TL;DR: This work will describe its efforts in creating a computational chemistry environment that encompasses a general scientific workflow environment, a domain specific example for quantum chemistry, the ongoing design of a workflow user interface, and the efforts at database integration.
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Incorporation of middleware and grid technologies to enhance usability in Computational Chemistry applications
Jerry P. Greenberg,Steve Mock,Karan Bhatia,Mason J. Katz,Greg Bruno,F.D. Sacerdoti,Phil Papadopoulos,Kim K. Baldridge +7 more
TL;DR: By defining an XML schema to describe both resources, application codes and interfaces, this work will enable a ''pluggable'' event-driven model where grid-enabled services can be composed to form elaborate pipelines of simulation, and visual analysis.
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Incorporation of Middleware and Grid Technologies to Enhance Usability in Computational Chemistry Applications
Jerry P. Greenberg,Steve Mock,Mason J. Katz,Greg Bruno,F.D. Sacerdoti,Philip M. Papadopoulos,Kim K. Baldridge +6 more
- 06 Jun 2004
TL;DR: A workflow management system that is fully integrated with emerging grid standards but can be dynamically reconfigured and a “pluggable” event-driven model is created where grid-enabled services can be composed to form more elaborate pipelines of information processing, simulation, and visual analysis.