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[1]
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Malik Muammad
Junaid, Thomas Fahringer, and Radu Prodan. Semi-automatic composition of
ontologies for ASKALON Grid workflows. In Michael Alexander, Pasqua
D’Ambra, Adam Belloum, George Bosilca, Mario Cannataro, Marco Danelutto,
Beniamino Di Martino, Michael Gerndt, Emmanuel Jeannot, and Raymond
Namyst, editors, Euro-Par 2011: Parallel Processing Workshops,
volume 7155 of Lecture Notes in Computer Science, pages 169-180.
Springer, August 2012. [ bib | DOI | .pdf ]
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[2]
|
Kassian Plankensteiner and Radu Prodan. Meeting soft
deadlines in scientific workflows using resubmission impact. IEEE
Transactions on Parallel and Distributed Systems, 23(5):890-901, May
2012. [ bib |
DOI | http ]
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[3]
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Radu
Prodan, Michael Sperk, and Simon Ostermann. Experimental approach to
evaluate HPC on Google App Engine. IEEE Software, 29(2):52-58,
March-April 2012. [ bib |
DOI | http ]
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[4]
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Simone
Pellegrini, Radu Prodan, and Thomas Fahringer. A lightweight C++ interface
to MPI. In 20th Euromicro International Conference on Parallel,
Distributed and Network-Based Computing. IEEE Computer Society,
February 2012. [ bib ]
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[5]
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Radu
Prodan. Specification and performance characteristics of scientific Grid
workflows. In Venky Shankararaman, editor, Business Enterprise, Process
and Technology Management: Models for Optimization, pages 212-238. IGI
Global, 2012. [ bib |
DOI | http ]
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[6]
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Radu
Prodan, Marek Wieczorek, and Hamid Mohammadi Fard. Double
auction-based scheduling of scientific applications in distributed Grid and
Cloud environments. Journal of Grid Computing, 9(4):531-548,
December 2011. [ bib |
DOI | .pdf ]
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[7]
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Kassian
Plankensteiner, Johan Montagnat, and Radu Prodan. IWIR: A language enabling
portability across Grid workflow systems. In Proceedings of the 6th
Workshop on Workflows in Support of Large-scale Science, pages 97-106.
ACM, November 2011. [ bib | DOI | .pdf ]
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[8]
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Simon Ostermann, Kassian Plankensteiner, Daniel
Bodner, Georg Kraler, and Radu Prodan. Integration of an
event-based simulation framework into a scientific workflow execution
environment for Grids and Clouds. In Witold Abramowicz, Ignacio M.
Llorente, Mike Surridge, Andrea Zisman, and Julien Vayssi`ere, editors, Towards
a Service-based Internet, 4th European Conference, ServiceWave, volume
6994 of Lecture Notes in Computer Science, pages 1-13. Springer,
October 2011. [ bib |
DOI | .pdf ]
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[9]
|
Philipp Gschwandtner, Thomas Fahringer, and Radu
Prodan. Performance
analysis and benchmarking of the Intel SCC. In 2011 IEEE International
Conference on Cluster Computing, pages 139-149. IEEE Computer Society,
September 2011. [ bib |
DOI | .pdf ]
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[10]
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Simone
Pellegrini, Radu Prodan, and Thomas Fahringer. Leveraging C++
meta-programming capabilities to simplify the message passing programming
model. In Yiannis Cotronis, Anthony Danalis, Dimitrios S.
Nikolopoulos, and Jack Dongarra, editors, Recent Advances in the
Message Passing Interface, 18th European MPI User's Group Meeting, EuroMPI
2011, volume 6960 of Lecture Notes in Computer Science, pages
302-311. Springer, September 2011. [ bib | DOI | .pdf ]
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[11]
|
Muhammad
Aleem, Radu Prodan, and Thomas Fahringer. Scheduling JavaSymphony
applications on many-core parallel computers. In Emmanuel Jeannot, Raymond
Namyst, and Jean Roman, editors, Euro-Par 2011 - Parallel Processing,
volume 6852 of Lecture Notes in Computer Science, pages 167-179.
Springer, August 2011. [ bib |
DOI | .pdf ]
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[12]
|
Alexandru
Iosup, Simon Ostermann, Nezih Yigitbasi, Radu Prodan, Thomas Fahringer, and
Dick Epema. Performance analysis of Cloud computing services for many-tasks
scientific computing. IEEE Transactions on Parallel and Distributed
Systems, 22(6):931-945, June 2011. [ bib | DOI | .pdf ]
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[13]
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Simon Ostermann, Kassian Plankensteiner, and Radu
Prodan. Using
a new event-based simulation framework for investigating resource
provisioning in Clouds. Scientific Programming, 19(2-3):161-178,
June 2011. [ bib |
DOI | .pdf ]
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[14]
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Vlad
Nae, Alexandru Iosup, and Radu Prodan. Dynamic resource provisioning in
massively multiplayer online games. IEEE Transactions on Parallel and
Distributed Systems, 22(3):380-395, March 2011. [ bib | DOI | .pdf ]
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[15]
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Vlad
Nae, Radu Prodan, Thomas Fahringer, and Alexandru Iosup. A new business
model for massively multiplayer online games. In Second Joint
WOSP/SIPEW International Conference on Performance Engineering, pages
271-282. ACM, March 2011. [ bib | DOI | http ]
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[16]
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Muhammad
Aleem, Radu Prodan, and Thomas Fahringer. On the evaluation of JavaSymphony
for homogeneous and heterogeneous multi-core clusters. In Mario R.
Guarracino, Frédéric Vivien, Jesper Larsson Träff, Mario Cannatoro,
Marco Danelutto, Anders Hast, Francesca Perla, Andreas Knüpfer, Beniamino Di
Martino, and Michael Alexander, editors, Euro-Par 2010 Parallel
Processing Workshops, volume 6586 of Lecture Notes in Computer
Science, pages 23-30. Springer, 2011. [ bib | DOI | .pdf ]
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[17]
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Vlad
Nae, Radu Prodan, Alexandru Iosup, and Thomas Fahringer. Multiplayer online
games hosting on Cloud resources. In Rajkumar Buyya, James Broberg, and
Andrzej M. Goscinski, editors, Cloud Computing: Principles and
Paradigms, chapter 19, pages 491-509. John Wiley & Sons,
January 2011. [ bib |
DOI | http ]
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[18]
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Vlad
Nae, Radu Prodan, Alexandru Iosup, and Thomas Fahringer. A new business
model for massively multiplayer online games (abstracts only). SIGMETRICS
Performance Evaluation Review, 39(3):17, 2011. [ bib ]
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[19]
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Simon Ostermann, Kassian Plankensteiner, Radu
Prodan, and Thomas Fahringer. GroudSim: An event-based simulation framework for
computational Grids and Clouds. In Euro-Par 2010 - Parallel Processing
Workshops, volume 6586 of Lecture Notes in Computer Science,
pages 305-313. Springer, 2011. [ bib | DOI | .pdf ]
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[20]
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Radu
Prodan and Marek Wieczorek. Negotiation-based scheduling of scientific Grid
workflows through advance reservations. Journal of Grid Computing,
8(4):493-510, December 2010. [ bib | DOI | .pdf ]
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[21]
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Vlad
Nae, Radu Prodan, and Thomas Fahringer. Cost-efficient hosting and load
balancing of massively multiplayer online games. In 11th IEEE/ACM
International Conference on Grid Computing. 2010, October 2010.
[ bib | DOI | .pdf ]
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[22]
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Simon
Ostermann, Radu Prodan, and Thomas Fahringer. Dynamic Cloud provisioning
for scientific Grid workflows. In 11th ACM/IEEE International
Conference on Grid Computing, pages 97-104. IEEE Computer Society,
October 2010. [ bib |
DOI | .pdf ]
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[23]
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Radu
Prodan, Vlad Nae, and Thomas Fahringer. Online gaming in the Cloud. In
Peter Kunz, editor, ERCIM News, number 83, pages 47-48.
European Research Consortium for Informatics and Mathematics, October 2010.
[ bib | http ]
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[24]
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Alexandru
Iosup, Vlad Nae, and Radu Prodan. The impact of virtualization on the
performance and operational costs of massively multiplayer online games. International
Journal of Advanced Media and Communication, 4(4):364-386, September
2010. Inderscience. [ bib |
DOI | http ]
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[25]
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Muhammad
Aleem, Radu Prodan, and Thomas Fahringer. JavaSymphony: A programming and
execution environment for parallel and distributed many-core architectures.
In Pasqua D'Ambra, Mario Guarracino, and Domenico Talia, editors, Euro-Par
2010 - Parallel Processing, volume 6272 of Lecture Notes in
Computer Science, pages 139-150. Springer, August 2010. [ bib | DOI | .pdf ]
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[26]
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Simon
Ostermann, Radu Prodan, and Thomas Fahringer. Resource management for
hybrid Grid and Cloud computing. In Nick Antonopoulos and Lee Gillam,
editors, Cloud Computing: Principles, Systems and Applications,
volume 0 of Computer Communications and Networks, pages
179-194. Springer, 1 edition, August 2010. [ bib | DOI | .pdf ]
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[27]
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Kassian Plankensteiner, Radu Prodan, and Thomas
Fahringer. Scheduling
scientific workflows to meet soft deadlines in the absence of failure
models. In Pasqua D'Ambra, Mario Guarracino, and Domenico Talia, editors, Euro-Par
2010 - Parallel Processing, volume 6271 of Lecture Notes in
Computer Science, pages 367-378. Springer, August 2010. [ bib | DOI | .pdf ]
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[28]
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Radu
Prodan and Vlad Nae. edutain@grid: A resource management platform for
massively multiplayer online games. In Agustin Soria and Julián Maldonado,
editors, Computer Games: Learning Objectives, Cognitive Performance and
Effects on Development, Computer Science, Technology and Applications.
Nova Science Publishers, June 2010. [ bib | http ]
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[29]
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Herbert
Jordan, Radu Prodan, Vlad Nae, and Thomas Fahringer. Dynamic load
management for MMOGs in distributed environments. In 7th ACM
International Conference on Computing Frontiers, pages 337-346. ACM
SIGMICRO, May 2010. [ bib |
DOI | http ]
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[30]
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Radu
Prodan and Marek Wieczorek. Bi-criteria scheduling of scientific workflows
for the Grid. IEEE Transactions on Automation Science and Engineering,
7(2):364-376, April 2010. [ bib | DOI | .pdf ]
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[31]
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Vlad
Nae, Radu Prodan, and Thomas Fahringer. Monitoring and fault tolerance for
real-time online interactive applications. In Hai-Xiang Lin, Michael
Alexander, Martti Forsell, Andreas Knüpfer, Radu Prodan, Leonel Sousa, and
Achim Streit, editors, Euro-Par 2009 - Parallel Processing Workshops,
volume 6043 of Lecture Notes in Computer Science, pages 255-265.
Springer, 2010. [ bib |
DOI | .pdf ]
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[32]
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Simon
Ostermann, Alexandru Iosup, Nezih Yigitbasi, Radu Prodan, Thomas Fahringer,
and Dick Epema. A performance analysis of EC2 Cloud computing services for
scientific computing. In Dimiter R. Avresky, Michel Diaz, Arndt Bode,
Bruno Ciciani, and Eliezer Dekel, editors, Cloud Computing,
volume 34 of Lecture Notes of the Institute for Computer Sciences,
chapter 4, pages 115-131. Springer, 2010. [ bib | DOI | .pdf ]
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[33]
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Radu
Prodan, Farrukh Nadeem, and Thomas Fahringer. Benchmarking Grid applications
for performance and scalability predictions. In Kuan-Ching Li, Ching-Hsien
Hsu, Laurence T. Yang, Jack Dongarra, and Hans Zima, editors, Handbook
of Research on Scalable Computing Technologies. IGI Global, 2010.
[ bib | DOI | http ]
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[34]
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Hai-Xiang
Lin, Michael Alexander, Martti Forsell, Andreas Knüpfer, Radu Prodan,
Leonel Sousa, and Achim Streit, editors. Euro-Par 2009 Parallel
Processing Workshops, volume 6043 of Lecture Notes in Computer
Science. Springer, 2010. [ bib | DOI | http ]
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[35]
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Simon
Ostermann, Radu Prodan, and Thomas Fahringer. Extending Grids with Cloud
resource management for scientific computing. In 10th ACM/IEEE
International Conference on Grid Computing, pages 42-49. IEEE Computer
Society, December 2009. [ bib | DOI | .pdf ]
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[36]
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Kassian Plankensteiner, Radu Prodan, and Thomas
Fahringer. A
new fault tolerance heuristic for scientific workflows in highly
distributed environments based on resubmission impact. In 5th IEEE
International Conference on e-Science, pages 313-320. IEEE Computer
Society, December 2009. [ bib | DOI | .pdf ]
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[37]
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Radu
Prodan and Simon Ostermann. A survey and taxonomy of infrastructure as a
service and Web hosting Cloud providers. In 10th ACM/IEEE International
Conference on Grid Computing, pages 17-25. IEEE Computer Society,
December 2009. [ bib |
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[38]
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Vlad
Nae, Alexandru Iosup, Radu Prodan, and Thomas Fahringer. The impact of
virtualization on the performance of massively multiplayer online games. In
8th Annual Workshop on Network and Systems Support for Games,
pages 1-6. IEEE, November 2009. [ bib | DOI | http ]
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[39]
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Radu
Prodan and Rubing Duan. Cooperative game theory-based cost optimization for
scientific workflows. In Rajkumar Buyya and Kris Bubendorfer, editors, Market
Oriented Grid and Utility Computing, chapter 21, pages 475-494.
John Wiley & Sons, November 2009. [ bib | DOI | http ]
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[40]
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Radu Prodan, Simon Ostermann, and Kassian
Plankensteiner. Performance analysis of Grid applications in the ASKALON
environment. In 10th ACM/IEEE International Conference on Grid
Computing, pages 97-104. IEEE Computer Society, October 2009. [ bib | DOI | http ]
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[41]
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Simon
Ostermann, Markus Brejla, Radu Prodan, Thomas Fahringer, and Sabine
Schindler. Developing astrophysics workflow applications with the ASKALON
environment in the Austrian Grid. In Jens Volkert, Thomas
Fahringer, Dieter Kranzlmüller, Rene Kobler, and Wolfgang Schreiner,
editors, 3rd Austrian Grid Symposium, volume 269, pages 114-128. Austrian
Computer Society, September 2009. [ bib | http ]
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[42]
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Kassian Plankensteiner, Johannes Vergeiner, Radu
Prodan, Georg Mayr, and Thomas Fahringer. Porting LinMod to predict
precipitation in the Alps using ASKALON on the Austrian Grid. In
Jens Volkert, Thomas Fahringer, Dieter Kranzlmüller, Rene Kobler, and
Wolfgang Schreiner, editors, 3rd Austrian Grid Symposium, volume
269, pages 103-114. Austrian Computer Society, September 2009. [ bib | http ]
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[43]
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Radu
Prodan, Vlad Nae, Thomas Fahringer, and Herbert Jordan. Dynamic real-time
resource provisioning for massively multiplayer online games. In Victor
Malyshkin, editor, Parallel Computing Technologies, volume 5698 of
Lecture Notes in Computer Science, pages 98-111. Springer, August
2009. [ bib |
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[44]
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Radu
Prodan and Vlad Nae. Prediction-based real-time resource provisioning for
massively multiplayer online games. Future Generation Computer Systems,
25(7):785-793, July 2009. Elsevier. [ bib | DOI | http ]
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[45]
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Simon Ostermann, Kassian Plankensteiner, Radu
Prodan, Thomas Fahringer, and Alexandru Iosup. Workflow monitoring and
analysis tool for ASKALON. In Ramin Yahyapour, Domenico Talia, and Norbert
Meyer, editors, Grid and Services Evolution, CoreGRID, pages 1-14.
Springer, June 2009. [ bib | DOI | .pdf ]
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[46]
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Kassian Plankensteiner, Radu Prodan, Thomas
Fahringer, Attila Kertesz, and Peter Kacsuk. Fault detection,
prevention and recovery techniques in current Grid workflow systems. In Grid
and Services Evolution, CoreGRID, pages 1-13. Springer, June 2009.
[ bib |
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[47]
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Jun
Qin, Thomas Fahringer, and Radu Prodan. A novel graph based approach for
automatic composition of high quality Grid workflows. In 18th ACM
International Symposium on High Performance Distributed Computing,
pages 167-176. ACM, June 2009. [ bib | DOI | http ]
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[48]
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Rubing
Duan, Farrukh Nadeem, Jie Wang, Radu Prodan, and Thomas Fahringer. A hybrid
intelligent approach for performance modeling and prediction of workflow
activities in Grids. In 9th IEEE/ACM International Symposium on Cluster
Computing and the Grid, pages 339-347. IEEE Computer Society, May
2009. [ bib | DOI | .pdf ]
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[49]
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Radu
Prodan. Fault tolerance in Grid workflow enactment engines. In G. A.
Gravvanis, J. P. Morrison, H. R. Arabnia, and D. Power,
editors, Grid Technology and Applications: Recent Developments.
Nova Science Publishers, April 2009. [ bib | http ]
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[50]
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Marek
Wieczorek, Andreas Hoheisel, and Radu Prodan. Towards a general model of
the multi-criteria workflow scheduling on the Grid. Future Generations
Computer Systems, 25(3):237-256, March 2009. [ bib | DOI | http ]
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[51]
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Vlad
Nae, Herbert Jordan, Radu Prodan, and Thomas Fahringer. An information
system for real-time online interactive applications. In Eduardo César,
Michael Alexander, Achim Streit, Jesper Larsson Träff, Christophe
Cérin, Andreas Knüpfer, Dieter Kranzlüller, and Shantenu Jha, editors, Euro-Par
2008 Workshops - Parallel Processing, volume 5415 of Lecture Notes
in Computer Science, pages 361-370. Springer, 2009. [ bib | DOI | .pdf ]
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[52]
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Radu
Prodan. Clusters and Grids. In Benjamin W. Wah, editor, Encyclopedia
of Computer Science and Engineering, volume 1, pages 409-419.
John Wiley & Sons, Hoboken, NJ, USA, January 2009. [ bib | .html ]
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[53]
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Radu
Prodan. Programming, Analysis and Optimisation for Parallel and
Distributed Systems. Habilitation thesis, University of Innsbruck,
2009. [ bib ]
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[54]
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Vlad
Nae, Alexandru Iosup, Stefan Podlipnig, Radu Prodan, Dick Epema, and Thomas
Fahringer. Efficient management of data center resources for massively
multiplayer online games. In ACM/IEEE Conference on Supercomputing.
IEEE, November 2008. [ bib |
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[55]
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Marek
Wieczorek, Stefan Podlipnig, Radu Prodan, and Thomas Fahringer. Applying
double auctions for scheduling of scientific workflows on the Grid. In ACM/IEEE
Conference on Supercomputing, pages 1-11. IEEE, November 2008. [ bib | DOI | http ]
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[56]
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Justin
Ferris, Mike Surridge, E. Rowland Watkins, Thomas Fahringer, Radu
Prodan, Frank Glinka, Sergei Gorlatch, Christoph Anthes, Alexis Arragon,
Chris Rawlings, and Arton Lipaj. Edutain@grid: A business Grid
infrastructure for real-time on-line interactive applications. In Jörn
Altmann, Dirk Neumann, and Thomas Fahringer, editors, Grid Economics
and Business Models, volume 5206 of Lecture Notes in Computer
Science, pages 152-162. Springer, August 2008. [ bib | DOI | .pdf ]
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[57]
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Sergei
Gorlatch, Frank Glinka, Alexander Ploss, Jens Müller-Iden, Radu Prodan,
Vlad Nae, and Thomas Fahringer. Enhancing Grids for massively multiplayer
online computer games. In Emilio Luque, Tomàs Margalef, and Domingo
Benítez, editors, Euro-Par 2008 - Parallel Processing, volume 5168
of Lecture Notes in Computer Science, pages 466-477. Springer,
August 2008. [ bib |
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[58]
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Vlad
Nae, Radu Prodan, and Thomas Fahringer. Neural network-based load
prediction for highly dynamic distributed online games. In Emilio Luque,
Thomas Margalef, and Domingo Benitez, editors, Euro-Par 2008 - Parallel
Processing, volume 5168 of Lecture Notes in Computer Science,
pages 202-211. Springer, August 2008. [ bib | DOI | .pdf ]
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[59]
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Simon
Ostermann, Radu Prodan, Thomas Fahringer, Alexandru Iosup, and Dick Epema.
A trace-based investigation of the characteristics of Grid workflows. In
Thierry Priol and Marco Vanneschi, editors, From Grids to Service and
Pervasive Computing, CoreGRID, pages 191-203. Springer, August 2008.
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[60]
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Farrukh
Nadeem, Radu Prodan, Thomas Fahringer, and Alexandru Iosup. A framework for
resource availability characterization and online prediction in Grids. In
Sergei Gorlatch, Paraskevi Fragopoulou, and Thierry Priol, editors, Grid
Computing, CoreGRID, pages 209-224. Springer, July 2008. [ bib | DOI | .pdf ]
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[61]
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Farrukh
Nadeem, Radu Prodan, Thomas Fahringer, and Vincent Keller. An evaluation of
availability comparison and prediction for optimized resource selection in
the Grid. In Thierry Priol and Marco Vanneschi, editors, From Grids to
Service and Pervasive Computing, CoreGRID, pages 63-76. Springer, July
2008. [ bib |
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Radu
Prodan, Vlad Nae, Thomas Fahringer, Sergei Gorlatch, Frank Glinka,
Alexander Ploß, and Jens Müller-Iden. A Grid environment for real-time
multiplayer online games. In Sergei Gorlatch, Paraskevi Fragopoulou, and
Thierry Priol, editors, Grid Computing. Achievements and Prospects,
CoreGRID, pages 225-236. Springer, July 2008. [ bib | DOI | .pdf ]
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[63]
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Farrukh
Nadeem, Radu Prodan, Thomas Fahringer, and Alexandru Iosup. Benchmarking
Grid applications. In Domenico Talia, Ramin Yahyapour, and Wolfgang
Ziegler, editors, Grid Middleware and Services: Challenges and
Solutions, CoreGRID, pages 19-37. Springer, June 2008. [ bib | DOI | .pdf ]
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Radu
Prodan, Thomas Fahringer, Farrukh Nadeem, and Marek Wieczorek. Real-world
workflow support in the ASKALON Grid environment. In Domenico Talia, Ramin
Yahyapour, and Wolfgang Ziegler, editors, Grid Middleware and Services:
Challenges and Solutions, CoreGRID, pages 265-278. Springer, June
2008. [ bib |
DOI | .pdf ]
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[65]
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Marek
Wieczorek, Andreas Hoheisel, and Radu Prodan. Taxonomies of the
multi-criteria Grid workflow scheduling problem. In Domenico Talia, Ramin
Yahyapour, and Wolfgang Ziegler, editors, Grid Middleware and Services:
Challenges and Solutions, CoreGRID, pages 237-264. Springer, June
2008. [ bib |
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[66]
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Farrukh
Nadeem, Radu Prodan, and Thomas Fahringer. Characterizing, modeling and
predicting dynamic resource availability in a large scale multi-purpose
Grid. In 8th IEEE International Symposium on Cluster Computing and the
Grid, pages 348-357. IEEE Computer Society, May 2008. [ bib | DOI | .pdf ]
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Marek
Wieczorek, Stefan Podlipnig, Radu Prodan, and Thomas Fahringer. Bi-criteria
scheduling of scientific workflows for the Grid. In 8th IEEE
International Symposium on Cluster Computing and the Grid, pages 9-16.
IEEE Computer Society, May 2008. [ bib | DOI | .pdf ]
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Farrukh
Nadeem, Radu Prodan, Thomas Fahringer, and Alexandru Iosup. A framework for
resource availability characterization and on-line prediction in large
scale computational Grids. In Sergei Gorlatch, Paraskevi Fragopoulou, and
Thierry Priol, editors, CoreGRID Integration Workshop, Integrated
Research in Grid Computing, pages 177-190. Crete University Press, April
2008. [ bib ]
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[69]
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Simon
Ostermann, Radu Prodan, Thomas Fahringer, Alexandru Iosup, and Dick Epema.
On the characteristics of Grid workflows. In Sergei Gorlatch, Paraskevi
Fragopoulou, and Thierry Priol, editors, CoreGRID Integration Workshop,
Integrated Research in Grid Computing, pages 431-442. Crete University
Press, April 2008. [ bib ]
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Kassian
Plankensteiner, Radu Prodan, Thomas Fahringer, Attila Kertesz, and Peter
Kacsuk. Fault-tolerant behavior in state-of-the-art Grid workflow
management systems. In Sergei Gorlatch, Paraskevi Fragopoulou, and Thierry
Priol, editors, CoreGRID Integration Workshop, Integrated Research
in Grid Computing, pages 455-466. Crete University Press, April 2008.
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Radu
Prodan, Vlad Nae, Thomas Fahringer, Sergei Gorlatch, Frank Glinka,
Alexander Ploß, and Jens Müller-Iden. A Grid environment for real-time
multiplayer online games. In Sergei Gorlatch, Paraskevi Fragopoulou, and
Thierry Priol, editors, CoreGRID Integration Workshop, Integrated
Research in Grid Computing, pages 205-216. Crete University Press, April
2008. [ bib ]
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Radu
Prodan and Thomas Fahringer. Overhead analysis of scientific workflows in
Grid environments. IEEE Transactions on Parallel and Distributed
Systems, 19(3):378-393, March 2008. [ bib | DOI | .pdf ]
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Thomas
Fahringer, Radu Prodan, Rubing Duan, Jürgen Hofer, Farrukh Nadeem,
Francesco Nerieri, Jun Qin Stefan Podlipnig, Mumtaz Siddiqui,
Hong-Linh Truong, Alex Villazón, and Marek Wieczorek. ASKALON: A
development and Grid computing environment for scientific workflows. In
Ian J. Taylor, Ewa Deelman, Dennis B. Gannon, and Matthew
Shields, editors, Workflows for e-Science, chapter 27, pages
450-471. Springer, December 2007. [ bib | DOI | .pdf ]
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Radu
Prodan. Specification and runtime workflow support in the ASKALON Grid
environment. Scientific programming, 15(4):193-211, December 2007.
IOS Press. [ bib |
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[75]
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Rubing
Duan, Radu Prodan, and Thomas Fahringer. Performance and cost optimization
for multiple large-scale Grid workflow applications. In ACM/IEEE
Conference on Supercomputing, pages 1-12. ACM, November 2007. [ bib | DOI | .pdf ]
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Farrukh
Nadeem, Radu Prodan, and Thomas Fahringer. Optimizing performance of
automatic training phase for application performance prediction in the
Grid. In Ronald H. Perrott, Barbara M. Chapman, Jaspal Subhlok,
Rodrigo Fernandes de Mello, and Laurence Tianruo Yang,
editors, High Performance Computing and Communications, number
4782 in Lecture Notes in Computer Science, pages 309-321. Springer,
September 2007. [ bib |
DOI | .pdf ]
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[77]
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Thomas
Fahringer, Christoph Anthes, Alexis Arragon, Arton Lipaj, Jens Müller-Iden,
Christopher Rawlings, Radu Prodan, and Mike Surridge. The edutain@grid
project. In Daniel J. Veit and Jörn Altmann, editors, Grid
Economics and Business Models, volume 4685 of Lecture Notes in
Computer Science, pages 182-187. Springer, August 2007. [ bib | DOI | .pdf ]
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Radu
Prodan. Specification-correct and scalable coordination of Grid
applications. Future Generation Computer Systems, 23(4):587-605,
May 2007. Elsevier. [ bib |
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Radu
Prodan. Specification-correct and scalable coordination of scientific
applications in Grid environments. In 7th IEEE International Symposium
on Cluster Computing and the Grid, pages 371-380. IEEE Computer
Society, May 2007. [ bib |
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Radu
Prodan. Online analysis and runtime steering of dynamic workflows in the
ASKALON Grid environment. In 7th IEEE International Symposium on
Cluster Computing and the Grid, pages 389-400. IEEE Computer Society,
May 2007. [ bib |
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Radu
Prodan and Thomas Fahringer. Grid Computing. Experiment Management,
Tool Integration, and Scientific Workflows, volume 4340 of Lecture
Notes in Computer Science. Springer, February 2007. [ bib | DOI | http ]
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[82]
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Farrukh
Nadeem, Murtaza Yousaf, Radu Prodan, and Thomas Fahringer. Soft
benchmarks-based application performance prediction using a minimum
training set. In 2nd IEEE International Conference on e-Science and
Grid Computing, page 71. IEEE Computer Society, December 2006.
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[83]
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Francesco
Nerieri, Radu Prodan, and Thomas Fahringer. Kalipy: A tool for online
performance analysis of Grid workflows through event correlation. In 2nd
IEEE International Conference on e-Science and Grid Computing,
page 18. IEEE Computer Society, December 2006. [ bib | DOI | .pdf ]
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[84]
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Marek
Wieczorek, Mumtaz Siddiqui, Alex Villazón, Radu Prodan, and Thomas
Fahringer. Applying advance reservation to increase predictability of
workflow execution on the Grid. In 2nd IEEE International Conference on
e-Science and Grid Computing, page 82. IEEE Computer Society,
December 2006. [ bib |
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[85]
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Farrukh
Nadeem, Radu Prodan, and Thomas Fahringer. Reducing the complexity of
automatic training phase for performance prediction in the Grid. In 2nd
Doctoral Workshop on Mathematical and Engineering Methods in Computer
Science, October 2006. [ bib | http ]
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Rubing
Duan, Radu Prodan, and Thomas Fahringer. Run-time optimization for Grid
workflow applications. In 7th IEEE/ACM International Conference on Grid
Computing, pages 33-40. IEEE Computer Society, September 2006. [ bib | DOI | .pdf ]
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Francesco
Nerieri, Radu Prodan, Thomas Fahringer, and Hong Linh Truong. Overhead
analysis of Grid workflow applications. In 7th IEEE/ACM International
Conference on Grid Computing, 17-24. IEEE Computer Society, September
2006. [ bib |
DOI | .pdf ]
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Felix
Schüller, Jun Qin, Farrukh Nadeem, Radu Prodan, and Thomas Fahringer.
Performance, scalability and quality of the meteorological Grid workflow
MeteoAG. In Jens Volkert, Thomas Fahringer, Dieter Kranzlmüller, and
Wolfgang Schreiner, editors, 2nd Austrian Grid Symposium, volume
221 of 155-165. Austrian Computer Society, September 2006. [ bib | .html ]
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[89]
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Rubing
Duan, Radu Prodan, and Thomas Fahringer. Data mining-based fault prediction
and detection on the Grid. In 15th IEEE International Conference on
High Performance Distributed Computing, pages 305-308. IEEE Computer
Society, June 2006. [ bib |
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Marek
Wieczorek, Radu Prodan, and Thomas Fahringer. Comparison of workflow
scheduling strategies on the Grid. In Roman Wyrzykowski, Jack Dongarra,
Norbert Meyer, and Jerzy Wasniewski, editors, Parallel Processing and
Applied Mathematics, volume 3911 of Lecture Notes in Computer
Science, pages 792-800. Springer, June 2006. [ bib | DOI | .pdf ]
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[91]
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Thomas
Fahringer, Radu Prodan, Bernhard Trawöger, Bernhard Quatember, and Michael
Mayr. Workflow modelling of Grid-based system for diagnosis of coronary artery
disease with AGWL. In 1st Austrian Grid Symposium, volume 210.
Austrian Computer Society, December 2005. [ bib | .html ]
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[92]
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Francesco
Nerieri, Mumtaz Siddiqui, Jürgen Hofer, Alex Villazón, Radu Prodan, and
Thomas Fahringer. Using a heterogeneous service-oriented Grid
infrastructure for movie rendering. In Jens Volkert, Thomas Farhringer,
Dieter Kranzlmüller, and Wolfgang Schreiner, editors, 1st Austrian Grid
Symposium, volume 210. Austrian Computer Society, December 2005.
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Mumtaz
Siddiqui, Alex Villazón, Radu Prodan, and Thomas Fahringer. Advanced
reservation and co-allocation of Grid resources: A step towards an
invisible Grid. In 9th International Multitopic Conference, 1-6.
IEEE Computer Society, December 2005. [ bib | DOI | http ]
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[94]
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Thomas
Fahringer, Radu Prodan, Rubing Duan, Francesco Nerieri, Stefan Podlipnig,
Jun Qin, Mumtaz Siddiqui, Hong-Linh Truong, Alex Villazón, and Marek
Wieczorek. ASKALON: a Grid application development and computing
environment. In 6th IEEE/ACM International Workshop on Grid Computing,
pages 122-131. IEEE Computer Society, November 2005. [ bib | DOI | .pdf ]
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Radu
Prodan and Thomas Fahringer. ZEN: A directive-based experiment
specification language for performance and parameter studies of parallel
and distributed scientific applications. International Journal of High
Performance Computing and Networking, 3(2-3):103-121, November 2005.
Inderscience. [ bib |
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Rubing
Duan, Radu Prodan, and Thomas Fahringer. DEE: A distributed fault tolerant
workflow enactment engine for Grid computing. In Laurence T. Yang,
Omer F. Rana, Beniamino Di Martino, and Jack Dongarra, editors, High
Performance Computing and Communications, volume 3726 of Lecture
Notes in Computer Science, pages 704-716. Springer, October 2005.
[ bib | DOI | .pdf ]
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Marek
Wieczorek, Radu Prodan, and Thomas Fahringer. Scheduling of scientific
workflows in the ASKALON Grid environment. ACM SIGMOD Record,
34(3):56-62, September 2005. [ bib | DOI | http ]
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Radu
Prodan and Thomas Fahringer. Optimising parallel applications on the Grid
using irregular array distributions. In Peter M. A. Sloot,
Alfons G. Hoekstra, Thierry Priol, Alexander Reinefeld, and Marian
Bubak, editors, Advances in Grid Computing - European Grid Conference,
volume 3470 of Lecture Notes in Computer Science, pages 527-537.
Springer, July 2005. [ bib |
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Radu
Prodan and Thomas Fahringer. Dynamic scheduling of scientific workflow
applications on the Grid using a modular optimisation tool: A case study.
In ACM Symposion on Applied Computing, 687-694. ACM, March 2005.
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Rubing
Duan, Thomas Fahringer, Radu Prodan, Jun Qin, Alex Villazón, and Marek
Wieczorek. Real world workflow applications in the ASKALON Grid
environment. In Peter M. A. Sloot, Alfons G. Hoekstra, Thierry
Priol, Alexander Reinefeld, and Marian Bubak, editors, Advances in Grid
Computing - European Grid Conference 2005, volume 3470 of Lecture
Notes in Computer Science, pages 454-463. Springer, February 2005.
[ bib | DOI | .pdf ]
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[101]
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Thomas
Fahringer, Alexandru Jugravu, Sabri Pllana, Radu Prodan,
Clovis Seragiotto Junior, and Hong-Linh Truong. ASKALON: a tool set
for cluster and Grid computing. Concurrency and Computation: Practice
and Experience, 17(2-4):143-169, February 2005. John Wiley & Sons.
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Radu
Prodan and Thomas Fahringer. ZENTURIO: A Grid service-based tool for
optimising parallel and Grid applications. Journal of Grid Computing,
2(1):15-29, February 2005. Springer. [ bib | DOI | .pdf ]
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Radu
Prodan and Thomas Fahringer. ZENTURIO: A Grid middleware-based tool for
experiment management of parallel and distributed applications. Journal
of Parallel and Distributed Computing, 64(6):693-707, June 2004.
Elsevier. [ bib |
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Radu
Prodan, Andreas Bonelli, Andreas Adelmann, Thomas Fahringer, and Christoph
Überhuber. Benchmarking parallel three-dimensional FFT kernels with
ZENTURIO. In Marian Bubak, Geert Dick van Albada, Peter M. A.
Sloot, and Jack J. Dongarra, editors, Computational Science - ICCS
2004, volume 3037 of Lecture Notes in Computer Science, pages
459-466. Springer, May 2004. [ bib | DOI | .pdf ]
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Radu
Prodan. Experiment Management, Performance Optimisation and Tool Integration
in Grid Computing. PhD thesis, Vienna University of Technology, 2004.
ID-Number: 1109. [ bib ]
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Radu
Prodan and Thomas Fahringer. From Web services to OGSA: Experiences in
implementing an OGSA-based Grid application. In 4th International
Workshop on Grid Computing, pages 2-10. IEEE Computer Society,
November 2003. [ bib |
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John M.
Kewley and Radu Prodan. The FIRST framework for interoperable run-time
software tools. In Thomas Ludwig and Barton P. Miller, editors, On-line
Monitoring Systems and Computer Tool Interoperability, pages 23-41.
Nova Science Publishers, September 2003. [ bib | http ]
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Augustin
Prodan and Radu Prodan. A Java framework for intelligent and practical
e-learning tools. In Ken Fernstrom, editor, International Conference on
Information Communication Technologies in Education, pages 45-52, July
2003. [ bib ]
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Radu
Prodan and Thomas Fahringer. A Web service-based experiment management
system for the Grid. In 17th International Parallel and Distributed
Processing Symposium, 85a. IEEE Computer Society, April 2003. Best
paper award. [ bib |
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Radu
Prodan, Thomas Fahringer, Franz Franchetti, Michael Geissler, Georg Madsen,
and Hans Moritsch. On using ZENTURIO for performance and parameter studies
on clusters and Grids. In 11th Euromicro Conference on Parallel
Distributed and Network based Processing, pages 185-192. IEEE Computer
Society, February 2003. [ bib | DOI | .pdf ]
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Radu
Prodan and Thomas Fahringer. ZENTURIO: An experiment management system for
cluster and Grid computing. In IEEE International Conference on Cluster
Computing, pages 9-18. IEEE Computer Society, September 2002. [ bib | DOI | .pdf ]
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Radu
Prodan and Thomas Fahringer. ZEN: a directive-based language for automatic
experiment management of parallel and distributed programs. In 2002
International Conference on Parallel Processing, pages 93-100. IEEE
Computer Society, August 2002. [ bib | DOI | .pdf ]
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Radu
Prodan and Thomas Fahringer. Specification and management of performance
and parameter studies for distributed and parallel architectures. In
H. R. Arabnia, editor, International Conference on Parallel and
Distributed Processing Techniques and Applications, volume 4,
pages 2100-2106. CSREA Press, June 2002. [ bib ]
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Augustin
Prodan and Radu Prodan. A collection of Java class libraries for stochastic
modelling and simulation. In Computational Science - ICCS 2002,
volume 2329 of Lecture Notes in Computer Science. Springer,
January 2002. [ bib |
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John M.
Kewley and Radu Prodan. A distributed object-oriented framework for tool
development. In Technology of Object-Oriented Languages and Systems,
pages 353-362. IEEE Computer Society, August 2000. [ bib | DOI | .pdf ]
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Augustin
Prodan, Florin Gorunescu, Radu Prodan, and Remus Campean. A Java framework
for stochastic modeling. In World Congress on Scientific Computation,
Applied Mathematics and Simulation. IMACS, August 2000. [ bib ]
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Radu
Prodan and John M. Kewley. A framework for an interoperable tool
environment. In Arndt Bode, Thomas Ludwig, Wolfgang Karl, and Roland
Wismüller, editors, Euro-Par 2000 - Parallel Processing, volume
1900 of Lecture Notes in Computer Science, pages 65-69. Springer,
August 2000. [ bib |
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Radu
Prodan and John M. Kewley. FIRST: A framework for interoperable
resources, services, and tools. In H. R. Arabnia, editor, International
Conference on Parallel and Distributed Processing Techniques and
Applications, volume 4, pages 1790-1796. CSREA Press, June 1999.
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Radu
Prodan. Implementing the OM data model and system on Objectivity/DB.
Master's thesis, Swiss Federal Institute of Technology Zurich, 1997.
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