| [1] |
R. Bondarescu, G. Allen, G. Daues, I. Kelley, M. Russell, E. Seidel, J. Shalf,
and M. Tobias.
The Astrophysics Simulation Collaboratory portal: a framework
for effective distributed research.
Future Generation Computer Systems, 21(2):259-270, 2005. [ bib | http | .pdf ] |
| [2] |
G. Allen and E. Seidel.
Collaborative science: Astrophysics requirements and experiences.
In The Grid: Blueprint for a New Computing Infrastructure (2nd
Edition), pages 201-213. Ed: Ian Foster and Carl Kesselmann, 2004. [ bib | http ] |
| [3] |
G. Allen, E. Seidel, and J. Shalf.
Scientific computing on the grid.
Byte, Spring, 2002. [ bib | .pdf ] |
| [4] |
M. Russell, G. Allen, G. Daues, I. Foster, E. Seidel, J. Novotny, J. Shalf, and
G. von Laszewski.
The astrophysics simulation collaboratory: A science portal enabling
community software development.
Cluster Computing, 5(3):297-304, 2002. [ bib | http | .pdf ] |
| [5] |
G. von Laszewski, M. Russell, I. Foster, J. Shalf, G. Allen, G. Daues,
J. Novotny, and E. Seidel.
Community software development with the astrophysics simulation
collaboratory.
Concurency and Computation: Practice and Experience,
14(13-15):1289-1301, 2002. [ bib | http | .pdf ] |
| [6] |
T. Dramlitsch, G. Allen, and E. Seidel.
Grid aware parallelizing algorithms.
2002.
Submitted to Journal of Parallel and Distributed Computing. [ bib | http | .pdf ] |
| [7] |
G. Allen, D. Angulo, I. Foster, G. Lanfermann, C. Liu, T. Radke, E. Seidel, and
J. Shalf.
The cactus worm: Experiments with dynamic resource discovery and
allocation in a grid environment.
International Journal of High Performance Computing
Applications, 15(4), 2001. [ bib | http | .pdf ] |
| [8] |
M. Russell, G. Allen, G. Daues, I. Foster, T. Goodale, H. Hege, G. Lanfermann,
A. Merzky, T. Radke, and E. Seidel.
The astrophysics simulation collaboratory: A science portal enabling
community software development.
In High Performance Distributed Computing, 2001, Proceedings of
the Tenth EEE International Symposium on High Performance Distributed
Computing (HPDC-10), pages 207-215, San Francisco, 2001. [ bib | http | .pdf ] |
| [9] |
G. von Laszewski, M. Russell, I. Foster, J. Shalf, G. Allen, G. Daues,
J. Novotny, and E. Seidel.
Community software development with the astrophysics simulation
collaboratory.
In Supercomputing 2001, (Revised version: August 2001). [ bib | http | .pdf ] |
| [10] |
G. Allen, W. Benger, T. Dramlitsch, T. Goodale, H. Hege, G. Lanfermann,
A. Merzky, T. Radke, and E. Seidel.
Cactus grid computing: Review of current development.
Springer -Verlag, 2001.
Lecture Notes in Computer Science; Vol 2150. Europar 2001: Parallel
Processing, Proceedings of 7th International Conference Manchester, UK August
28-31, 2001. [ bib | http | .pdf ] |
| [11] |
G. Allen, W. Benger, T. Goodale, H. Hege, G. Lanfermann, A. Merzky, T. Radke,
and E. Seidel.
Cactus tools for grid applications.
In Cluster Computing, volume 4(3), pages 179-188, 2001. [ bib | http | .pdf ] |
| [12] |
G. Allen, T. Dramlitsch, T. Goodale, G. Lanfermann, T. Radke, E. Seidel,
T. Kielmann, K. Verstoep, Z. Balaton, P. Kacsuk, F. Szalai, J. Gehring,
A. Keller, A. Streit, L. Matyska, M. Ruda, A. Krenek, H. Frese, H. Knipp,
A. Merzky, A. Reinefeld, F. Schintke, B. Ludwiczak, J. Nabrzyski, J. Pukacki,
H-P. Kersken, and M. Russell.
Early experiences with the egrid testbed.
In IEEE International Symposium on Cluster Computing and the
Grid, Brisbane, Australia, May 16-18 2001. [ bib | http | .pdf ] |
| [13] |
G. Allen, W. Benger, T. Goodale, H. Hege, G. Lanfermann, A. Merzky, T. Radke,
E. Seidel, and J. Shalf.
The cactus code: A problem solving environment for the grid.
In Proceedings of Ninth IEEE International Symposium on High
Performance Distributed Computing, HPDC-9, August 1-4 2000, Pittsburgh,
pages 253-260. IEEE Computer Society, 2000. [ bib | http | .pdf ] |
| [14] |
G. Allen, T. Goodale, G. Lanfermann, T. Radke, and E. Seidel.
The cactus code for the grid.
In Proceedings of the First EGrid Meeting, Poznan, 2000. [ bib | .pdf ] |
| [15] |
G. Allen, T. Dramlitsch, I. Foster, T. Goodale, N. Karonis, M. Ripeanu,
E. Seidel, and B. Toonen.
Cactus-G: Enabling High-Performance Simulation in
Heterogeneous Distributed Computing Environments.
In Proceedings of Fourth Globus Retreat, July 30 - August 1
2001, Pittsburgh, 2000. [ bib | .pdf ] |
| [16] |
G. Allen, T. Goodale, G. Lanfermann, T. Radke, E. Seidel, W. Benger, H. Hege,
A. Merrzky, J. Masso, and John Shalf.
Solving Einstein's Equations on Supercomputers.
IEEE Computer, 32, 1999.
[Cover Story]. [ bib | http | .pdf ] |
| [17] |
G. Allen, T. Goodale, J. Masso, and E. Seidel.
The cactus computational toolkit and using distributed computing to
collide neutron stars.
In Proceedings of Eighth IEEE International Symposium on High
Performance Distributed Computing, HPDC-8, Redondo Beach, 1999. IEEE
Computer Society, 1999. [ bib | http | .pdf ] |
| [18] |
G. Allen, T. Goodale, and E. Seidel.
The cactus computational collaboratory: Enabling technologies for
relativistic astrophysics, and a toolkit for solving PDEs by communities in
science and engineering.
In 7th Symposium on the Frontiers of Massively Parallel
Computation-Frontiers 99, New York, 1999. IEEE. [ bib | http | .pdf ] |
| [19] |
W. Benger, H. Hege, T. Radke, and E. Seidel.
Data description via a generalized fiber bundle data model.
2001.
Submitted to the Tenth IEEE International Symposium on High
Performance Distributed Computing (HPDC 10), San Francisco. [ bib | .pdf ] |
| [20] |
G. Lanfermann, G. Allen, T. Radke, and E. Seidel.
Nomadic migration: A new tool for dynamic grid computing.
In Proceedings of Tenth IEEE International Symposium on High
Performance Distributed Computing, HPDC-10, San Francisco, pages 435-436.
IEEE Press, 2001. [ bib | .pdf ] |
| [21] |
T. Dramlitsch, G. Allen, and E. Seidel.
Efficient techniques for distributed computing.
In Proceedings of Tenth IEEE International Symposium on High
Performance Distributed Computing, HPDC-10, San Francisco. IEEE Press, 2001. [ bib | .pdf ] |
| [22] |
M. Ripeanu, A. Iamnitchi, and I. Foster.
Performance predictions for a numerical relativity package in grid
environment.
In International Journal of High Performance Computing
Applications, volume 15(4), pages 375-387. Sage Publications, Winter 2001. [ bib | http | .pdf ] |
| [23] |
M. Ripeanu, A. Iamnitchi, and I. Foster.
Cactus Application: Performance Predictions in Grid
Environment.
In R. Sakellariou, J. Keane, J. Gurd, and L. Freeman, editors,
Europar 2001: Parallel Processing, Proceedings of 7th International
Conference Manchester, UK August 28-31, 2001, pages 807-816. Springer,
2001. [ bib | http | .pdf ] |
| [24] |
G. Allen, T. Dramlitsch, I. Foster, T. Goodale, N. Karonis, M. Ripeanu,
E. Seidel, and B. Toonen.
Cactus-G Toolkit: Supporting efficient execution in
heterogenous distributed computing environments.
In Supercomputing 2000, Proceedings of Fourth Globus Retreat,
July 30 - August 1, 2000, Pittsburgh, 2000.
Submission for Gordon Bell Prize. [ bib | http ] |
| [25] |
G. Allen, W. Benger, T. Goodale, H. Hege, G. Lanfermann, A. Merzky, T. Radke,
E. Seidel, and J. Shalf.
The cactus code: A problem solving environment for the grid.
In Proceedings of First Egrid Meeting at ISTHMUS, Poznan, April
2000, 2000. [ bib | http | .pdf ] |
| [26] |
W. Benger, I. Foster, J.n Novotny, E. Seidel, J. Shalf, W. Smith, and
P. Walker.
Numerical Relativity in a Distributed Environment.
In Proceedings of the Ninth SIAM Conference on Parallel
Processing for Scientific Computing, March 1999. [ bib | http | .pdf ] |
This file has been generated by bibtex2html 1.75