Abstract is missing.
- Enabling Low-Overhead Hybrid MPI/OpenMP Parallelism with MPCPatrick Carribault, Marc Pérache, Hervé Jourdren. 1-14 [doi]
- A ROSE-Based OpenMP 3.0 Research Compiler Supporting Multiple Runtime LibrariesChunhua Liao, Daniel J. Quinlan, Thomas Panas, Bronis R. de Supinski. 15-28 [doi]
- Binding Nested OpenMP Programs on Hierarchical Memory ArchitecturesDirk Schmidl, Christian Terboven, Dieter an Mey, H. Martin Bücker. 29-42 [doi]
- A Proposal for User-Defined Reductions in OpenMPAlejandro Duran, Roger Ferrer, Michael Klemm, Bronis R. de Supinski, Eduard Ayguadé. 43-55 [doi]
- An Extension to Improve OpenMP Tasking ControlEduard Ayguadé, James Beyer, Alejandro Duran, Roger Ferrer, Grant Haab, Kelvin Li, Federico Massaioli. 56-69 [doi]
- Towards an Error Model for OpenMPMichael Wong, Michael Klemm, Alejandro Duran, Tim Mattson, Grant Haab, Bronis R. de Supinski, Andrey Churbanov. 70-82 [doi]
- How OpenMP Applications Get More Benefit from Many-Core EraJianian Yan, Jiangzhou He, Wentao Han, Wenguang Chen, Weimin Zheng. 83-95 [doi]
- Topology-Aware OpenMP Process SchedulingPeter Thoman, Hans Moritsch, Thomas Fahringer. 96-108 [doi]
- How to Reconcile Event-Based Performance Analysis with Tasking in OpenMPDaniel Lorenz, Bernd Mohr, Christian Rössel, Dirk Schmidl, Felix Wolf. 109-121 [doi]
- Fuzzy Application Parallelization Using OpenMPChantana Chantrapornchai, J. Pipatpaisan. 122-132 [doi]
- Hybrid Parallel Programming on SMP Clusters Using XPFortran and OpenMPYuanyuan Zhang, Hidetoshi Iwashita, Kuninori Ishii, Masanori Kaneko, Tomotake Nakamura, Kohichiro Hotta. 133-148 [doi]
- A Case for Including Transactions in OpenMPMichael Wong, Barna L. Bihari, Bronis R. de Supinski, Peng Wu, Maged M. Michael, Yan Liu, Wang Chen. 149-160 [doi]
- OMPCUDA : OpenMP Execution Framework for CUDA Based on Omni OpenMP CompilerSatoshi Ohshima, Shoichi Hirasawa, Hiroki Honda. 161-173 [doi]