%0 Journal Article %J International Journal of High Performance Computing %D 2011 %T The International Exascale Software Project Roadmap %A Jack Dongarra %A Pete Beckman %A Terry Moore %A Patrick Aerts %A Giovanni Aloisio %A Jean-Claude Andre %A David Barkai %A Jean-Yves Berthou %A Taisuke Boku %A Bertrand Braunschweig %A Franck Cappello %A Barbara Chapman %A Xuebin Chi %A Alok Choudhary %A Sudip Dosanjh %A Thom Dunning %A Sandro Fiore %A Al Geist %A Bill Gropp %A Robert Harrison %A Mark Hereld %A Michael Heroux %A Adolfy Hoisie %A Koh Hotta %A Zhong Jin %A Yutaka Ishikawa %A Fred Johnson %A Sanjay Kale %A Richard Kenway %A David Keyes %A Bill Kramer %A Jesus Labarta %A Alain Lichnewsky %A Thomas Lippert %A Bob Lucas %A Barney MacCabe %A Satoshi Matsuoka %A Paul Messina %A Peter Michielse %A Bernd Mohr %A Matthias S. Mueller %A Wolfgang E. Nagel %A Hiroshi Nakashima %A Michael E. Papka %A Dan Reed %A Mitsuhisa Sato %A Ed Seidel %A John Shalf %A David Skinner %A Marc Snir %A Thomas Sterling %A Rick Stevens %A Fred Streitz %A Bob Sugar %A Shinji Sumimoto %A William Tang %A John Taylor %A Rajeev Thakur %A Anne Trefethen %A Mateo Valero %A Aad van der Steen %A Jeffrey Vetter %A Peg Williams %A Robert Wisniewski %A Kathy Yelick %X Over the last 20 years, the open-source community has provided more and more software on which the world’s high-performance computing systems depend for performance and productivity. The community has invested millions of dollars and years of effort to build key components. However, although the investments in these separate software elements have been tremendously valuable, a great deal of productivity has also been lost because of the lack of planning, coordination, and key integration of technologies necessary to make them work together smoothly and efficiently, both within individual petascale systems and between different systems. It seems clear that this completely uncoordinated development model will not provide the software needed to support the unprecedented parallelism required for peta/ exascale computation on millions of cores, or the flexibility required to exploit new hardware models and features, such as transactional memory, speculative execution, and graphics processing units. This report describes the work of the community to prepare for the challenges of exascale computing, ultimately combing their efforts in a coordinated International Exascale Software Project. %B International Journal of High Performance Computing %V 25 %P 3-60 %8 2011-01 %G eng %R https://doi.org/10.1177/1094342010391989 %0 Journal Article %J Advances in Parallel Computing - Parallel Computing: From Multicores and GPU's to Petascale %D 2010 %T Constructing Resiliant Communication Infrastructure for Runtime Environments in Advances in Parallel Computing %A George Bosilca %A Camille Coti %A Thomas Herault %A Pierre Lemariner %A Jack Dongarra %E Barbara Chapman %E Frederic Desprez %E Gerhard R. Joubert %E Alain Lichnewsky %E Frans Peters %E T. Priol %B Advances in Parallel Computing - Parallel Computing: From Multicores and GPU's to Petascale %V 19 %P 441-451 %G eng %R 10.3233/978-1-60750-530-3-441 %0 Journal Article %J Lecture Notes in Computer Science, OpenMP Shared Memory Parallel Programming %D 2008 %T Performance Instrumentation and Compiler Optimizations for MPI/OpenMP Applications %A Oscar Hernandez %A Fengguang Song %A Barbara Chapman %A Jack Dongarra %A Bernd Mohr %A Shirley Moore %A Felix Wolf %B Lecture Notes in Computer Science, OpenMP Shared Memory Parallel Programming %I Springer Berlin / Heidelberg %V 4315 %8 2008-00 %G eng %0 Conference Proceedings %B Second International Workshop on OpenMP %D 2006 %T Performance Instrumentation and Compiler Optimizations for MPI/OpenMP Applications %A Oscar Hernandez %A Fengguang Song %A Barbara Chapman %A Jack Dongarra %A Bernd Mohr %A Shirley Moore %A Felix Wolf %K kojak %B Second International Workshop on OpenMP %C Reims, France %8 2006-01 %G eng