S
Sudip S. Dosanjh
Researcher at Lawrence Berkeley National Laboratory
Publications - 34
Citations - 1603
Sudip S. Dosanjh is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Exascale computing & Supercomputer. The author has an hindex of 12, co-authored 33 publications receiving 1530 citations. Previous affiliations of Sudip S. Dosanjh include Sandia National Laboratories & University of Tennessee.
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Journal ArticleDOI
The International Exascale Software Project roadmap
Jack Dongarra,Pete Beckman,Terry Moore,Patrick Aerts,Giovanni Aloisio,Jean-Claude Andre,David Barkai,Jean-Yves Berthou,Taisuke Boku,Bertrand Braunschweig,Franck Cappello,Barbara Chapman,Xuebin Chi,Alok Choudhary,Sudip S. Dosanjh,Thom H. Dunning,Sandro Fiore,Al Geist,Bill Gropp,Robert W. Harrison,Mark Hereld,Michael A. Heroux,Adolfy Hoisie,Koh Hotta,Zhong Jin,Yutaka Ishikawa,Fred Johnson,Sanjay Kale,Richard Kenway,David E. Keyes,Bill Kramer,Jesús Labarta,Alain Lichnewsky,Thomas Lippert,Bob Lucas,Barney Maccabe,Satoshi Matsuoka,Paul Messina,Peter Michielse,Bernd Mohr,Matthias S. Mueller,Wolfgang E. Nagel,Hiroshi Nakashima,Michael E. Papka,Daniel A. Reed,Mitsuhisa Sato,Edward Seidel,John Shalf,David Skinner,Marc Snir,Thomas Sterling,Rick Stevens,Frederick H. Streitz,Bob Sugar,Shinji Sumimoto,William Tang,John Taylor,Rajeev Thakur,Anne E. Trefethen,Mateo Valero,Aad J. van der Steen,Jeffrey S. Vetter,Peg Williams,Robert W. Wisniewski,Katherine Yelick +64 more
TL;DR: The work of the community to prepare for the challenges of exascale computing is described, ultimately combing their efforts in a coordinated International Exascale Software Project.
Book ChapterDOI
Exascale computing technology challenges
TL;DR: The technology challenges on the road to exascale, their underlying causes, and their effect on the future of HPC system design are described.
Journal ArticleDOI
Forced cocurrent smoldering combustion
TL;DR: In this article, an analytical model of cocurrent smoldering combustion through a very porous solid fuel is developed, where the smolder wave propagates downward, opposing an upward-forced flow of oxidizer, with the solid fuel and the gaseous oxidizer entering the reaction zone from the same direction.
Journal ArticleDOI
The influence of turbulence on erosion by a particle-laden fluid jet
TL;DR: In this article, the effects of turbulent diffusion on particle dispersion, and hence on erosion, are demonstrated numerically, and the relative rate of erosion decreases and the location of maximum wear is displaced toward the stagnation point as the turbulence intensity increases.
Journal ArticleDOI
Exascale design space exploration and co-design
Sudip S. Dosanjh,Richard F. Barrett,Douglas W. Doerfler,Simon D. Hammond,Karl Scott Hemmert,Michael A. Heroux,Paul Lin,Kevin Pedretti,Arun Rodrigues,T. G. Trucano,J. P. Luitjens +10 more
TL;DR: A methodology for this comparison and application comparison is described and applies it to a particularly challenging mini-application and a multi-faceted methodology for design space exploration is described.