K. Indireshkumar
Princeton Plasma Physics Laboratory
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Publication
Featured researches published by K. Indireshkumar.
Journal of Physics: Conference Series | 2009
John R. Cary; Jeff Candy; John W Cobb; R.H. Cohen; Tom Epperly; Donald Estep; S. I. Krasheninnikov; Allen D. Malony; D. McCune; Lois Curfman McInnes; A.Y. Pankin; Satish Balay; Johan Carlsson; Mark R. Fahey; Richard J. Groebner; Ammar Hakim; Scott Kruger; Mahmood Miah; Alexander Pletzer; Svetlana G. Shasharina; Srinath Vadlamani; David Wade-Stein; T.D. Rognlien; Allen Morris; Sameer Shende; Greg Hammett; K. Indireshkumar; A. Yu. Pigarov; Hong Zhang
FACETS (Framework Application for Core-Edge Transport Simulations), is now in its third year. The FACETS team has developed a framework for concurrent coupling of parallel computational physics for use on Leadership Class Facilities (LCFs). In the course of the last year, FACETS has tackled many of the difficult problems of moving to parallel, integrated modeling by developing algorithms for coupled systems, extracting legacy applications as components, modifying them to run on LCFs, and improving the performance of all components. The development of FACETS abides by rigorous engineering standards, including cross platform build and test systems, with the latter covering regression, performance, and visualization. In addition, FACETS has demonstrated the ability to incorporate full turbulence computations for the highest fidelity transport computations. Early indications are that the framework, using such computations, scales to multiple tens of thousands of processors. These accomplishments were a result of an interdisciplinary collaboration among computational physics, computer scientists and applied mathematicians on the team.
Journal of Physics: Conference Series | 2008
John R. Cary; Jeff Candy; R.H. Cohen; S. I. Krasheninnikov; D. McCune; Donald Estep; Jay Walter Larson; Allen D. Malony; A.Y. Pankin; Patrick H. Worley; Johann Carlsson; Ammar Hakim; Paul Hamill; Scott Kruger; Mahmood Miah; S Muzsala; Alexander Pletzer; Svetlana G. Shasharina; David Wade-Stein; Nanbor Wang; Satish Balay; Lois Curfman McInnes; Hong Zhang; T. A. Casper; Lori Freitag Diachin; Thomas Epperly; T.D. Rognlien; Mark R. Fahey; John W Cobb; Allen Morris
FACETS (Framework Application for Core-Edge Transport Simulations), now in its second year, has achieved its first coupled core-edge transport simulations. In the process, a number of accompanying accomplishments were achieved. These include a new parallel core component, a new wall component, improvements in edge and source components, and the framework for coupling all of this together. These accomplishments were a result of an interdisciplinary collaboration among computational physics, computer scientists, and applied mathematicians on the team.
Journal of Physics: Conference Series | 2007
John R. Cary; Jeff Candy; R.H. Cohen; S. I. Krasheninnikov; D. McCune; Donald Estep; Jay Walter Larson; Allen D. Malony; P H Worley; Johan Carlsson; Ammar Hakim; P Hamill; Scott Kruger; S Muzsala; Alexander Pletzer; Svetlana G. Shasharina; David Wade-Stein; N Wang; Lois Curfman McInnes; T Wildey; T. A. Casper; Lori Freitag Diachin; Tom Epperly; T.D. Rognlien; M R Fahey; J A Kuehn; Alan H. Morris; Sameer Shende; E. Feibush; Greg Hammett
The FACETS (Framework Application for Core-Edge Transport Simulations) project began in January 2007 with the goal of providing core to wall transport modeling of a tokamak fusion reactor. This involves coupling previously separate computations for the core, edge, and wall regions. Such a coupling is primarily through connection regions of lower dimensionality. The project has started developing a component-based coupling framework to bring together models for each of these regions. In the first year, the core model will be a 1 ½ dimensional model (1D transport across flux surfaces coupled to a 2D equilibrium) with fixed equilibrium. The initial edge model will be the fluid model, UEDGE, but inclusion of kinetic models is planned for the out years. The project also has an embedded Scientific Application Partnership that is examining embedding a full-scale turbulence model for obtaining the crosssurface fluxes into a core transport code.
Archive | 2010
K. Indireshkumar; D. McCune; John Wright; R. W. Harvey; A. P. Smirnov
Archive | 2009
Alexander Pletzer; D. McCune; K. Indireshkumar; Andrew Paul Morris; A.Y. Pankin; John R. Cary
Bulletin of the American Physical Society | 2009
Svetlana G. Shasharina; John R. Cary; Johan Carlsson; Ammar Hakim; Scott Kruger; Mahmood Miah; Alexander Pletzer; Srinath Vadlamani; David Wade-Stein; Satish Balay; Lois Curfman McInnes; Hong Zhang; Jeff Candy; Mark R. Fahey; Ronald E. Cohen; Tom Epperly; T.D. Rognlien; Donald Estep; A.Y. Pankin; Allen D. Malony; Alan H. Morris; Sameer Shende; K. Indireshkumar; D. McCune; A. Pigarov
Bulletin of the American Physical Society | 2009
K. Indireshkumar; D. McCune; John Wright; R.W. Harvey; A. P. Smirnov
Bulletin of the American Physical Society | 2009
John R. Cary; Satish Balay; Jeff Candy; Johan Carlsson; R.H. Cohen; Tom Epperly; Donald Estep; Mark R. Fahey; Richard J. Groebner; Ammar Hakim; Greg Hammett; K. Indireshkumar; Scott Kruger; A.D. Maloney; D. McCune; Lois Curfman McInnes; Alan H. Morris; A.Y. Pankin; Alexander Pletzer; A. Pigarov; T.D. Rognlien; Svetlana G. Shasharina; Sameer Shende; Srinath Vadlamani; Hong Zhang
Bulletin of the American Physical Society | 2009
D. McCune; Robert Andre; Eliot Feibush; Marina Gorelenkova; K. Indireshkumar; C. Ludescher-Furth; Lew Randerson; G. Bateman; Arnold H. Kritz
Archive | 2008
Glen Bateman; Federico David Halpern; Arnold H. Kritz; A.Y. Pankin; T. Rafiq; D. McCune; R. V. Budny; K. Indireshkumar
