Number of items: 7.

S. Lefantzi and J. Ray and C. A. Kennedy and H. N. Najm. A Component-Based Toolkit for Reacting Flow with High Order Spatial Discretizations on Structured Adaptively Refined Meshes. Progress in Computational Fluid Dynamics: An International Journal 5(6), pp. 298-315 (2006).

J. C. Lee and H. N. Najm and S. Lefantzi and J. Ray and M. Frenklach and M. Valorani and D. Goussis. A CSP and Tabulation Based Adaptive Chemistry Model. Combustion Theory and Modeling (2006). in press

J. Ray and C. Kennedy and S. Lefantzi and H. N. Najm. High-order spatial discretizations and extended stability methods for reacting flows on structured adaptively refined meshes. In Third Joint Meeting of the U.S. Sections of The Combustion Institute 2003.

Benjamin A. Allan and S. Lefantzi and Jaideep Ray. The scalability impact of a component-based software engineering framework on a growing SAMR toolkit: A case study. In Parallel Computational Fluid Dynamics 2005 Elsevier. 2005.

S. Lefantzi and C. Kennedy and J. Ray and H. N. Najm. A study of the effect of higher order spatial discretizations in SAMR (Structured Adaptive Mesh Refinement) simulations. In Proceedings of the Fall Meeting of the Western States Section of the The Combustion Institute 2003. Published on CD-ROM

J. Ray and C. A. Kennedy and S. Lefantzi and H. N. Najm. Using High-Order Methods on Adaptively Refined Block-Structured Meshes--Discretizations, Interpolations, and Filters. SIAM Journal on Scientific Computing (2006). in review; also available as Sandia Technical Report SAND2005-7981

S. Lefantzi and J. Ray and H. N. Najm. Using the Common Component Architecture to Design High Performance Scientific Simulation Codes. In Proceedings of the 17<span class='mathrm'><sup>th</sup></span> International Parallel and Distributed Processing Symposium IEEE Computer Society, Los Alamitos, California, USA. 2003.

This list was generated on Sat Sep 23 05:14:03 2017 EDT.