Benjamin A. Allan. Toward a 1.0 Specification of the Common Component Architecture for High Performance Computing. In Para'06: Workshop on State-of-the-Art in Scientific and Parallel Computing (Submitted) 2006.
Benjamin A. Allan and Robert Armstrong and David E. Bernholdt and Felipe Bertrand and Kenneth Chiu and Tamara L. Dahlgren and Kostadin Damevski and Wael R. Elwasif and Thomas G. W. Epperly and Madhusudhan Govindaraju and Daniel S. Katz and James A. Kohl and Manoj Krishnan and Gary Kumfert and J. Walter Larson and Sophia Lefantzi and Michael J. Lewis and Allen D. Malony and Lois C. McInnes and Jarek Nieplocha and Boyana Norris and Steven G. Parker and Jaideep Ray and Sameer Shende and Theresa L. Windus and Shujia Zhou. A Component Architecture for High-Performance Scientific Computing. Intl. J. High-Perf. Computing Appl. 20(2), pp. 163-202 (2006).
Rob Armstrong and Gary Kumfert and Lois Curfman McInnes and Steven Parker and Benjamin A. Allan and Matt Sottile and Thomas Epperly and Tamara Dahlgren. The CCA Component Model for High-Performance Computing. Concurrency and Computing: Practice and Experience 18(2), pp. 215-229 (2006).
David E. Bernholdt. The Common Component Architecture: Building Frameworks for Computational Science. Invited Talk, MODEST-7c: Multi-Scale, Multi-Physics Software Frameworks (in MODEST and Elsewhere), Drexel University, 15 September 2006. (Unpublished)
David E. Bernholdt. Software Architecture for High-Performance Scientific Computing: A Pragmatic Approach. [Teaching Resource] (Unpublished) 2006.
Felipe Bertrand and Randall Bramley and David E. Bernholdt and James A. Kohl and Alan Sussman and Jay W. Larson and Kostadin Damevski. Data redistribution and remote method invocation for coupled components. Journal of Parallel Distributed Computing 66(7), pp. 931-946 (2006).
Kostadin Damevski. Component Model Interoperability for Scientific Computing. PhD thesis, University of Utah. 2006.
G. Kumfert and D. E. Bernholdt and T. G. W. Epperly and J. A Kohl and L. C. McInnes and S. Parker and J. Ray. How the Common Component Architecture Advances Computational Science. In William M Tang, (ed.) SciDAC 2006, Scientific Discovery through Advanced Computing, 25--29 June 2006, Denver, Colorado, USA, volume 46 of Journal of Physics: Conference Series, pp. 479-493. Institute of Physics. 2006.
Gary Kumfert and James Leek. Writing a Protocol to Support RMI. Technical Report UCRL-TR-220292, Lawrence Livermore National Laboratory, 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
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).
L. McInnes and J. Ray and R. Armstrong and T. Dahlgren and A. Malony and B. Norris and S. Shende and J. Kenny and J. Steensland. Computational quality of service for scientific CCA applications: Composition, substitution, and reconfiguration. Technical Report ANL/MCS-P1326-0206, Argonne National Laboratory, 2006.
Lois Curfman McInnes and Benjamin A. Allan and Robert Armstrong and Steven J. Benson and David E. Bernholdt and Tamara L. Dahlgren and Lori Freitag Diachin and Manojkumar Krishnan and James A. Kohl and J. Walter Larson and Sophia Lefantzi and Jarek Nieplocha and Boyana Norris and Steven G. Parker and Jaideep Ray and Shujia Zhou. Parallel PDE-Based Simulations Using the Common Component Architecture. In Are Magnus Bruaset and Aslak Tveito, (eds.) Numerical Solution of PDEs on Parallel Computers, volume 51 of Lecture Notes in Computational Science and Engineering (LNCSE), pp. 327-384. Springer-Verlag, ISBN 978-3-540-29076-6. 2006. invited chapter, also Argonne National Laboratory technical report ANL/MCS-P1179-0704
H. N. Najm and J. Ray and M. Valorani and F. Creta and D. A. Goussis. A Computational Facility for Reacting Flow Science. Journal of Physics: Conference Series 46, pp. 53-58 (2006).
Jarek Nieplocha and Bruce Palmer and Vinod Tipparaju and Manojkumar Krishnan and Harold Trease and Edo Apra. Advances, Applications and Performance of the Global Arrays Shared Memory Programming Toolkit. Intl. J. High-Perf. Computing Appl. 20(2), pp. 203-231 (2006).
Boyana Norris. Software Architecture Approaches for Adaptive Scientific Comp uting. In Applied Parallel Computing: 7th International Conference, PARA 2004, Lyngby, Denmark, June 20-23, 2004. Revised Selected Papers, volume 3732 of Lecture Notes in Computer Science, pp. 629-636. Springer Berlin / Heidelberg. 2006.
Boyana Norris. Software Architecture Issues in Scientific Component Development. In Jack Dongarra and Kaj Madsen and Jerzy Wasniewski, (eds.) Applied Parallel Computing: 7th International Conference, PARA 2004, Lyngby, Denmark, June 20-23, 2004. Revised Selected Papers, volume 3732 of Lecture Notes in Computer Science, pp. 629-636. Springer Berlin / Heidelberg. 2006.
S.G. Parker. A Component-Based Architecture for Parallel Multi-physics PDE Simulation. Future Generation Computer Systems 22(1-2), pp. 204-216 (2006).
Craig E Rasmussen and Matthew J. Sottile and Sameer Shende and Allen D. Malony. Bridging the Language Gap in Scientific Computing: The Chasm Approach. Concurrency and Computation: Practice and Experience 17(2--4), pp. 151-162 (2006).
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
Christopher D. Rickett and Sung-Eun Choi and Craig E Rasmussen and Matthew J. Sottile. Rapid Prototyping Frameworks for Developing Scientific Applications: A Case Study. Journal of Supercomputing 36(2), pp. 123-124 (2006).