Bibliography

1

B. Allan, R. Armstrong, A. Wolfe, J. Ray, D. Bernholdt, and J. Kohl, ``The CCA core specifications in a distributed memory SPMD framework,'' Concurrency: Practice and Experience, 14:323-345, 2002.

2

R. Bramley, et al., ``Component Architectures for Distributed Scientific Problem Solving,'' IEEE Computational Science and Engineering, 5(2), pp. 50-63, 1998.

3

T. Epperly, S. Kohn, and G. Kumfert, ``Component Technology for High-Performance Scientific Simulation Software,'' Federation for Information Processing Working Conference on Software Architectures for Scientific Computing, 2000.

4

Common Component Architecture Forum. http://www.cca-forum.org.

5

A. Malony and S. Shende, ``Performance Technology for Complex Parallel and Distributed Systems,'' Distributed and Parallel Systems From Instruction Parallelism to Cluster Computing, G. Kotsis and P. Kacsuk (Eds.), Kluwer, pp. 37-46, 2000.

6

A. Cleary, S. Kohn, S. Smith, and B. Smolinski, ``Language Interoperability Mechanisms for High-Performance Scientific Applications,'' SIAM Workshop on Object-Oriented Methods for Interoperable Scientific and Engineering Computing, October 1998.

7

G. Kumfert, et al., ``Achieving Language Interoperability with Babel,'' CASC/ISCR Workshop on Object-Oriented and Component Technology for Scientific Computing, LLNL technical report UCRL-PRES-144649, 2001.

8

C. Szyperski, Component Software: Beyond Object-Oriented Programming, Addison-Wesley, 1997.

9

Object Management Group, ``CORBA Components,'' OMG TC Document orbos/99-02-95, 1999. http://www.omg.org.

10

J. Maloney, Distributed COM Application Development Using Visual C++ 6.0, Prentice Hall, 1999.

11

R. Englander and M. Loukides, Developing Java Beans (Java Series), O'Reilly and Associates, 1997. http://www.java.sun.com/products/javabeans.

12

R. Armstrong, D. Gannon, A. Geist, K. Keahey, S. Kohn, L. McInnes, S. Parker, and B. Smolinski, ``Toward a Common Component Architecture for High-Performance Scientific Computing,'' High Performance Distributed Computing Symposium, 1999.

13

CCTTSS, DOE SciDAC Center for Component Technology for Terascale Simulation Software. http://www.cca-forum.org/ccttss.

14

S. Mniszewski, P. Beckman, P. Fasel, and W. Humphrey, ``Efficient Coupling of Parallel Applications using PAWS,'' IEEE International Symposium on High Performance Distributed Computing, Chicago, IL, 1998.

15

J. St. Germain, J. McCorquodale, S. Parker, and C. Johnson, ``Uintah: A Massively Parallel Problem Solving Environment,'' High Performance Distributed Computing Conference, pp. 33-41, 2000.

16

A. Mos and John Murphy. ``Performance Monitoring of Java Component-oriented Distributed Applications,'' IEEE International Conference on Software, Telecommunications and Computer Networks - SoftCOM, 2001.

17

B. Sridharan, B. Dasarathy, and A. Mathur, ``On Building Non-Intrusive Performance Instrumentation Blocks for CORBA-based Distributed Systems,'' 4th IEEE International Computer Performance and Depenability Symposium, March 2000.

18

B. Sridharan, S. Mundkur, and A. Mathur, ``Non-intrusive Testing, Monitoring and Control of Distributed CORBA Objects,'' TOOLS Europe 2000, June 2000.

19

N. Furmento, A. Mayer, S. McGough, S. Newhouse, T. Field, and J. Darlington, ``Optimisation of Component-based Applications within a Grid Environment,'' Supercomputing, 2001.

20

N. Furmento, A. Mayer, S. McGough, S. Newhouse, T. Field, and J. Darlington, ``ICENI: Optimisation of Component Applications within a Grid Environment,'' Parallel Computing, 28:1753-1772, 2002.

21

S. Shende, A. Malony, C. Rasmussen, M. Sottile, ``A Performance Interface for Component-Based Applications,'' International Workshop on Performance Modeling, Evaluation, and Optimization of Parallel and Distributed Systems, IPDPS'03, 2003.

22

R. Bell, A. Malony, and S. Shende, ``A Portable, Extensible, and Scalable Tool for Parallel Performance Profile Analysis,'' Euro-Par 2003, LNCS 2790, Springer, pp. 17-26, 2003.

23

W. Nagel, A. Arnold, M. Weber, H.C. Hoppe, and K. Solchenbach, ``VAMPIR: Visualization and Analysis of MPI Resources,'' Supercomputer, 12(1):69-80, 1996

24

K. Lindlan, J. Cuny, A. Malony, S. Shende, B. Mohr, R. Rivenburgh, and C. Rasmussen, ``A Tool Framework for Static and Dynamic Analysis of Object-Oriented Software with Templates,'' Supercomputing, 2000.

25

M. Berger and P. Collela, ``Local Adaptive Mesh Refinement for Shock Hydrodynamics,'' Journal Computational Physics, 82:64-84, 1989.

26

J. Quirk, ``A Parallel Adaptive Grid Algorithm for Shock Hydrodynamics,'' Applied Numerical Mathematics, 20, 1996.

27

J. Villacis, et al., ``CAT: A High Performance, Distributed Component Architecture Toolkit for the Grid,'' High Performance Distributed Computing Conference, 1999.

28

XCAT project. http://www.extreme.indiana.edu/xcat/

29

Globus. http://www.globus.org.