Scientific Programming Cafe Dubois

1999-2003 from Computing Science and Engineering.

• Introduction
• Ten Good Practices in Scientific Programming
• Shaw-Object Interface Between FORTRAN 95 and C++
• Scientific Computation and Functional Programming
• How Templates enable High-Performance Scientific Computing in C++
• Extending Python with Fortran
• The Matrix Template Library: Generic components for High-Performance Scientific Computing
• Using Computer Algebra to explore sound Wave Propagation in Spherical Cavities
• Dividing the Application Definition from the Execution
• Extending Maple with Compiled Routines
• VPython: 3D Interactive Scientific Graphics for students
• Serving Scientific Data over the Web
• SETI@home - Massively Distributed Computing for SETI
• Fortran: A Space Odyssey
• Scientific Programming in Field Theory. Part I
• Scientific Programming in Filed Theory. Part II
• The Inside Story on Shared Libraries and Dynamic Loading
• An Open-Source Project for Modeling Hydrodynamics in Astrophysical Systems
• Java at Middle age: Enabling Java for Computational Science
• Zoltran Data Management services for Parallel Dynamic Applications
• Distributed Computing for Pubic-Interest Climate Modeling Research
• MPI Ruby: Scripting in a Parallel Environment
• Designing Scientific Components
• Extending a Scientific Application with Scripting Capabilities
• DLR's VirtualLab: Scientific Software Just a Mouse Click Away
• Using SWIG to Bind C++ to Python
• A New Look at Expression Templates fir Matrix Computation
• The Future for Fortran
• Why Johnny Can't Build
• Issue Tracking
• XML and Computational Sciences
• Natural XML doe Data Binding, Processing, and Persistence
• Data Sharing in Scientific Simulations
• Plone and Content Management
• Gentoo Linux: The Next Generation of Linux
• Cafe Dubois: Polling Place Edition