Solving elliptic problems using ELLPACK
Solving elliptic problems using ELLPACK
Computer as Thinker/Doer: Problem-Solving Environments for Computational Science
IEEE Computational Science & Engineering
PYTHIA: a knowledge-based system to select scientific algorithms
ACM Transactions on Mathematical Software (TOMS)
ACM Transactions on Mathematical Software (TOMS) - Special issue in honor of John Rice's 65th birthday
Numerical Methods, Software, and Analysis
Numerical Methods, Software, and Analysis
Problem Solving Environments for Scientific Computing: Proceedings of the IFIP TC2 Wg2.5 Working Conf. on Problem Solving Environments for Scientific Computing, Sophia, Antipolis, France, 17-21 June, 1985
From Scientific Software Libraries to Problem-Solving Environments
IEEE Computational Science & Engineering
NAPSS—a numerical analysis problem solving system
ACM '66 Proceedings of the 1966 21st national conference
An Algorithm Selection Approach for Simulation Systems
Proceedings of the 22nd Workshop on Principles of Advanced and Distributed Simulation
Leveraging human movement in the ultimate display
AUIC '12 Proceedings of the Thirteenth Australasian User Interface Conference - Volume 126
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In this paper we review the current state of the problem solving environment (PSE) field and make projections for the future. First we describe the computing context, the definition of a PSE and the goals of a PSE. The state-of-the-art is summarized along with the principal components and paradigms for building PSEs. The discussion of the future is given in three parts: future trends, scenarios for 2010/2025, and research issues to be addressed.