Abstract is missing.
- Integration of Symbolic and Numerical Methods for Optimizing Complex Engineering SystemsS. S. Tong. 3-20
- Symbiotic Computing: Opportunities and ComplicationsKellogg S. Booth, W. Morven Gentleman. 21-31
- Problem Solving Using ::::Mathematica::::Paul C. Abbott. 33-45
- Accuracy Control and Estimation, Self-Validating Systems and Software Environments for Scientific ComputationSiegfried M. Rump. 49-56
- Polyalgorithms with Automatic Method Selection for the Iterartive Solution of Linear Equations and EigenproblemsWilli Schönauer, Rüdiger Weiss, P. Sternecker. 57-67
- The Computer as Statistical AssistantJohn A. Nelder. 69-77
- Toward an Intelligent System for Mathematical Software SelectionRonald F. Boisvert. 79-92
- Fractals in Quaternions and Their Application to Computer GraphicsMasaaki Shimasaki, Yasuhiro Matsusaka, Masanobu Nomura. 95-105
- Computer Algebra Tools for Higher Symmetry Analysis of Nonlinear Evolution EquationsVladimir P. Gerdt. 107-117
- Gröbner Bases in Mathematica: Enthusiasm and FrustrationBruno Buchberger. 119-132
- Examples of Problem Solving Using Computer AlgebraDominique Duval, Françoise Jung. 133-143
- Environments for Large-Scale Scientific ComputationStuart I. Feldman. 147-155
- Software Tools for Parallel Program DevelopmentHans P. Zima, Barbara M. Chapman. 157-177
- Fortran Interface Blocks as an Interface Description Language for Remote Procedure CallsPaul E. Buis, Wayne R. Dyksen, John T. Korb. 179-189
- An Integrated Problem Solving Environment for Numerical Simulation of Engineering ProblemsNobutoshi Sagawa, Donal Finn, Neil Hurley. 191-201
- An Intelligent User Interface for a Symbolic Algebra SystemMichael E. Clarkson. 205-216
- Design and Implementation of Symbolic Computation SystemsCarla Limongelli, Alfonso Miola, Marco Temperini. 217-227
- Parallel ELLPACK: A Develoment and Problem Solving Environment for High Performance Computing MachinesElias N. Houstis, John R. Rice. 229-243
- Dynamic Software Reconfiguration Supports Scientific Problem-solving ActivitiesJames M. Purtilo. 245-256
- Visual PDEQSOL: A Visual and Interactive Environment for Numerical SimulationYukio Umetani, Chisato Konno, Tadashi Ohta. 259-269
- Display of Functions of Three Space Variables and Time Using Shaded Polygons and SoundWilliam M. Coughran Jr., Eric Grosse. 271-277
- Distributed Visual Programming Environment: An Attempt to Integrate Third Generation Languages with Advanced User EnvironmentsFrank M. Rijnders, Hans J. W. Spoelder, Frans C. A. Groen. 279-291
- Visalization and its Use in Scientific ComputationKen Brodlie, Martin Berzins, Peter M. Dew, A. Poon, Helen Wright. 293-305
- Automatic Generation of Optimized Numerical Code for Jacobians and HessiansF. C. Berger, V. V. Goldman, M. C. van Heerwaarden, J. A. van Hulzen. 309-319
- Transcript Editing, a Simple User Interface ToolNiklas Holsti. 321-329
- Mathematical User Interfaces for Graphical WorkstationsAllan Bonadio. 331-342
- The Fortran 90 StandardJ. K. Reid. 343-348
- SENAC: Lisp as a Platform for Constructing a Problem Solving EnvironmentKevin A. Broughan. 351-361
- Future Research Directions in Problem Solving Environments for Computational ScienceJohn R. Rice. 363-369
- The ESPRIT Project FOCUSColin W. Cryer. 371-381
- Using Focus Technology to Build Front EndsStephen J. Hague. 383-394