Numerical Software with Result Verification: International Dagstuhl Seminar, Dagstuhl Castle, Germany, January 19-24, 2003. Revised Papers

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Reliable computing techniques are essential if the validity of the output of a - merical algorithm is to be guaranteed to be correct. Our society relies more and more on computer systems. Usually, our systems appear to work successfully, but there are sometimes serious, and often minor, errors. Validated computing is one essential technology to achieve increased software reliability. Formal - gor in the de?nition of data types, the computer arithmetic, in algorithm design, and in program execution allows us to guarantee that the stated problem has (or does not have) a solution in an enclosing interval we compute. If the enclosure is narrow, we are certain that the result can be used. Otherwise, we have a clear warning that the uncertainty of input values might be large and the algorithm and the model have to be improved. The use of interval data types and al- rithms with controlled rounding and result veri?cation capture uncertainty in modeling and problem formulation, in model parameter estimation, in algorithm truncation, in operation round-o?, and in model interpretation. The techniques of validated computing have proven their merits in many scienti?c and engineering applications. They are based on solid and interesting theoretical studies in mathematics and computer science. Contributions from ?elds including real, complex and functional analysis, semigroups, probability, statistics,fuzzyintervalanalysis,fuzzylogic,automaticdi?erentiation,computer hardware, operating systems, compiler construction, programming languages, object-oriented modeling, parallel processing, and software engineering are all essential.

Author(s): Jürgen Wolff von Gudenberg (auth.), René Alt, Andreas Frommer, R. Baker Kearfott, Wolfram Luther (eds.)
Series: Lecture Notes in Computer Science 2991
Edition: 1
Publisher: Springer-Verlag Berlin Heidelberg
Year: 2004

Language: English
Pages: 315
Tags: Numeric Computing; Software Engineering; Programming Languages, Compilers, Interpreters; Algorithm Analysis and Problem Complexity; Mathematical Software; Numerical Analysis

Front Matter....Pages -
OOP and Interval Arithmetic – Language Support and Libraries....Pages 1-14
C-XSC 2.0 – A C++ Library for Extended Scientific Computing....Pages 15-35
Libraries, Tools, and Interactive Systems for Verified Computations Four Case Studies....Pages 36-63
Multiple Precision Interval Packages: Comparing Different Approaches....Pages 64-90
Interval Testing Strategies Applied to COSY’s Interval and Taylor Model Arithmetic....Pages 91-106
Nonlinear Parameter and State Estimation for Cooperative Systems in a Bounded-Error Context....Pages 107-123
Guaranteed Numerical Computation as an Alternative to Computer Algebra for Testing Models for Identifiability....Pages 124-131
Interval Algorithms in Modeling of Multibody Systems....Pages 132-159
Reliable Distance and Intersection Computation Using Finite Precision Geometry....Pages 160-190
On Singular Interval Systems....Pages 191-197
Result-Verifying Solution of Nonlinear Systems in the Analysis of Chemical Processes....Pages 198-205
Verified Numerical Analysis of the Performance of Switching Systems in Telecommunication....Pages 206-225
Result Verification for Computational Problems in Geodesy....Pages 226-242
Global Optimization in the COCONUT Project....Pages 243-249
An Application of Wavelet Theory to Early Breast Cancer....Pages 250-258
Using PVS to Validate the Inverse Trigonometric Functions of an Exact Arithmetic....Pages 259-273
Novel Approaches to Numerical Software with Result Verification....Pages 274-305
Static Analysis-Based Validation of Floating-Point Computations....Pages 306-313
Back Matter....Pages -