Accuracy and Reliability in Scientific Computing

Preface; Part I. Pitfalls in Numerical Computation: 1. What can go wrong in scientific computing? Bo Einarsson; 2. Assessment of accuracy and reliability Ronald F. Boisvert, Ronald Cools and Bo Einarsson; 3. Approximating integrals, estimating errors and giving the wrong solution for a deceptively easy problem Ronald Cools; 4. An introduction to the quality of computed solutions Sven Hammarling; 5. Qualitative computing Françoise Chaitin-Chatelin and Elisabeth Traviesas-Cassan; Part II. Diagnostic Tools: 6. PRECISE and the quality of reliable numerical software Françoise Chaitin-Chatelin and Elisabeth Traviesas-Cassan; 7. Tools for the verification of approximate solutions to differential equations Wayne H. Enright; Part III. Technology for Improving Accuracy and Reliability: 8. General methods for implementing reliable and correct software Bo Einarsson; 9. The use and implementation of interval data types G. William Walster; 10. Computer-assisted proofs and self-validating methods Siegfried M. Rump; 11. Hardware assisted algorithms Craig C. Douglas and Hans Petter Langtangen; 12. Issues in accurate and reliable use of parallel computing in numerical programs William D. Gropp; 13. Software reliability engineering of numerical systems Mladen A. Vouk; Bibliography; Index.