Numerical Recipes in FORTRAN Example Book: The Art of Scientific Computing
The example books published as part of the Numerical Recipes second
edition series contain source programs that exercise and
demonstrate all of the Numerical Recipes subroutines. Each example
program contains comments and is prefaced by a short description of
what it does. The books contain all of the old material from the
original edition as well as new material from the second edition.
They will be valuable for readers who wish to incorporate
procedures and subroutines into their own source programs. They are
available in both FORTRAN and C.
Table of contents:
Preface; 1. Preliminaries; 2. Solution of linear algebraic
equations; 3. Interpolation and extrapolation; 4. Integration of
functions; 5. Evaluation of functions; 6. Special functions; 7.
Random numbers; 8. Sorting; 9. Root finding and nonlinear sets of
equations; 10. Minimization and maximization of functions; 11.
Eigensystems; 12. Fast Fourier transform; 13. Fourier and spectral
applications; 14. Statistical description of data; 15. Modeling of
data; 16. Integration of ordinary differential equations; 17. Two
point boundary value problems; 18. Integral equations and inverse
theory; 19. Partial differential equations; 20. Less-numerical
algorithms; Index of demonstrated subroutines.
The example books published as part of the Numerical Recipes second
edition series contain source programs that exercise and
demonstrate all of the Numerical Recipes subroutines. Each example
program contains comments and is prefaced by a short description of
what it does. The books contain all of the old material from the
original edition as well as new material from the second
edition.
The example books published as part of the Numerical Recipes second
edition series contain source programs that exercise and
demonstrate all of the Numerical Recipes subroutines.
Preface 1. Preliminaries 2. Solution of linear algebraic equations 3. Interpolation and extrapolation 4. Integration of functions 5. Evaluation of functions 6. Special functions 7. Random numbers 8. Sorting 9. Root finding and nonlinear sets of equations 10. Minimization and maximization of functions 11. Eigensystems 12. Fast Fourier transform 13. Fourier and spectral applications 14. Statistical description of data 15. Modeling of data 16. Integration of ordinary differential equations 17. Two point boundary value problems 18. Integral equations and inverse theory 19. Partial differential equations 20. Less-numerical algorithms Index of demonstrated subroutines.
