Numerical Recipes 3rd Edition: The Art of Scientific ComputingCambridge University Press, 6 sept 2007 - 1235 páginas Co-authored by four leading scientists from academia and industry, Numerical Recipes Third Edition starts with basic mathematics and computer science and proceeds to complete, working routines. Widely recognized as the most comprehensive, accessible and practical basis for scientific computing, this new edition incorporates more than 400 Numerical Recipes routines, many of them new or upgraded. The executable C++ code, now printed in color for easy reading, adopts an object-oriented style particularly suited to scientific applications. The whole book is presented in the informal, easy-to-read style that made earlier editions so popular. Please visit www.nr.com or www.cambridge.org/us/numericalrecipes for more details. More information concerning licenses is available at: www.nr.com/licenses New key features:
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Índice
template class | 33 |
Storage for data | 752 |
Default constructor | 842 |
Return number of rows | 927 |
A Tutorial and Reference Boston Addison | 1168 |
Otras ediciones - Ver todo
Numerical Recipes 3rd Edition: The Art of Scientific Computing William H. Press,Saul A. Teukolsky,William T. Vetterling,Brian P. Flannery No hay ninguna vista previa disponible - 2007 |
Numerical Recipes 3rd Edition: The Art of Scientific Computing William H. Press,Saul A. Teukolsky,William T. Vetterling,Brian P. Flannery No hay ninguna vista previa disponible - 2007 |
Numerical Recipes 3rd Edition: The Art of Scientific Computing William H. Press No hay ninguna vista previa disponible - 2007 |
Términos y frases comunes
algorithm approximation array Bessel functions bits Brent's method calculation called Chapter Chebyshev CITED REFERENCES coefficients column complex components compute const Doub const Int constructor continued fraction convergence cumulative distribution function data points data set decomposition defined derivative deviates diagonal discrete Fourier transform distribution eigenvalues eigenvectors elements estimate evaluations example factor Figure filter formula Fourier transform fraction frequency func function value functor FURTHER READING Gaussian Gaussian quadrature given implementation input integral interpolation interval inverse iterations linear loop LU decomposition MatDoub Mathematical matrix method minimize minimum multiple Newton's method nonzero normal Numerical Analysis Numerical Recipes optimal output parameters polynomial probability problem quadrature random recurrence recurrence relation REFERENCES AND FURTHER right-hand side root routine sample sequence singular solution solve statistic step stepsize stored struct template class throw("bad tion tridiagonal variables VecDoub VecDoub_I vector void wavelet zero