User:Waterbug89/Books/num analy techniques

numerical analysis topics and scholars

 * Numerical analysis
 * List of numerical analysis topics
 * Abramowitz and Stegun
 * Adaptive stepsize
 * Adjoint state method
 * Affine arithmetic
 * Aitken's delta-squared process
 * Algebraic eigenvalue problem
 * The Algebraic Eigenvalue Problem
 * All-serial CORDIC
 * Applied element method
 * Approximation
 * Approximation error
 * Approximation theory
 * Artificial precision
 * Basis function
 * Bernstein polynomial
 * Bernstein's constant
 * Bi-directional delay line
 * Blossom (functional)
 * Boundary knot method
 * Boundary particle method
 * Branching CORDIC
 * Butcher group
 * Chebyshev nodes
 * Clenshaw algorithm
 * Closest point method
 * Compensated CORDIC
 * Complementarity theory
 * Computational statistics
 * Condition number
 * Continuous wavelet
 * Coopmans approximation
 * Coordinate Rotation Digital Computer
 * CORDIC
 * Curse of dimensionality
 * Curve fitting
 * DCORDIC
 * De Boor's algorithm
 * De Casteljau's algorithm
 * Difference quotient
 * Differential algebraic equation
 * Differential CORDIC
 * Digital Library of Mathematical Functions
 * Discrete Fourier transform
 * Discrete wavelet transform
 * Discretization
 * Discretization error
 * Dynamic relaxation
 * Equioscillation theorem
 * Error analysis (mathematics)
 * Estrin's scheme
 * Explicit algebraic stress model
 * Factor combining
 * False precision
 * Fast multipole method
 * FEE method
 * Finite Legendre transform
 * Finite volume method
 * Gal's accurate tables
 * Galerkin method
 * Generalized Gauss–Newton method
 * GetFEM++
 * Gradient discretisation method
 * Guard digit
 * Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables
 * Hermes Project
 * Horner's method
 * Hundred-dollar, Hundred-digit Challenge problems
 * Hybrid CORDIC
 * Hypot
 * Identifiability analysis
 * International Workshops on Lattice QCD and Numerical Analysis
 * Interval arithmetic
 * Interval contractor
 * Interval propagation
 * Isotonic regression
 * Iterative method
 * Jenkins–Traub algorithm
 * Kahan summation algorithm
 * Karlsruhe Accurate Arithmetic
 * Kempner series
 * Kulisch arithmetic
 * Lady Windermere's Fan (mathematics)
 * Lanczos approximation
 * Level set (data structures)
 * Level set method
 * Levinson recursion
 * Linear algebra
 * Linear approximation
 * List of finite element software packages
 * Local convergence
 * Loss of significance
 * Low-discrepancy sequence
 * Material point method
 * Matrix analysis
 * Merged CORDIC
 * Mesh generation
 * Meshfree methods
 * Method of fundamental solutions
 * Minimax approximation algorithm
 * Minimum polynomial extrapolation
 * Model order reduction
 * Modulus of smoothness
 * Monte Carlo method
 * Movable cellular automaton
 * Multi-time-step integration
 * Multigrid method
 * Multilevel fast multipole method
 * Multiphysics
 * ND4J (software)
 * ND4S
 * Nearest neighbor search
 * Newton fractal
 * Newton–Krylov method
 * NIST Handbook of Mathematical Functions
 * Non-linear least squares
 * Nonstandard finite difference scheme
 * Numeric precision in Microsoft Excel
 * Numerical continuation
 * Numerical differentiation
 * Numerical error
 * Numerical integration
 * Numerical method
 * Numerical methods in fluid mechanics
 * Numerical model of the Solar System
 * Numerical smoothing and differentiation
 * Numerical stability
 * Nyström method
 * List of operator splitting topics
 * Order of accuracy
 * Order of approximation
 * Overlap–add method
 * Overlap–save method
 * Padé approximant
 * Padé table
 * Pairwise summation
 * Parareal
 * Partial differential algebraic equation
 * Piecewise linear continuation
 * Pipelined CORDIC
 * Pocketbook of Mathematical Functions
 * Predictor–corrector method
 * Propagation of uncertainty
 * Pseudo-multiplication
 * Pseudo-spectral method
 * Bellman pseudospectral method
 * Chebyshev pseudospectral method
 * Flat pseudospectral method
 * Legendre pseudospectral method
 * Pseudospectral knotting method
 * Ross–Fahroo lemma
 * Ross–Fahroo pseudospectral method
 * Ross' π lemma
 * Radial basis function
 * Rate of convergence
 * Redundant CORDIC
 * Regularized meshless method
 * Relative change and difference
 * Remez algorithm
 * Residual (numerical analysis)
 * Residual power series method
 * Richardson extrapolation
 * Riemann solver
 * Round-off error
 * Rounding Errors in Algebraic Processes
 * Runge–Kutta methods
 * Scale co-occurrence matrix
 * Scarborough criterion
 * Semi-infinite programming
 * Series acceleration
 * Shanks transformation
 * Sigma approximation
 * Significance arithmetic
 * Significant figures
 * Simpson's rule
 * Sinc numerical methods
 * Singular boundary method
 * Sparse grid
 * Spectral method
 * Stiffness matrix
 * Successive parabolic interpolation
 * Superconvergence
 * Surrogate model
 * Symbolic-numeric computation
 * Timeline of numerical analysis after 1945
 * Trajectory (fluid mechanics)
 * Transfer matrix
 * Trigonometric tables
 * Truncated power function
 * Truncation
 * Truncation error
 * List of uncertainty propagation software
 * Unified CORDIC
 * Unisolvent functions
 * Uzawa iteration
 * Van Wijngaarden transformation
 * Vector field reconstruction
 * Volder's algorithm
 * Von Neumann stability analysis
 * Weakened weak form
 * Well-posed problem
 * Whitney inequality
 * Wilkinson's polynomial


 * appx theorists
 * Naum Akhiezer
 * Norair Arakelian
 * Sergei Natanovich Bernstein
 * Lipót Fejér
 * Ervin Feldheim
 * Leonid Kantorovich
 * Pavel Korovkin
 * Arno Kuijlaars
 * Isidor Natanson
 * Konstantin Posse
 * Evgeny Yakovlevich Remez
 * Alice Roth
 * Harold S. Shapiro
 * Vilmos Totik
 * Joseph L. Ullman
 * Richard S. Varga
 * Kōsaku Yosida
 * Yegor Ivanovich Zolotarev


 * scholars of finite element method
 * John Argyris
 * Ivo Babuška
 * Klaus-Jürgen Bathe
 * Franco Brezzi
 * Philippe G. Ciarlet
 * Ray William Clough
 * Richard Courant
 * Michael Anthony Crisfield
 * Carlos A. Felippa
 * George Fix
 * Boris Galerkin
 * Max Gunzburger
 * Alexander Hrennikoff
 * Thomas J.R. Hughes
 * Bruce Irons (engineer)
 * Andrei Knyazev (mathematician)
 * Andrew Ronald Mitchell
 * Andreas Oechsner
 * J. Tinsley Oden
 * Eugenio Oñate Ibañez de Navarra
 * John E. Osborn (mathematician)
 * J. N. Reddy
 * Peter P. Silvester
 * Gilbert Strang
 * Endre Süli
 * Edward L. Wilson
 * Olgierd Zienkiewicz


 * scholars numerical analysis
 * Milton Abramowitz
 * Bradley Alpert
 * Douglas N. Arnold
 * Esmail Babolian
 * Nikolai Sergeevich Bakhvalov
 * John B. Bell
 * Christopher Budd (mathematician)
 * Annalisa Buffa
 * John C. Butcher
 * Pafnuty Chebyshev
 * Alexandre Chorin
 * Gianfranco Cimmino
 * Phillip Colella
 * Germund Dahlquist
 * George Dantzig
 * Philip J. Davis
 * Carl R. de Boor
 * James Demmel
 * Qiang Du
 * Iain S. Duff
 * Ioana Dumitriu
 * Evgenii Georgievich D'yakonov
 * Björn Engquist
 * Alessandro Faedo
 * Fariba Fahroo
 * Brian Ford (numerical analyst)
 * Leslie Fox
 * Phyllis Fox
 * John G. F. Francis
 * Marguerite Frank
 * Paul Garabedian
 * Sergei K. Godunov
 * Gene H. Golub
 * Nikolay Govorun
 * William B. Gragg
 * Richard Hamming
 * Ami Harten
 * Douglas Hartree
 * Michael Heath (computer scientist)
 * Peter Henrici (mathematician)
 * Karl Hessenberg
 * Desmond Higham
 * Nicholas Higham
 * Alston Scott Householder
 * Jack Howlett
 * Fritz John
 * William Kahan
 * Narendra Karmarkar
 * Ervand Kogbetliantz
 * Alexander Kronrod
 * Martin Wilhelm Kutta
 * Cornelius Lanczos
 * Peter Lax
 * Vyacheslav Ivanovich Lebedev
 * Bram van Leer
 * Claude Lemaréchal
 * David Luenberger
 * Alexandru Ioan Lupaș
 * Nimrod Megiddo
 * Roderick Melnik
 * Cleve Moler
 * Hans Bruun Nielsen
 * Steven Orszag
 * Stanley Osher
 * Alexander Ostrowski
 * I. Michael Ross
 * Carl David Tolmé Runge
 * Robert D. Russell
 * Yousef Saad
 * Ahmed Sameh
 * Jesús María Sanz-Serna
 * Daniel Shanks
 * Naum Z. Shor
 * Stephen Smale
 * Maria Adelaide Sneider
 * Irene Stegun
 * Josef Stoer
 * Eitan Tadmor
 * Françoise Tisseur
 * John Todd (computer scientist)
 * Lloyd N. Trefethen
 * Charles F. Van Loan
 * Henk van der Vorst
 * Burton Wendroff
 * Philip Wolfe (mathematician)
 * John Wrench
 * Yinyu Ye
 * David M. Young, Jr.
 * Max August Zorn