Skip to Main Content

Mathematics of Computation

Published by the American Mathematical Society since 1960 (published as Mathematical Tables and other Aids to Computation 1943-1959), Mathematics of Computation is devoted to research articles of the highest quality in computational mathematics.

ISSN 1088-6842 (online) ISSN 0025-5718 (print)

The 2020 MCQ for Mathematics of Computation is 1.78.

What is MCQ? The Mathematical Citation Quotient (MCQ) measures journal impact by looking at citations over a five-year period. Subscribers to MathSciNet may click through for more detailed information.


Contents of Volume 69, Number 230
HTML articles powered by AMS MathViewer
View front and back matter from the print issue

Can a finite element method perform arbitrarily badly?
Ivo Babuška and John E. Osborn PDF
Math. Comp. 69 (2000), 443-462
Computational scales of Sobolev norms with application to preconditioning
James H. Bramble, Joseph E. Pasciak and Panayot S. Vassilevski PDF
Math. Comp. 69 (2000), 463-480
A posteriori error estimation for variational problems with uniformly convex functionals
Sergey I. Repin PDF
Math. Comp. 69 (2000), 481-500
The convergence of the cascadic conjugate-gradient method applied to elliptic problems in domains with re-entrant corners
Vladimir Shaidurov and Lutz Tobiska PDF
Math. Comp. 69 (2000), 501-520
Uniform $hp$ convergence results for the mortar finite element method
Padmanabhan Seshaiyer and Manil Suri PDF
Math. Comp. 69 (2000), 521-546
Adaptive multilevel methods in space and time for parabolic problems-the periodic case
J. B. Burie and M. Marion PDF
Math. Comp. 69 (2000), 547-581
Convergence rates to the discrete travelling wave for relaxation schemes
Hailiang Liu PDF
Math. Comp. 69 (2000), 583-608
Stability of Runge-Kutta methods for quasilinear parabolic problems
C. González and C. Palencia PDF
Math. Comp. 69 (2000), 609-628
Boundary element monotone iteration scheme for semilinear elliptic partial differential equations, Part II: Quasimonotone iteration for coupled systems
Goong Chen, Yuanhua Deng, Wei-Ming Ni and Jianxin Zhou PDF
Math. Comp. 69 (2000), 629-652
Semi-discretization of stochastic partial differential equations on $\mathbb {R}^1$ by a finite-difference method
Hyek Yoo PDF
Math. Comp. 69 (2000), 653-666
Uzawa type algorithms for nonsymmetric saddle point problems
James H. Bramble, Joseph E. Pasciak and Apostol T. Vassilev PDF
Math. Comp. 69 (2000), 667-689
The apolar bilinear form in geometric modeling
Gert Vegter PDF
Math. Comp. 69 (2000), 691-720
On the convergence of certain Gauss-type quadrature formulas for unbounded intervals
A. Bultheel, C. Díaz-Mendoza, P. González-Vera and R. Orive PDF
Math. Comp. 69 (2000), 721-747
A new summation method for power series with rational coefficients
Silvia Dassié, Marco Vianello and Renato Zanovello PDF
Math. Comp. 69 (2000), 749-756
Lattice computations for random numbers
Raymond Couture and Pierre L’Ecuyer PDF
Math. Comp. 69 (2000), 757-765
A modification of Shanks’ baby-step giant-step algorithm
David C. Terr PDF
Math. Comp. 69 (2000), 767-773
Some polynomials over $\mathbb {Q}(t)$ and their Galois groups
Gene Ward Smith PDF
Math. Comp. 69 (2000), 775-796
Tables of curves with many points
Gerard van der Geer and Marcel van der Vlugt PDF
Math. Comp. 69 (2000), 797-810
New primitive $t$-nomials $(t = 3,5)$ over $GF(2)$ whose degree is a Mersenne exponent
Toshihiro Kumada, Hannes Leeb, Yoshiharu Kurita and Makoto Matsumoto PDF
Math. Comp. 69 (2000), 811-814
Explicit resolutions of cubic cusp singularities
H. G. Grundman PDF
Math. Comp. 69 (2000), 815-825
Salem numbers of negative trace
C. J. Smyth PDF
Math. Comp. 69 (2000), 827-838
On the solutions of a family of quartic Thue equations
Alain Togbé PDF
Math. Comp. 69 (2000), 839-849
A parametric family of quintic Thue equations
István Gaál and Günter Lettl PDF
Math. Comp. 69 (2000), 851-859
Zeroes of Dirichlet $L$-functions and irregularities in the distribution of primes
Carter Bays and Richard H. Hudson PDF
Math. Comp. 69 (2000), 861-866
The third largest prime divisor of an odd perfect number exceeds one hundred
Douglas E. Iannucci PDF
Math. Comp. 69 (2000), 867-879