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EasyMSG : tools and techniques for an adaptive overlapping in SPMD programming

Pascal Havé (2002)

ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique

During the development of a parallel solver for Maxwell equations by integral formulations and Fast Multipole Method (FMM), we needed to optimize a critical part including a lot of communications and computations. Generally, many parallel programs need to communicate, but choosing explicitly the way and the instant may decrease the efficiency of the overall program. So, the overlapping of computations and communications may be a way to reduce this drawback. We will see a implementation of this techniques...

EasyMSG: Tools and techniques for an adaptive overlapping in SPMD programming

Pascal Havé (2010)

ESAIM: Mathematical Modelling and Numerical Analysis

Efficient algorithms for solving nonlinear Volterra integro-differential equations with two point boundary conditions.

Garey, L.E., Shaw, R.E. (1998)

International Journal of Mathematics and Mathematical Sciences

Efficient iterative solution of linear systems from discretizing singular integral equations.

Chen, Ke (1994)

ETNA. Electronic Transactions on Numerical Analysis [electronic only]

Erratum: Spline qualocation methods for boundary integral equations.

I.H. Sloan, G.A. Chandler (1992)

Numerische Mathematik

Erratum to Numer. Math. 52, 219-240 (1988). Product Integration for the Linear Transport Equation in Slab Geometry.

G. Monegato, V. Colombo (1988)

Numerische Mathematik

Error Analysis for a Class of Degenerate-Kernel Methods.

I.H. Sloan (1975/1976)

Numerische Mathematik

Error analysis for the finite element approximation of a radiative transfer model

Christian Führer, Rolf Rannacher (1996)

ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique

Error analysis of the nonlinear multigrid method of the second kind

Wolfgang Hackbusch (1981)

Aplikace matematiky

Error Bounds and Estimates for Eigenvalues of Integral Equations. II.

A. Spence (1979)

Numerische Mathematik

Error Bounds and Estimates for Eigenvalues of Integral Equations.

A. Spence (1977/1978)

Numerische Mathematik

Error Bounds for the Approximation of Green's Kernels by Splines.

L.L. Schumaker, G. Hämmerlin (1979)

Numerische Mathematik

Error estimate of approximate solution for a quasilinear parabolic integrodifferential equation in the $L_{p}$ -space

Marián Slodička (1989)

Aplikace matematiky

The Rothe-Galerkin method is used for discretization. The rate of convergence in $C (I, L_{p} (G))$ for the approximate solution of a quasilinear parabolic equation with a Volterra operator on the right-hand side is established.

Error evaluation of approximate solutions for sum-difference equations in two variables.

Pachpatte, Baburao G. (2009)

Electronic Journal of Differential Equations (EJDE) [electronic only]

Estimation of the condition number of a matrix in the direct discretization of the Symm equation on a quasi-uniform grid.

Voronin, V.V. (2000)

Siberian Mathematical Journal

Exact and numerical solutions of Poisson equation for electrostatic potential problems.

Yıldırım, Selçuk (2008)

Mathematical Problems in Engineering

Existence and analytic approximation of solutions of Duffing type nonlinear integro-differential equation with integral boundary conditions.

Alsaedi, Ahmed, Ahmad, Bashir (2009)

Journal of Inequalities and Applications [electronic only]

Existence and approximate solutions of nonlinear integral equations.

Karoui, Abderrazek (2005)

Journal of Inequalities and Applications [electronic only]

Existence and uniqueness for non-linear singular integral equations used in fluid mechanics

E. G. Ladopoulos, V. A. Zisis (1997)

Applications of Mathematics

Non-linear singular integral equations are investigated in connection with some basic applications in two-dimensional fluid mechanics. A general existence and uniqueness analysis is proposed for non-linear singular integral equations defined on a Banach space. Therefore, the non-linear equations are defined over a finite set of contours and the existence of solutions is investigated for two different kinds of equations, the first and the second kind. Moreover, the existence of solutions is further...

Exponential convergence of hp quadrature for integral operators with Gevrey kernels

Alexey Chernov, Tobias von Petersdorff, Christoph Schwab (2011)

ESAIM: Mathematical Modelling and Numerical Analysis

Galerkin discretizations of integral equations in $ℝ^{d}$ require the evaluation of integrals $I = \int_{S^{(1)}} \int_{S^{(2)}} g (x, y) d y d x$ where S(1),S(2) are d-simplices and g has a singularity at x = y. We assume that g is Gevrey smooth for x $\neq$ y and satisfies bounds for the derivatives which allow algebraic singularities at x = y. This holds for kernel functions commonly occurring in integral equations. We construct a family of quadrature rules $𝒬_{N}$ using N function evaluations of g which achieves exponential convergence |I – $𝒬_{N}$ | ≤C exp(–rNγ) with...

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