We treat the time discretization of an initial-value problem for a homogeneous abstract parabolic equation by first using a representation of the solution as an integral along the boundary of a sector in the right half of the complex plane, then transforming this into a real integral on the finite interval , and finally applying a standard quadrature formula to this integral. The method requires the solution of a finite set of elliptic problems with complex coefficients, which are independent and may therefore be done in parallel. The method is combined with spatial discretization by finite elements
AbstractParallel algorithms combining a time discretization and overlapping domain decomposition met...
We present a parallel solution algorithm for the transient heat equation in one and two spatial dime...
In earlier work we have studied a method for discretization in time of a parabolic problem which con...
Abstract. We treat the time discretization of an initial-value problem for a homogeneous abstract pa...
Abstract. We consider the discretization in time of a parabolic equation, using a representation of ...
parallel method for time discretization of parabolic equations based on Laplace transformation and q...
We consider the discretization in time of an inhomogeneous parabolic integro-differential equation, ...
Following earlier work by Sheen, Sloan, and Thomée concerning parabolic equations we study the discr...
We propose a method to construct numerical solutions of a parabolic equation on the unit sphere. Th...
1 Introduction The numerical solution of parabolic evolution problems by Finite Elements in a domain...
In this paper, we develop a time and its corresponding spatial discretization scheme, based upon the...
Abstract: The different computational methods for 2D parabolic boundary problems have been...
Integral representations are derived for the parabolic cylinder functions U(a,x), V(a,x) and W(a,x) ...
The numerical solution of a parabolic partial differential equation is usually calculated by a times...
In time-dependent boundary integral equations, a boundary element me\-thod in space can be coupled w...
AbstractParallel algorithms combining a time discretization and overlapping domain decomposition met...
We present a parallel solution algorithm for the transient heat equation in one and two spatial dime...
In earlier work we have studied a method for discretization in time of a parabolic problem which con...
Abstract. We treat the time discretization of an initial-value problem for a homogeneous abstract pa...
Abstract. We consider the discretization in time of a parabolic equation, using a representation of ...
parallel method for time discretization of parabolic equations based on Laplace transformation and q...
We consider the discretization in time of an inhomogeneous parabolic integro-differential equation, ...
Following earlier work by Sheen, Sloan, and Thomée concerning parabolic equations we study the discr...
We propose a method to construct numerical solutions of a parabolic equation on the unit sphere. Th...
1 Introduction The numerical solution of parabolic evolution problems by Finite Elements in a domain...
In this paper, we develop a time and its corresponding spatial discretization scheme, based upon the...
Abstract: The different computational methods for 2D parabolic boundary problems have been...
Integral representations are derived for the parabolic cylinder functions U(a,x), V(a,x) and W(a,x) ...
The numerical solution of a parabolic partial differential equation is usually calculated by a times...
In time-dependent boundary integral equations, a boundary element me\-thod in space can be coupled w...
AbstractParallel algorithms combining a time discretization and overlapping domain decomposition met...
We present a parallel solution algorithm for the transient heat equation in one and two spatial dime...
In earlier work we have studied a method for discretization in time of a parabolic problem which con...