AbstractVery large scale mathematical modelling such as accurate modelling using Navier's equations of elasticity needs both massively parallel computing and scalable algorithms. It is shown in this paper that efficient methods must be scalable with respect to the speedup measured as the ratio of the computing time of the best sequential algorithm on one processor and the computing time of the parallel algorithm on p processors. For a class of multilevel methods for elliptic partial differential equations it is shown how to balance the coarsest mesh size to the finest and the number of processors to the size of the problem to get smallest computing time and maximal efficiency. It turns out that the number of processors should grow slowly in...
A common approach to the design and implementation of parallel optimization algorithms is the a post...
We develop a fast direct solver for parallel solution of "coarse grid" problems, Ax = b, ...
The paper considers the parallel implementation of an algebraic multigrid method. The sequential ver...
This paper examines the potential of parallel computation methods for pamal differential equations (...
This paper examines the potential of parallel computation methods for partial differential equations...
Abstract: Multigrid method is widely used for computations of diffusion, fluid dynamics, e...
The objective of this work is to present a fast parallel elliptic solver that improves efficiently t...
International audienceScientific computing has become an indispensable tool in numerous fields, such...
The efficient solution of large-scale systems resulting from the discretization of partial different...
The solution of elliptic partial differential equations is a common performance bottleneck in scient...
In this paper, we discuss some of the issues in obtaining high performance for block-structured adap...
The objective of this work is to present a fast parallel elliptic solver that improves efficiently t...
We develop scalable algorithms and object-oriented code frameworks for terascale scientific simulati...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
Computational issues relevant to parallel efficiency and algorithm scalability are explored on three...
A common approach to the design and implementation of parallel optimization algorithms is the a post...
We develop a fast direct solver for parallel solution of "coarse grid" problems, Ax = b, ...
The paper considers the parallel implementation of an algebraic multigrid method. The sequential ver...
This paper examines the potential of parallel computation methods for pamal differential equations (...
This paper examines the potential of parallel computation methods for partial differential equations...
Abstract: Multigrid method is widely used for computations of diffusion, fluid dynamics, e...
The objective of this work is to present a fast parallel elliptic solver that improves efficiently t...
International audienceScientific computing has become an indispensable tool in numerous fields, such...
The efficient solution of large-scale systems resulting from the discretization of partial different...
The solution of elliptic partial differential equations is a common performance bottleneck in scient...
In this paper, we discuss some of the issues in obtaining high performance for block-structured adap...
The objective of this work is to present a fast parallel elliptic solver that improves efficiently t...
We develop scalable algorithms and object-oriented code frameworks for terascale scientific simulati...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
Computational issues relevant to parallel efficiency and algorithm scalability are explored on three...
A common approach to the design and implementation of parallel optimization algorithms is the a post...
We develop a fast direct solver for parallel solution of "coarse grid" problems, Ax = b, ...
The paper considers the parallel implementation of an algebraic multigrid method. The sequential ver...