Practical aspects and experiencesThe performance of asynchronous iteration schemes applied to the linearized Boltzmann transport equation
References (14)
Spatial differencing of the transport equation: positivity vs. accuracy
J. Comp. Phys.
(1969)ESN: one dimensional Sn transport module for electrons
J. Quant. Spect. Rad. Trans.
(1982)- et al.
Computation efficiency of numerical methods for the multigroup discrete ordinate neutron transport equations: the slab geometry case
Nuc. Sci. Eng.
(1979) - et al.
Nuclear Reactor Theory
(1970) - et al.
Parallel iterative transport algorithms and comparative performance on distributed and common memory systems
Los Alamos National Laboratory Report, LA-UR-87-2163
(June 1987) Multimax Technical Manuel
(1986)Exploring parallel algorithms having no serial analogues
There are more references available in the full text version of this article.
Cited by (5)
Flexible communication for parallel asynchronous methods with application to a nonlinear, optimization problem
1998, Advances in Parallel ComputingOn the parallelization of a S<inf>n</inf> transport algorithm on a CRAY Y-MP
1993, Parallel ComputingChaotic Iterations for S<inf>N</inf> Transport
2018, Journal of Computational and Theoretical TransportParallelization of the three-dimensional transport equation for Boron Neutron Capture Therapy
2003, Proceedings - International Parallel and Distributed Processing Symposium, IPDPS 2003Exploiting parallelism in a S<inf>n</inf> transport algorithm: An angular approach
1994, Parallel Algorithms and Applications
Copyright © 1992 Published by Elsevier B.V.