Το work with title Bi-CGSTAB for collocation equations on distributed memory parallel architectures by Papadopoulou Eleni, Saridakis Ioannis, Mathioudakis Emmanouil is licensed under Creative Commons Attribution 4.0 International
Bibliographic Citation
E. Mathioudakis, E. P. Papadopoulou ,Y. G. Saridakis, “BiCGSTAB for collocation systems on distributed memory parallel architectures," In 2001 4th European Conf. on Numerical Math. and Adv. Applications ,pp.957-966.doi:10.1007/978-88-470-2089-4_87
https://doi.org/10.1007/978-88-470-2089-4_87
In this paper, which extends and concludes our work in [3, 4], we deal with the problem of efficiently organizing the computation involved in the bi-conjugate gradient stabilized [5] iterative solution of large linear systems, in order to compute on a distributed memory parallel computer. These linear systems are associated with the discreti zation of elliptic boundary value problems using a collocation finite element method based on Hermite bi-cubic elements. The organization of the computation involved follows the methodology used in [3,4]. That is, having the collocation matrix in its normal 2-cyclic or red-black form for increased scalability, we map the computation involved on an appropriate virtual architecture which, in the sequel, is optimally repartitioned and mapped on to a fixed size architecture. The whole process leads to the development of an efficient and well-structured parallel algorithm. For demonstration purposes the algorithm was realized on a distributed memory Parsytee Cognitive computer CC-2.