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Synchronization-Free Parallel Implementation of Factored-Implicit and Explicit Techniques
Titel:
Synchronization-Free Parallel Implementation of Factored-Implicit and Explicit Techniques
Auteur:
Varghese, A. N. Raad, P. E.
Verschenen in:
International journal of computational fluid dynamics
Paginering:
Jaargang 6 (1996) nr. 2 pagina's 137-155
Jaar:
1996-04-01
Inhoud:
This work is motivated by the desire to assess the adaptability of alternating direction implicit and explicit finite difference techniques, used in computationl fluid dynamics, to parallelization on tightly-coupled, shared-memory parallel computers. The aim of the work is to achieve synchronization-free parallel implementations by the introduction and use of load balancing and processor routing schemes. Two representative and popular finite difference techniques, the implicit Beam and Warming and the explicit MacCormack techniques, are parallelized and tested on a 20-processor computer. Several parallel implementations of increasing complexity are investigated in the context of the simple heat and the more computationally intensive curvilinear grid mapping equations. In attaining near-theoretical speedups, the need for processor synchronization has to be eliminated completely. To achieve a synchronization-free parallel implementation, three stratagems are introduced and evaluated. First, each finite difference technique is split into multiple computational phases. Second, the computational loads of the working processors are carefully balanced. Finally, efficient processor routing is applied in order to avoid creating regions of processor interference. The result of combining these three novel but intuitive approaches is the gain of a general parallelization philosophy that should be applicable to finite difference and volume techniques in general. Speedup values obtained for the two specific finite difference techniques chosen for this work are significant with the largest ones resulting from more complex equations, larger size grids, and more stringent convergence criteria.
Uitgever:
Taylor & Francis
Bronbestand:
Elektronische Wetenschappelijke Tijdschriften
Details van artikel 100 van 105 gevonden artikelen
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