On Task Relocation in Two-Dimensional Meshes
In parallel computer systems with a number of processors, external
fragmentation is caused by continuous allocation and deallocation of proces-
sors to tasks which require exclusive use of several contiguous processors.
With this condition, the system may not be able to find contiguous proces-
sors to be allocated to an incoming task even with a sufficient number of free
processors. Relocation is an approach for alleviating this problem by
reassigning the running tasks to other processors. In this paper, we examine
two relocation schemesfull relocation and partial relocation schemefor
two-dimensional meshes. The full relocation scheme is desirable when the
system is highly fragmented, while the partial relocation scheme is used
for minimizing the number of relocated tasks. For the relocation process, we
formally define and use two basic submesh movement operationsshifting
and rotating. Comprehensive computer simulation reveals that the proposed
schemes are beneficial when the relocation overhead is not high, which is
machine dependent.
- Publisher
- Elsevier
- Issue Date
- 2000
- Keywords
external fragmentation; full and partial relocation scheme; mesh-connected systems; task allocation and deallocation; task relocation
- Citation
Journal of Parallel and Distributed Computing, Vol.60, pp.616-638
- Appears in Collection
- CS-Journal Papers(저널논문)
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