Abstract

Introduces queuing network models for the performance analysis of SPMD (single-program, multiple-data) applications executed on general-purpose parallel architectures such as MIMD (multiple-input, multiple data) and clusters of workstations. The models are based on the pattern of computation, communication and I/O operations of typical parallel applications. Analysis of the models leads to the definition of speedup surfaces which capture the relative influence of processors and I/O parallelism and show the effects of different hardware and software components on the performance. Since the parameters of the models correspond to measurable program and hardware characteristics, the models can be used to anticipate the performance behavior of a parallel application as a function of the target architecture (i.e. the number of processors, number of disks, I/O topology, etc.).

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