Performance of symbolic applications on a parallel architecture

The results of a study of a family of parallel symbolic architectures executing several parallel applications are presented. The class of architectures being simulated is characterized by a shared memory structure, by a hierarchical interconnect, and by clustered processors. Speedup measurements were obtained from six different application kernels. Measurements were also performed to assess the degradation of speedup as a function of the interconnection delays, and to study the effect of different scheduling algorithms. The results presented support the claim that the proposed architecture would be a powerful parallel symbolic computation system. The paper discusses processor starvation, fine grain parallelism, unever loads, foreign reference, schedule and indeterminate computation with respect to the applications chosen.This work was completed within the Advanced Computer Architecture Program, Micro-electronics and Technology Computer Corporation, Austin, Texas.