An Operation and Interconnection Sharing Algorithm for Reconfiguration Overhead Reduction Using Static Partial Reconfiguration

Abstract

In most reconfigurable architectures, reconfiguration overhead is a great bottleneck for repetitive reconfigurations. In this paper, we introduce a resource sharing algorithm exploiting static partial reconfiguration to reduce reconfiguration overhead between consecutive configurations. The proposed algorithm allows parameterizing reconfiguration overhead for individual resources. We also present both conservative and aggressive pruning techniques to reduce computation time. Experiments have been conducted with generated graphs and real benchmarks using a synthesizable intermediate representation. The results report that the algorithm could share up to 6.82% more resources than a previous interconnection sharing technique, and that the algorithm could reuse 80.9% resources in the selected benchmarks.