Partial reconfiguration allows parts of the reconfigurable chip area to be configured without affecting the rest of the chip. This allows placement of tasks at run time on the reconfigurable chip. Area management is a very important issue which highly affect the utilization of the chip and hence the performance. This paper focuses on a major aspect of moving running tasks to free space for new incoming tasks (compaction). We study the effect of compacting running tasks to free more contiguous space on the system performance. First, we introduce a straightforward compaction strategy called Blind compaction. We use its performance as a reference to measure the performance of other compaction algorithms. Then we propose a two-dimensional compaction algorithm called one-corner compaction. This algorithm runs with respect to one chip corner. We further extend this algorithm to the four corners of the chip and introduce the 4-corner compaction algorithm. Finally, we compare the performance ...
Ahmed A. El Farag, Hatem M. El-Boghdadi, Samir I.