High Performance and Area Efficient Flexible DSP Datapath Synthesis

This paper presents a new methodology for the synthesis of high performance flexible datapaths, targeting computationally intensive digital signal processing kernels of embedded applications. The proposed methodology is based on a novel coarse-grained reconfigurable/flexible architectural template, which enables the combined exploitation of the horizontal and vertical parallelism along with the operation chaining opportunities found in the application´s behavioral description. Efficient synthesis techniques exploiting these architectural optimization concepts from a higher level of abstraction are presented and analyzed. Extensive experimentation showed average latency and area reductions up to 33.9% and 53.9%, respectively, and higher hardware area utilization, compared to previously published high performance coarse-grained reconfigurable datapaths.