A templated programmable architecture for highly constrained embedded HD video processing
Résumé
The implementation of a video reconstruction pipeline is required to improve the quality of images delivered by highly constrained devices. These algorithms require high computing capacities—several dozens of GOPs for real-time HD 1080p video streams. Today’s embedded design constraints impose limitations both in terms of silicon budget and power consumption—usually 2 mm2 for half a Watt.
This paper presents the eISP architecture that is able to reach 188 MOPs/mW with 94 GOPs/mm2 and 378 GOPs/mW using TSMC 65-nm integration technology. This fully programmable and modular architecture, is based on an analysis of video-processing algorithms. Synthesizable VHDL is generated taking into account different parameters, which simplify the architecture sizing and characterization.