Nowadays, adaptive signal processing systems have become a reality. Their development has been mainly driven by the need of satisfying diverging constraints and changeable user needs, like resolution and throughput versus energy consumption. System runtime tuning, based on constraints/conditions variations, can be effectively achieved by adopting reconfigurable computing infrastructures. These latter could be implemented either at the hardware or at the software level, but in any case their management and subsequent implementation is not trivial. In this chapter we present how dataflow models properties, as predictability and analyzability, can ease the development of reconfigurable signal processing systems, leading designers from modelling to physical system deployment.
CITATION STYLE
Desnos, K., & Palumbo, F. (2018). Dataflow modeling for reconfigurable signal processing systems. In Handbook of Signal Processing Systems (pp. 787–824). Springer International Publishing. https://doi.org/10.1007/978-3-319-91734-4_22
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