Scheibler, RobinBeuchat, RenéFerry, Corentin2017-06-232017-06-232017-06-232017https://infoscience.epfl.ch/handle/20.500.14299/138596Digital signal processors are ubiquitous in electronics, with applications ranging from sound processing to software-defined radio. Finite impulse response (FIR) filters are among the components that are used for the processing; the implementation is tailored to the user’s needs, whether they specifically need performance or configurability. Handling numerous channels in a single filter block can be achieved in hardware by running multiple filters in parallels, with a high space expense and controller overhead. This project proposes and discusses an implementation template for a pipeline that simultaneously processes a desired number of channels, while keeping coefficients configurability. The implementation we propose is economic in terms of area while meeting the theoretical timing requirements to process long filters.signalprocessingFPGAFIRfilterdesignpipelinestudent work::semester or other student projects