A highly-scaleable symmetric/asymmetric FIR processor

Based on the radix-4 Booth algorithm, we developed a highly-scaleable symmetric/asymmetric finite impulse response (FIR) architecture which comprises preprocessing unit, data latches, configurable connection units, double Booth decoders, coefficient registers, a path control unit, and a post-processing unit. In order to achieve scaleability, the configurable connection units between data latches and the double Booth decoders have been effectively addressed. The precision of filter coefficients is adjustable by using a path control unit. The double Booth decoder with single and double Booth decoding is efficiently implemented. Especially, the proposed architecture only employs data-path controls to accomplish the scaleable operations without changing word lengths and components of data latches and filter taps. A practical FIR processor, which can accommodate dynamic ranges of 8 and 16 bits of input data and filter coefficients was implemented by using the COMPASS 5 V cell library in the TSMC 0.6 /spl mu/m CMOS technology. This processor supports ten different operation modes of asymmetric, symmetric, and anti-symmetric filter coefficients at 64, 63, 32, or 16 taps for various industrial applications.