Further considerations in the design of decimators and interpolators

In this paper several issues concerning the design and implementation of multistage decimators, interpolators, and narrow-band filters are discussed. In particular, the question of designing these systems in terms of minimum storage rather than minimum computation rate is examined. It is shown that a design which uses finite impulse response (FIR) filters for each stage, and which is minimized for storage is essentially minimized in terms of computation rate as well. The problem of further improvements in designing decimators and interpolators by taking advantage of DON´T CARE frequency bands is also discussed. For the early stages in a multistage design it is shown that fairly significant reductions in filter order can be achieved in this manner. A third issue in the design process is the question of practical schemes for efficient implementation of multistage decimators and interpolators in both hardware and software. One such efficient implementation is discussed in this paper. Finally, the problem of designing multistage decimators and interpolators using elliptic infinite impulse response (IIR) filters is discussed. It is shown that multistage IIR designs can be somewhat more efficient computationally than single-stage designs; however, the storage efficiency of the multistage IIR design is worse than that of the single-stage IIR design.