Title :
An exhaustive search algorithm for checking limit cycle behavior of digital filters
Author :
Premaratne, Kamal ; Kulasekere, Ernest C. ; Bauer, Peter H. ; Leclerc, Louis-Jérôme
Author_Institution :
Dept. of Electr. & Comput. Eng., Miami Univ., Coral Gables, FL, USA
fDate :
10/1/1996 12:00:00 AM
Abstract :
The presence of limit cycles that may arise in fixed-point arithmetic implementation of a digital filter can significantly impair its performance. This paper presents an algorithm to determine the presence/absence of such limit cycles. For generality, the filter is taken to be in its state-space formulation. The algorithm is applicable independent of filter order, type of quantization nonlinearity, and whether the accumulator is single or double length. It may be utilized to construct limit cycle free regions in filter coefficient space. Once a filter is determined to be limit cycle free, a technique that provides a robustness region in coefficient space where all filters remain limit cycle free is also presented
Keywords :
digital arithmetic; digital filters; filtering theory; limit cycles; state-space methods; accumulator; digital filters; exhaustive search algorithm; filter coefficient space; fixed-point arithmetic implementation; limit cycle behavior; limit cycle free regions; performance; quantization nonlinearity; robustness region; state-space formulation; Digital arithmetic; Digital filters; Fixed-point arithmetic; Limit-cycles; Nonlinear filters; Quantization; Registers; Robustness; Signal processing algorithms; Surface-mount technology;
Journal_Title :
Signal Processing, IEEE Transactions on
