On chaos of digital filters in the real world
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Numerical simulations are presented showing that over certain parameter ranges, the asymptotic behavior of a real-world digital filter having a wordlength of only 16 b is virtually indistinguishable from that of an infinite wordlength digital filter. It is suggested that for all practical purposes, a finite-state machine can behave in a chaotic way if its wordlength is sufficiently large. It is concluded that the chaotic nature of a real digital filter may be hidden because of short wordlengths, but the chaotic behavior must be considered in a real digital filter when the wordlength exceeds 16 b. >
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