Title :
Absolute error bounds for block floating-point direct-form digital filters
Author_Institution :
Dept. of Electr. Eng., Notre Dame Univ., IN, USA
fDate :
8/1/1995 12:00:00 AM
Abstract :
Provides an asymptotic response analysis of digital filters, which are implemented in block floating-point format. Using absolute bounds on the quantization error, conditions for the existence of certain response types and the corresponding bounds on the output are derived. It is demonstrated that by using sufficiently long block mantissa registers, the limit cycle amplitude can be made arbitrarily small by choosing the block exponent register length sufficiently high
Keywords :
delay circuits; digital filters; error analysis; filtering theory; floating point arithmetic; quantisation (signal); shift registers; absolute error bounds; asymptotic response analysis; block exponent register length; block floating-point direct-form digital filters; limit cycle amplitude; linear filters; long block mantissa registers; quantization error; wordlength reduction; Arithmetic; Digital filters; Dynamic range; Electromagnetic compatibility; Nonlinear filters; Nonlinear systems; Quantization; Transient response;
Journal_Title :
Signal Processing, IEEE Transactions on
