Title :
Minimum complexity FIR filters and sparse systolic arrays
Author :
Ferrari, Leonard A. ; Sankar, P.V.
Author_Institution :
Dept. of Electr. Eng., California Univ., Irvine, CA, USA
fDate :
6/1/1988 12:00:00 AM
Abstract :
The properties of B-spline approximation and the integral/derivative properties of convolution lead to efficient algorithms for the implementation of multidimensional FIR filters. The implementations are of minimum time complexity under the Nyquist criterion. The algorithm can easily be implemented using a sparse systolic array architecture. The resulting B-spline convolvers have much lower circuit complexity than systolic architectures based on conventional convolution algorithms. A two-dimensional hardware implementation based on simplifications of current architectures is presented
Keywords :
approximation theory; digital filters; splines (mathematics); B-spline approximation; Nyquist criterion; derivative properties; digital filters; integral properties; minimum complexity FIR filters; minimum time complexity; sparse systolic arrays; two-dimensional hardware implementation; Complexity theory; Computer architecture; Convolution; Digital filters; Filtering; Finite impulse response filter; Hardware; Sampling methods; Spline; Systolic arrays;
Journal_Title :
Computers, IEEE Transactions on
