Title :
A single-chip pipelined 2-D FIR filter using residue arithmetic
Author :
Shanbhag, Naresh R. ; Siferd, Raymond E.
Author_Institution :
Dept. of Electr. Eng., Wright State Univ., Dayton, OH, USA
fDate :
5/1/1991 12:00:00 AM
Abstract :
Novel circuits and architecture for residue arithmetic are presented. These circuits are designed for fast and area-efficient single-chip implementation of digital signal processors. This has been achieved by following an algorithmic approach as opposed to the conventional look-up table approach. Substantial area savings have resulted. The circuits include a residue adder, residue multiplier, binary-to-residue converter, and residue-to-binary converter. Based on these circuits, a prototype single-chip, 3×3, finite impulse response (FIR), variable coefficient, linear phase filter has been designed and fabricated in standard 2-μm CMOS technology. The filter has a pipelined architecture to increase the throughput. Testability in the form of scan-path registers has been incorporated. An interesting feature of this combination is the possible tradeoff available between the precision of the filter coefficients and the image data. The chip has a die size of 6.6×4.2 mm2, dissipates 220 mW of power, and is synchronized with a 180-ns clock cycle
Keywords :
CMOS integrated circuits; computerised signal processing; digital arithmetic; digital signal processing chips; pipeline processing; two-dimensional digital filters; 180 ns; 2 micron; 220 mW; 2D digital filters; CMOS technology; FIR filter; binary-to-residue converter; finite impulse response; linear phase filter; pipelined architecture; residue adder; residue arithmetic; residue multiplier; residue-to-binary converter; scan-path registers; single-chip implementation; variable coefficient; Adders; Arithmetic; CMOS technology; Circuits; Digital signal processors; Finite impulse response filter; Prototypes; Signal design; Signal processing algorithms; Table lookup;
Journal_Title :
Solid-State Circuits, IEEE Journal of
