Title :
Defect tolerance and yield for a wafer scale FFT processor system
Author :
Jain, Vijay K. ; Hikawa, Hiroomi ; Swartzlander, Earl E.
Author_Institution :
Dept. of Electr. Eng., Univ. of South Florida, Tampa, FL, USA
Abstract :
A wafer scale system for frame-by-frame computation of the fast Fourier-transform (FFT) is described. It is based on an eight-point FFT wafer design, which uses two types of cells, a multiply-subtract-add (MSA) cell and a coefficient ROM cell. Systematic repetition of these cells and the interconnect forms the physical wafer. The cells are designed for high performance and testability. For successive 512-point frames, the throughput is estimated at 20 million samples/s. Innovations in preplacement have reduced the traffic in the interconnect channels while enhancing the reconfigurability in the presence of defects. Estimates of wafer yield using a new model for harvesting probability are also presented
Keywords :
VLSI; digital signal processing chips; fast Fourier transforms; read-only storage; coefficient ROM cell; frame-by-frame computation; harvesting probability; interconnect channels; multiply-subtract-add; preplacement; reconfigurability; testability; throughput; wafer scale FFT processor system; yield; Computer architecture; Equations; Flow graphs; Heart; Pipelines; Read only memory;
Conference_Titel :
Wafer Scale Integration, 1991. Proceedings., [3rd] International Conference on
Conference_Location :
San Francisco, CA
Print_ISBN :
0-8186-9126-3
DOI :
10.1109/ICWSI.1991.151696
