Title :
On the testability of FFT arrays
Author_Institution :
Dept. of Comput. Sci., Texas A&M Univ., College Station, TX, USA
Abstract :
This paper presents new approaches for testing VLSI array architectures used in the computation of the complex N-point fast Fourier transform. Initially, an unrestricted single cell-level fault model is considered. The first proposed approach is based on a process whose complexity is independent (or C- as constant) of the number of cells in the FFT architecture. This is accomplished by showing a topological equivalence between the FFT array and a linear (one-dimensional) array. The process of fault location is also analyzed. The second proposed method is based on a testing process whose complexity is linear with respect to the number of stages (columns) of the FFT array. A component-level fault model is also proposed and analyzed. The implications of this model on the C-testability process are fully described
Keywords :
VLSI; design for testability; digital signal processing chips; fast Fourier transforms; fault location; integrated circuit testing; logic testing; parallel architectures; C-testability; FFT arrays; VLSI array architectures; combinational fault model; complex N-point fast Fourier transform; component-level fault model; constant testability; fault location; linear array; single cell-level fault model; topological equivalence; Circuit faults; Circuit testing; Computer aided manufacturing; Computer architecture; Computer science; Digital signal processing; Fast Fourier transforms; Fault tolerant systems; Signal processing algorithms; Very large scale integration;
Conference_Titel :
European Test Conference, 1993. Proceedings of ETC 93., Third
Conference_Location :
Rotterdam
Print_ISBN :
0-8186-3360-3
DOI :
10.1109/ETC.1993.246555
