Title :
Fault-tolerant QRD recursive least squares
Author :
Connolly, M.P. ; Fitzpatrick, P.
Author_Institution :
Nat. Microelectron. Res. Centre, Cork, Ireland
fDate :
3/1/1996 12:00:00 AM
Abstract :
The authors present an algorithm-based fault tolerant scheme for recursive least squares, appropriate for applications in adaptive signal processing. The technique is closely focused on the Gentleman-Kung-McWhirter triangular systolic array architecture for QR decomposition. Assuming that the array is subject to transient faults, widely separated in time and each affecting a single processor, an algorithm is given that corrects the full triangular array with a computational overhead equivalent, on average, to the interpolation of a single extra vector into the data stream. No output residuals are lost in the fault recovery. The analysis is extended to a fault-tolerant algorithm for linearly constrained QR decomposition
Keywords :
adaptive filters; adaptive signal processing; fault tolerant computing; interpolation; least squares approximations; Gentleman-Kung-McWhirter triangular systolic array architecture; QR decomposition; adaptive signal processing; algorithm-based fault tolerant scheme; data stream; fault recovery; fault-tolerant QRD recursive least squares; interpolation; single extra vector; transient faults;
Journal_Title :
Computers and Digital Techniques, IEE Proceedings -
DOI :
10.1049/ip-cdt:19960198
