Title :
VLSI-suited solution of linear systems
Author :
Götze, J. ; Bruckmeier, B. ; Schwiegelshohn, U.
Author_Institution :
Inst. on Network Theory & Circuit Design, Tech. Univ. Munich, West Germany
Abstract :
One- and two-dimensional processor arrays for the orthogonal solution of systems of linear equations are presented. The arrays execute the orthogonal Faddeeva algorithm, and each processor cell is able to carry out a square-root and division-free Givens rotation (GR). Contrary to all previous approaches for orthogonal linear system solvers, the processor arrays have the following advantages: only four multipliers and two adders in each processor cell; almost full utilization of these hardware components (asymptotically 100%); and reduction of latency time from O(b) to O(log b) for one GR, where b is the number of bits
Keywords :
VLSI; adders; digital arithmetic; mathematics computing; multiplying circuits; VLSI-suited solution; division-free Givens rotation; four multipliers; full hardware component utilization; latency time reduction; linear equation systems; one-dimensional processor arrays; orthogonal Faddeeva algorithm; orthogonal linear system solvers; orthogonal solution; processor cell; square-root; two adders; two-dimensional processor arrays; Adders; Application software; Circuit synthesis; Delay; Digital signal processing; Equations; Hardware; Linear algebra; Linear systems; Signal processing algorithms;
Conference_Titel :
Circuits and Systems, 1989., IEEE International Symposium on
Conference_Location :
Portland, OR
DOI :
10.1109/ISCAS.1989.100323
