Title :
A Practical Algorithm for the Solution of Triangular Systems on a Parallel Processing System
Author :
Montoye, Robert K. ; Lawrie, Duncan H.
Author_Institution :
Department of Computer Science, University of Illinois
Abstract :
An algorithm is presented for a more efficient and implementable solution of triangular systems on a parallel (SIMD) computer which requires 0(log (N)) fewer processing cycles than the best previous results, where N is the system size. We will also show that the data can be accessed and aligned in the same order of time using as many memory units as processors and Ω networks for data alignment. (Previous results dealing with this type of algorithm have not dealt in any detail with the problem of data access and alignment.)
Keywords :
Interconnection networks; limited processor algorithms; linear recurrences; numerical stability; parallel memory storage schemes; parallel processing; Arithmetic; Computer science; Concurrent computing; Joining processes; Laser mode locking; Numerical stability; Parallel processing; Partitioning algorithms; Performance evaluation; Pipelines; Interconnection networks; limited processor algorithms; linear recurrences; numerical stability; parallel memory storage schemes; parallel processing;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1982.1675924
