Title :
Algebraic recurrence transformations for massive parallelism
Author :
Fettweis, Gerhard P. ; Thiele, Lothar
Author_Institution :
Teknekron Commun. Syst., Berkeley, CA, USA
fDate :
12/1/1993 12:00:00 AM
Abstract :
Recursions generally present a bottleneck for the mapping of algorithms onto massively parallel architectures. A great deal of work has been done showing how to break this bottleneck using look-ahead computation. By applying results of P. Kogge and H. Stone (IEEE Trans. Comput., vol. C-22, pp. 786-793, 1973) it was shown that few basic algebraic axioms are sufficient for speeding up recursions by look-ahead techniques. This allows one to generalize architectures derived for special cases. Furthermore, it was shown that the look-ahead computation technique, known to date only for recursions with up to two operations, can be generalized to recursions with n operations. This allows the design of massively parallel architectures for more complex recursions. General algebraic examinations of expressions as described here can be applied to feedforward expressions, as well
Keywords :
parallel algorithms; parallel architectures; algebraic axioms; algebraic recurrence transformations; complex recursions; feedforward expressions; look-ahead computation; massive parallelism; parallel architectures; Circuits; Computer applications; Difference equations; Feedback loop; Interleaved codes; Parallel architectures; Parallel processing; Pipeline processing; Signal analysis; Throughput;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
