Time and Parallel Processor Bounds for Fortran-Like Loops

Author

Banerjee, Utpal ; Chen, Shyh-Ching ; Kuck, David J ; Towle, Ross A.

Author_Institution

Department of Computer Science, University of Illinois

Issue

9

fYear

1979

Firstpage

660

Lastpage

670

Abstract

The main goal of this paper is to show that a large number of processors can be used effectively to speed up simple Fortran-like loops consisting of assignment statements. A practical method is given by which one can check whether or not a statement is dependent upon another. The dependence structure of the whole loop may be of different types. For each type, a set of time and processor upper bounds is given. We also show how a loop can sometimes be transformed to change its dependence structure. Finally, we give a result on the possible splitting up of a given recurrence system into a number of smaller subsystems. These results can be used to modify and sometimes improve the bounds for the loops as demanded by special circumstances.

Keywords

Analysis of programs; Fortran-like loops; data dependence; parallel computation; processor bounds; program speedup; recurrence relations; time bounds; Aerospace control; Arithmetic; Central Processing Unit; Circuits; Concurrent computing; Hardware; Instruction sets; Instruments; Pipelines; Upper bound; Analysis of programs; Fortran-like loops; data dependence; parallel computation; processor bounds; program speedup; recurrence relations; time bounds;

fLanguage

English

Journal_Title

Computers, IEEE Transactions on

Publisher

ieee

ISSN

0018-9340

Type

jour

DOI

10.1109/TC.1979.1675434

Filename

1675434