Title :
A Matrix Formalism for Asynchronous Implementation of Algorithms
Author_Institution :
Philips Research Laboratory
fDate :
4/1/1984 12:00:00 AM
Abstract :
We show that well-known instructions such as if then else, fork, join, while do, can be represented as row matrices or column-matrices. We define a matrix-instruction which encompasses and generalizes the above instructions. This instruction provides us with a compact tool for describing algorithms and for synthesizing them in synchronous and asynchronous structures. We show, e.g., that the synthesis of a program by means of elementary instructions reduces to the factorization of a matrix into elementary matrices. A formalism and a computation method are introduced which generalize the author´s previous work on the subject.
Keywords :
Algorithmic state machine; P-functions; Petri nets; factorization of Boolean matrices; implementation of algorithms; microprogrammed structures; switching theory; Algorithm design and analysis; Automata; Automatic control; Computational modeling; Concurrent computing; Control systems; Digital systems; Flowcharts; Petri nets; Vocabulary; Algorithmic state machine; P-functions; Petri nets; factorization of Boolean matrices; implementation of algorithms; microprogrammed structures; switching theory;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1984.1676434
