A Unified Approach to Combinational Hazards

Author

Beister, Jochen

Author_Institution

Institut für Nachrichtenverarbeitung, Karlsruhe University

Issue

6

fYear

1974

fDate

6/1/1974 12:00:00 AM

Firstpage

566

Lastpage

575

Abstract

Transients in combinational circuits are approached through an analysis of the transition process in a pure delay circuit model that completely separates delay from structure and logic. During any transition, only monotonically increasing sequences of transient input vertices can occur because no transient input variable can change more than once. This restriction to the shortest trajectories through the transition subcube yields a common criterion for all types of hazards in feedback-free combinational circuits: a transition is hazard-free iff the transient switching function is unate in the transition subcube with respect to the initial and final vertices.

Keywords

Combinational circuits, dynamic hazards, hazard detection, Karnaugh map applications, partial ordering, pure delay model, transient switching function, transition, unate functions.; Calculus; Combinational circuits; Delay; Flip-flops; Hazards; Input variables; Lattices; Logic circuits; Strontium; Switching circuits; Combinational circuits, dynamic hazards, hazard detection, Karnaugh map applications, partial ordering, pure delay model, transient switching function, transition, unate functions.;

fLanguage

English

Journal_Title

Computers, IEEE Transactions on

Publisher

ieee

ISSN

0018-9340

Type

jour

DOI

10.1109/T-C.1974.223996

Filename

1672589