Title :
Logic decomposition of speed-independent circuits
Author :
Kondratyev, Alex ; Cortadella, Jordi ; Kishinevsky, Michael ; Lavagno, Luciano ; Yakovlev, Alexandre
Author_Institution :
Aizu Univ., Wakamatsu, Japan
fDate :
2/1/1999 12:00:00 AM
Abstract :
Logic decomposition is a well-known problem in logic synthesis, but it poses new challenges when targeted to speed-independent circuits. The decomposition of a gate into smaller gates must preserve not only the functional correctness of a circuit but also speed independence, i.e., hazard freedom under unbounded gate delays. This paper presents a new method for logic decomposition of speed-independent circuits that solves the problem in two major steps: (1) logic decomposition of complex gates and (2) insertion of new signals that preserve hazard freedom. The method is shown to be more general than previous approaches and its effectiveness is evaluated by experiments on a set of benchmarks
Keywords :
asynchronous circuits; delays; hazards and race conditions; logic CAD; logic gates; asynchronous circuits; benchmarks; complex gates; functional correctness; hazard freedom; logic decomposition; logic synthesis; speed-independent circuits; unbounded gate delays; Asynchronous circuits; Circuit synthesis; Clocks; Delay; Design automation; Hazards; Logic circuits; Logic design; Timing; Wires;
Journal_Title :
Proceedings of the IEEE
