OPTIMIST: state minimization for optimal 2-level logic implementation

OPTIMIST: state minimization for optimal 2-level logic implementation

We present a novel method for state minimization of incompletely-specified finite state machines. Where classic methods simply minimize the number of states, ours directly addresses the implementation's logic complexity, and produces an exactly optimal implementation under input encoding. The m...

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Bibliographische Detailangaben
Hauptverfasser: Fuhrer, Robert M., Nowick, Steven M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Applied computing > Physical sciences and engineering > Engineering
Computing methodologies > Artificial intelligence > Search methodologies > Heuristic function construction
Hardware > Integrated circuits > Logic circuits
Theory of computation > Formal languages and automata theory
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Beschreibung
Zusammenfassung:We present a novel method for state minimization of incompletely-specified finite state machines. Where classic methods simply minimize the number of states, ours directly addresses the implementation's logic complexity, and produces an exactly optimal implementation under input encoding. The method incorporates optimal ``state mapping'', i.e., the process of reducing the symbolic next-state relation which results from state splitting to an optimal conforming symbolic function. Further, it offers a number of convenient sites for applying heuristics to reduce time and space complexity, and is amenable to implementation based on implicit representations. Although our method currently makes use of an input encoding model, we believe it can be extended smoothly to encompass output encoding as well.
DOI:10.5555/266388.266498