ABSTRACT
Abstract?In an earlier paper, Unger showed that any normal mode flow table can be realized by an asynchronous sequential circuit without inserted delays in the feedback paths if and only if the flow table contains no essential hazards. No restrictions were placed on the relative magnitudes of line and gate delays. In this paper, we show that if the line delays are less than the minimum gate delay in the circuit, any normal mode sequential function can be realized without inserted delays. It is also shown that a weaker line delay assumption is sufficient. Two procedures for realizing asynchronous sequential circuits without inserted delays are presented.
INDEX TERMS
Index terms?Asynchronous sequential switching circuits, minimal delay realizations, realizations without delay elements.
CITATION

A. Friedman, D. Armstrong and P. Menon, "Realization of Asynchronous Sequential Circuits Without Inserted Delay Elements," in IEEE Transactions on Computers, vol. 17, no. , pp. 129-134, 1968.
doi:10.1109/TC.1968.227400
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