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Multiple-input change asynchronous machines using controlled excitation and flip-flops

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2 Author(s)

A synthesis method for multiple-input change asynchronous sequential machines is proposed. The method is based on the self-synchronization principle. The internal states are realized with edge-sensitive flip-flops which are triggered selectively. The new concept of selective triggering or controlled excitation results in considerable saving in logic and more flexible design. The state assignment is arbitrary, and the number of state variables required can be made absolutely minimum.

Published in:

Switching and Automata Theory, 1973. SWAT '08. IEEE Conference Record of 14th Annual Symposium on

Date of Conference:

15-17 Oct. 1973