A State Variable Assignment Method for Asynchronous Sequential Switching Circuits
Journal of the ACM (JACM)
Synthesis of Asynchronous Sequential Circuits with Multiple-Input Changes
IEEE Transactions on Computers
Universal Single Transition Time Asynchronous State Assignments
IEEE Transactions on Computers
Hazard detection in combinational and sequential switching circuits
SWCT '64 Proceedings of the 1964 Proceedings of the Fifth Annual Symposium on Switching Circuit Theory and Logical Design
Separating and Completely Separating Systems and Linear Codes
IEEE Transactions on Computers
IEEE Transactions on Computers
Augmented Parity Check Codes for Encoding of Asynchronous Sequential Machines
IEEE Transactions on Computers
Monotone Functions in Sequential Circuits
IEEE Transactions on Computers
Synthesis of Multiple-Input Change Asynchronous Machines Using Controlled Excitation and Flip-Flops
IEEE Transactions on Computers
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This paper gives a unified approach for describing various systematic ways of using built-in delays in normal fundamental mode circuits. The transition of the circuit from one total stable state to another is characterized by the constraints imposed upon the next-state functions, and the realization method is characterized by the conditions under which these constraints can be satisfied simultaneously.