Algebraic structure theory of sequential machines (Prentice-Hall international series in applied mathematics)
Generation of a Clock Pulse for Asynchronous Sequential Machines to Eliminate Critical Races
IEEE Transactions on Computers
Self-Synchronized Asynchronous Sequential Machines
IEEE Transactions on Computers
Synthesis of Multiple-Input Change Asynchronous Machines Using Controlled Excitation and Flip-Flops
IEEE Transactions on Computers
Synthesis of p-valued asynchronous sequential circuits by using a general clock function
MVL '76 Proceedings of the sixth international symposium on Multiple-valued logic
Stored State Asynchronous Sequential Circuits
IEEE Transactions on Computers
| Hi-index | 14.98 |
A self-synchronization model is developed. It is based on a general clock function which depends only on the state variables. This function is associated with the flip-flop type to be used and is independent of the flow table. A modular implementation which uses integrated circuits is obtained. With this technique, the synthesis procedures for synchronous machines can be directly applicable to asynchronous circuits without taking care of the critical races and essential hazards.