Title :
Theory and Design of Mixed-Mode Sequential Machines
Author :
Dervisoglu, Bulent I. ; Sholl, Howard A.
Author_Institution :
Department of Electrical Engineering and Computer Science, Computer Science Division, University of Connecticut
fDate :
7/1/1980 12:00:00 AM
Abstract :
A mixed mode sequential machine (MSM) is defined as a representation in which both synchronous (clocked) and asynchronous (unclocked) state transitions are allowed. The intent of the representation is to allow designers to consider both types of transitions in a single structure, thereby promoting the use of LSI devices such as ROM´s or PLA´s to resolve the realization question. The approach is thus different from conventional design methods, in which asynchronous problems are treated separately with separate devices. The problems of state reduction, state assignment, and realization are covered. Of particular note is the development of a ROM implementation, which allows both clocked and unclocked transitions to occur.
Keywords :
Input hazard; ROM realization of sequential machine; k-extended one-hot assignment; mixed-mode sequential machine; mode consistency; one-hot assignment; sequential machine; state assignment; state reduction; Circuits; Clocks; Design methodology; Hazards; Input variables; Large scale integration; Programmable logic arrays; Proposals; Read only memory; Signal design; Input hazard; ROM realization of sequential machine; k-extended one-hot assignment; mixed-mode sequential machine; mode consistency; one-hot assignment; sequential machine; state assignment; state reduction;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1980.1675635
