Title :
EARTH: combined state assignment of PLA-based FSM´s targeting area and testability
Author :
Mohan, C. Rama ; Chakrabarti, Partha P.
Author_Institution :
Cadence Design Syst. (India) Pyt. Ltd., Noida, India
fDate :
7/1/1996 12:00:00 AM
Abstract :
Stuck-at and crosspoint faults in PLA´s introduce combinational and sequential redundancies in PLA-based FSM´s that affect the testability of these FSM´s. We propose a new state assignment algorithm for PLA-based FSM´s called EARTH that simultaneously considers area minimization and testability of the resultant PLA´s. Our fault model is the single stuck-at and/or single crosspoint fault model. Experimental results show that, on an average, the number of undetectable faults which result due to state assignment by EARTH is about five times less than those generated due to state assignment by NOVA with area overhead 2% more than NOVA
Keywords :
design for testability; fault diagnosis; finite state machines; logic design; logic testing; programmable logic arrays; redundancy; sequential circuits; state assignment; EARTH algorithm; FSM; K-hot encoding; PLA; area minimization; combinational redundancies; crosspoint faults; fault model; sequential redundancies; state assignment; stuck-at faults; testability; Circuit faults; Circuit testing; Constraint optimization; Earth; Encoding; Logic testing; Minimization methods; Redundancy; Sequential analysis; Sequential circuits;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
