Title :
A graph representation for programmable logic arrays to facilitate testing and logic design
Author :
Tang, Jing-Jou ; Lee, Kuen-Jong ; Liu, Bin-Da
Author_Institution :
Dept. of Electron. Eng., Nan-Tai Inst. of Technol., Tainan, Taiwan
fDate :
10/1/1998 12:00:00 AM
Abstract :
In this paper, we present a new graph model and an associated set of operations for representing programmable logic arrays (PLAs). The signal lines and devices of a PLA are represented as the edges and vertices of a directed graph, respectively. Through this graph model, most realistic PLA faults, including cross-point, stuck-at, break, and bridging faults, can be modeled and classified, and the maximal diagnosis resolution of a PLA can be determined. Moreover, the model can be easily transformed into a gate-level model. Hence, the work of automatic test-pattern generation for a PLA and for other random logic ran be done simultaneously. We also show that this representation can be extended to some logic design techniques such as logic minimization, folding, and decomposition for PLAs. Thus, this graph model can unify the data structure and operations required in PLA design and test
Keywords :
automatic test pattern generation; directed graphs; fault diagnosis; logic CAD; logic testing; minimisation of switching nets; programmable logic arrays; automatic test-pattern generation; break faults; bridging faults; cross-point faults; data structure; decomposition; directed graph; folding; gate-level model; graph representation; logic design; logic minimization; logic testing; maximal diagnosis resolution; programmable logic arrays; stuck-at faults; Automatic logic units; Automatic testing; Fault diagnosis; Logic design; Logic devices; Logic testing; Minimization; Programmable logic arrays; Radio access networks; Signal resolution;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
