Title :
A testable design of logic circuits under highly observable condition
Author :
Xiaoqing, Wen ; Kinoshita, Kozo
Author_Institution :
Dept. of Appl. Phys., Osaka Univ., Japan
Abstract :
Two methods for modifying an arbitrary CMOS combinational circuit into a testable CMOS combinational circuit, called a k-UCP circuit, are discussed. All stuck-at faults and stuck-open faults in a k-UCP circuit can be detected by a test pattern which is a combination of no more than 2(k+1) kinds of basic sequences of fixed-length k(k +1)+1 under highly observable conditions. And all single stuck-open faults in a k-UCP circuit can be located efficiently. Experimental results show that the NAND (NOR) circuit modification is better than the general circuit modification in terms of the number of additional transistors. Experimental results also show that setting a proper backtrack limit can reduce computation time greatly. From a practical point of view, the results obtained are of value for developing CMOS ASICs (application-specific integrated circuits), where hardware overhead is allowed to some extent, but a fast diagnostic procedure is required
Keywords :
CMOS integrated circuits; application specific integrated circuits; automatic testing; circuit CAD; combinatorial circuits; fault location; integrated circuit testing; integrated logic circuits; logic testing; ASICs; CMOS combinational circuit; IC testing; NAND; NOR; application-specific integrated circuits; backtrack limit; computation time; diagnostic procedure; k-UCP circuit; logic circuits; logic testing; stuck-at faults; stuck-open faults; test pattern; testable design; CMOS technology; Circuit faults; Circuit testing; Electrical fault detection; Electron beams; Logic circuits; Logic testing; Observability; System testing; Very large scale integration;
Conference_Titel :
Test Conference, 1990. Proceedings., International
Conference_Location :
Washington, DC
Print_ISBN :
0-8186-9064-X
DOI :
10.1109/TEST.1990.114116
