Title :
A testable design to test pattern sensitive faults efficiently for semiconductor RAM
Author :
Ma, Hede ; Liu, Ying
Author_Institution :
Savannah State Coll., GA, USA
Abstract :
The authors present a testable design to test pattern sensitive faults efficiently for semiconductor random access memories to reduce test time and hence test cost. Testability was achieved by including additional hardware. The additional hardware is composed of a special mode counter, an error checker, a modified column decoder, and one extra control pinout. The functional test procedure proposed is of length 512 (1+n1/2) read and write operations for an n cell memory, and covers stuck-at, transition, coupling, and nine-cell neighborhood pattern sensitive faults. This design has an estimated overhead of 5% chip area and one additional pinout
Keywords :
circuit analysis computing; design for testability; fault location; integrated circuit testing; integrated memory circuits; logic testing; random-access storage; cell memory; chip area; control pinout; coupling faults; error checker; fault testing; functional test procedure; modified column decoder; nine-cell neighborhood pattern sensitive faults; pattern sensitive faults; read and write operations; semiconductor RAM; semiconductor random access memories; special mode counter; stuck at faults; testable design; transition faults; Automatic testing; Costs; Decoding; Hardware; Logic arrays; Logic testing; Random access memory; Read-write memory; Semiconductor device testing; System testing;
Conference_Titel :
Southeastcon '92, Proceedings., IEEE
Conference_Location :
Birmingham, AL
Print_ISBN :
0-7803-0494-2
DOI :
10.1109/SECON.1992.202365
