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Generic DFT approach for pattern sensitive faults in word-oriented memories

Generic DFT approach for pattern sensitive faults in word-oriented memories

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The testability problem of word-oriented memories (WOMs) for pattern sensitive faults is addressed. A novel design for testability (DFT) strategy allows efficient built-in self-testing (BIST) of WOMs. By proper selection of the memory array tiling scheme, it is possible to implement O(√n) BIST algorithms which test WOMs for various types of neighbourhood pattern sensitive faults (NPSFs). The inputs of the column decoders are modified to allow parallel writing into multiple words, and coincidence comparators are added to allow parallel verification of row data with minimal effect on chip area and performance.

Inspec keywords: built-in self test; random-access storage; integrated circuit testing; design for testability; integrated memory circuits

Other keywords: pattern sensitive faults; column decoders; neighbourhood pattern sensitive faults; generic DFT approach; design for testability; word-oriented memories; chip area; performance; coincidence comparators; memory array tiling scheme; testability problem; built-in self-testing

Subjects: Logic design methods; Computerised instrumentation; Semiconductor storage; Memory circuits; Semiconductor integrated circuits

References

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      • Amin, A.A., Osman, M.Y., Abdel-Aal, R.E., Al-Muhtaseb, H.: `Efficient O(√', IEEE 1994 International Test Conference, 2–6 October 1994, Washington, DC, p. 850–859.
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      • K. Kinoshita , K.K. Saluja . Built-in testing of memory using an on-chip compact testingscheme. IEEE Trans. , 10 , 862 - 870
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      • A.J. van de Goor . (1998) Testing semiconductor memories, theory and practice.
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      • B. Prince . Memory in the fast lane. IEEE Spectrum , 38 - 41
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