Abstract
In built-in self-test for logic circuits, test data reduction can be achieved using a linear feedback shift register. The probability of this data reduction allowing a faulty circuit to be declared good is the probability of aliasing. This article examines aliasing in circular multiple-input shift-registers (MISRs), under the independent bit error model. We present an exact closed form expression for aliasing probability without assuming equiprobable bit error probabilities. We show that the aliasing probability can be much larger than its asymptotic value. Irrespective of the register length we prove that for a circular MISR, when two inputs are used for testing out ofm possible inputs, high minimum spatial separations between inputs result in low aliasing probabilities. We also show that for equiprobable errors an m-bit circular MISR can be replaced with a set ofm single-bit MISRs without affecting aliasing probability or adding any additional logic, to reduce the propagation delay due to feedback path. The above features can be used as criteria for the MISR design.
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References
J.E. Smith, “Measures of the effectiveness of fault signature analysis,”IEEE Trans. on Computers, vol. C 29, pp. 510–514, June 1980.
T.W. Williams, W. Daehn, M. Gruetzner and C.W. Starke, “Aliasing errors in signature analysis registers,”IEEE Design and Test of Computers, vol. 4, pp. 39–45, April 1987.
A. Ivanov and V. Agarwal, “On a fast method to monitor the bahavior of signature analysis registers,”Proc. Int. Test Conference, pp. 645–655, September 1987.
J.P. Robinson, “Aliasing probabilities for feedback signature compression of test data,IEEE Trans. on Computers, vol. 40, pp. 867–873, July 1991.
D.K. Pradhan and S.K. Gupta, “A new framework for designing & analyzing BIST techniques and zero aliasing compression,”IEEE Trans. on Computers, vol. 40, pp. 743–763, June 1991.
M. Damiani, P. Olivo, M. Favalli, S. Ercolani and B. Ricco, “Aliasing in signature analysis testing with multiple-input shiftregisters,”IEEE Trans. on Computer-Aided Design, vol. 9, December 1990.
G. Edirisooriya and J.P. Robinson, “Cyclic code weight spectra and BIST aliasing,”Journal of Electronic Testing: Theory and Applications, vol. 2, pp. 153–164, June 1991.
G. Edirisooriya and J.P. Robinson, “Exact closed form aliasing probability in a class of multiple input signature registers,Electronics Letters, vol. 27, pp. 1590–1592. August 1991.
R. David, “Signature analysis for multiple output circuits,”IEEE Trans. on Computers, vol. C 35, pp. 830–836, September 1986.
R. David, “Comments on signature analysis for multiple-output circuits,”IEEE Trans. on Computers, vol. 39, pp. 287–288, February 1990.
W. Daehn, T.W. Williams and K. Wagner, “Aliasing errors in linear automata used as multiple input signature analyzers,”IBM J. Res. Develop., vol. 34, pp. 363–380, March/May 1990.
D.K. Pradhan et al., “Aliasing probability for multiple input signature analyzer,IEEE Trans. on Computers, vol. 39, pp. 586–591, April. 1990.
K. Iwasaki and F. Arakawa, “An analysis of the aliasing probability of multiple-input signature registers in the case of a 2m-ary symmetric channel,”IEEE Trans. on Computer-Aided Design, vol. 9, pp. 427–438, April 1990.
G. Edirisooriya and J.P. Robinson, “Aliasing probability in multiple input linear signature automata forQ-ary symmetric errors,”Proc. Int. Conference on Computer Design, pp. 352–355, October 1991.
G. Edirisooriya and J.P. Robinson, “On the performance of signature registers in the presence of correlated errors,” Proc. IEE, Part E, Computers and Digital Techniques, vol. 139, no. 5, pp. 393–400, September 1992.
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Edirisooriya, G., Robinson, J.P. Aliasing properties of circular MISRs. J Electron Test 4, 151–158 (1993). https://doi.org/10.1007/BF00971644
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DOI: https://doi.org/10.1007/BF00971644