A New Scan Power Reduction Scheme Using Transition Freezing for Pseudo-Random Logic BIST

This paper presents a new low power BIST TPG scheme for reducing scan transitions. It uses a transition freezing and melting method which is implemented of the transition freezing block and a MUX. When random test patterns are generated from an LFSR, transitions of those patterns satisfy pseudo-random Gaussian distribution. The proposed technique freezes transitions of patterns using a freezing value. Experimental results show that the proposed BIST TPG schemes can reduce average power reduction by about 60% without performance loss and peak power by about 30% in ISCAS'89 benchmark circuits.

[1]  L. Whetsel,et al.  An analysis of power reduction techniques in scan testing , 2001, Proceedings International Test Conference 2001 (Cat. No.01CH37260).

[2]  Sying-Jyan Wang,et al.  A reseeding technique for LFSR-based BIST applications , 2002, Proceedings of the 11th Asian Test Symposium, 2002. (ATS '02)..

[3]  Janusz Rajski,et al.  Arithmetic Additive Generators of Pseudo-Exhaustive Test Patterns , 1996, IEEE Trans. Computers.

[4]  Sandeep K. Gupta,et al.  LT-RTPG: a new test-per-scan BIST TPG for low switching activity , 2006, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems.

[5]  Kaushik Roy,et al.  A technique to reduce power and test application time in BIST , 2004, Proceedings. 10th IEEE International On-Line Testing Symposium.