Abstract
In this paper, a technique that can efficiently reduce peak and average switching activity during test application is proposed. The proposed method does not require any specific clock tree construction, special scan cells, or scan chain reordering. Test cubes generated by any combinational ATPG can be processed by the proposed method to reduce peak and average switching activity without any capture violation. Switching activity during scan shift cycles is reduced by assigning identical values to adjacent scan inputs and switching activity during capture cycles is reduced by limiting the number of scan chains that capture responses. Hardware overhead for the proposed method is negligible. The peak transition is reduced by about 40% and average number of transitions is reduced by about 56-85%. This reduction in peak and average switching activity is achieved with no decrease in fault coverage.
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