Hao-Wen Hsu, Shih-Hua Kuo, Wen-Hsiang Chang, Shi-Hao Chen, M. Chang, M. Chao
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Testing retention flip-flops in power-gated designs
This paper focuses on tackling two problems on testing retention flip-flops in power-gated designs. The first one is how to reduce the virtual-VDD discharge time after entering the sleep mode. The second one is how to avoid the test escape caused by the unintended initial value of the retention flip-flop during the restore function. To solve the first problem, we propose a novel ATPG framework to generate repeatedly toggling pattern pairs that can create maximal virtual-VDD drop for a cycle. To solve the second problem, we propose a new test procedure to avoid the unintended initial value of the retention flip-flop after restoring. The effectiveness of the proposed ATPG framework and the new test procedure will be validated through SPICE simulation based on an industrial MTCMOS cell library.
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