@misc{8112, author = {{Maaz, Mohammad Urf and Sprenger, Alexander and Hellebrand, Sybille}}, keywords = {{WORKSHOP}}, publisher = {{31. Workshop "Testmethoden und Zuverlässigkeit von Schaltungen und Systemen" (TuZ'19)}}, title = {{{A Hybrid Space Compactor for Varying X-Rates}}}, year = {{2019}}, } @inproceedings{12918, abstract = {{The test for small delay faults is of major importance for predicting potential early life failures or wearout problems. Typically, a faster-than-at-speed test (FAST) with sev¬eral different frequencies is used to detect also hidden small delays, which can only be propagated over short paths. But then the outputs at the end of long paths may no longer reach their stable values at the nominal observation time and must be considered as unknown (X-values). Thus, test response compaction for FAST must be extremely flexible to cope with high X-rates, which also vary with the test frequencies. Stochastic compaction introduced by Mitra et al. is controlled by weighted pseudo-random signals allowing for easy adaptation to varying conditions. As demonstrated in previous work, the pseudo-random control can be optimized for high fault efficiency or X-reduction, but a given target in fault efficiency cannot be guaranteed. To close this gap, a hybrid space compactor is introduced in this paper. It is based on the observation that many faults are lost in the compaction of relatively few critical test patterns. For these critical patterns a deterministic compaction phase is added to the test, where the existing compactor structure is re-used, but controlled by specifically determined control vectors. }}, author = {{Maaz, Mohammad Urf and Sprenger, Alexander and Hellebrand, Sybille}}, booktitle = {{50th IEEE International Test Conference (ITC)}}, keywords = {{Faster-than-at-speed test, BIST, DFT, Test response compaction, Stochastic compactor, X-handling}}, location = {{Washington, DC, USA}}, pages = {{1--8}}, publisher = {{IEEE}}, title = {{{A Hybrid Space Compactor for Adaptive X-Handling}}}, year = {{2019}}, }