Papers Published

1. Deutsch, S; Chakrabarty, K, Test and debug solutions for 3D-stacked integrated circuits, Proceedings International Test Conference, vol. 2015-November (November, 2015), IEEE [doi] .
   (last updated on 2022/12/30)

   Abstract:
   Three-dimensional (3D) stacking using through-silicon vias (TSVs) promises higher integration levels in a single package, keeping pace with Moore's law. Testing has been identified as a showstopper for volume manufacturing of 3D-stacked integrated circuits (3D ICs). This work provides solutions to new challenges related to 3D test content, test access, diagnosis and debug. We analyze the the impact of thermo-mechanical stress due to TSV fabrication process on test quality. We propose a test-generation flow that takes TSV-induced stress into account by using stress-aware circuit models. Pre-bond TSV test is a challenge due to limited accessibility of TSV at the pre-bond stage. We develop a non-invasive method for TSV test and diagnosis using ring oscillators, duty-cycle detectors, and a regression model based on artificial neural networks. In order to efficiently deliver test content, 3D design-for-test (DfT) architectures are needed. We propose an optimization approach that takes uncertainties in input parameters into account and provides a solution that is efficient in the presence of input-parameter variations and minimizes test time. Finally, post-silicon debug is a major challenge due to continuously increasing design complexity. We develop a low-cost debug architecture for massive signal tracing in 3D-stacked ICs with wide-I/O DRAM dies that significantly increases the observation window compared to traditional methods that use trace buffers.