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Through silicon vias (TSVs) have a significant impact on the area and timing performance of a 3D-SOC. Performance aware design partitioning is required to reduce delay by placing gates on critical paths close to each other on the same or adjacent dies in the 3D-SOC. Also, pre-bond test of dies in the 3D-SOC is required to insure correct functionality of the dies before bonding. Additional design for...
We present SATSEQ, a timing-aware ATPG system for small-delay faults in non-scan circuits. The tool identifies the longest paths suitable for functional fault propagation and generates the shortest possible sub-sequences per fault. Based on advanced model-checking techniques, SATSEQ provides detection of small-delay faults through the longest functional paths. All test sequences start at the circuit's...
Post-silicon validation, i.e., physical characterization of a small number of fabricated circuit instances before start of high-volume manufacturing, has become an essential step in integrated circuit production. Post-silicon validation is required to identify intricate logic or electrical bugs which could not be found during pre-silicon verification. In addition, physical characterization is useful...
Adequate coverage of small-delay defects in circuits affected by statistical process variations requires identification and sensitization of multiple paths through potential defect sites. Existing K longest path generation (KLPG) algorithms use a data structure called path store to prune the search space by restricting the number of sub-paths considered at the same time. While this restriction speeds...
The detection of small-delay faults is traditionally performed by sensitizing transitions on a path of sufficient length from an input to an output of the circuit going through the fault site. While this approach allows efficient test generation algorithms, it may result in false positives and false negatives as well, i.e. undetected faults are classified as detected or detectable faults are classified...
We present a versatile method that enumerates all or a user-specified number of longest sensitisable paths in the whole circuit or through specific components. The path information can be used for design and test of circuits affected by statistical process variations. The algorithm encodes all aspects of the path search as an instance of the Boolean Satisfiability Problem (SAT), which allows the method...
Nanoscale integrated circuits suffer both from high defect densities and increased parameter variations possibly affecting the overall timing behaviour. Components with a higher vulnerability to process variations are not just critical during test design and test application, but also during normal operation. In particular, ageing effects and changes in the operation environment including supply voltage,...
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