Publication | Closed Access
Architecture of Cobweb-Based Redundant TSV for Clustered Faults
149
Citations
11
References
2020
Year
Cluster ComputingEngineeringComputer ArchitectureEfficient HardwareInterconnect (Integrated Circuits)Reliability EngineeringAdvanced Packaging (Semiconductors)Fault AnalysisClustered Faulty TsvsFault RecoveryParallel ComputingElectronic PackagingElectrical EngineeringHardware ReliabilityChip On BoardComputer EngineeringCobweb-based Redundant TsvMicroelectronicsChip-scale PackageFault ManagementSoftware TestingParallel ProgrammingCobweb-based Redundant Through-silicon-via
In this brief, a cobweb-based redundant through-silicon-via (TSV) design is proposed with efficient hardware as well as high repair rate to repair clustered faulty TSVs (FTSVs). The experimental simulation results demonstrate that for highly clustered faults, the repair rate of the proposed RTSV method is 48.59% and 1.75% higher than that of the ring-based and router-based RTSV methods, respectively. Furthermore, the proposed design can achieve 63.93% and 16.34% hardware reductions compared with the router-based and the ring-based design, respectively.
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