Add to ORKGThis paper presents an analytical model for projecting the yield loss due to random delay defects for modules or VLSI packages containing multiple semiconductor chips. A module to be analyzed is characterized by distribution of path delays. Statistical analysis is applied to obtain the distribution of delays caused by defects in logic circuits of LSI chips. The model usas these two distributions to calculate the probability that a module contains a path that do.os not meet the system timing requirements. All inputs to the model can be obtained much earlier than the availability of modules for actual testing. Therefore expecte
Spot defects represent the main challenge for enhancement of semiconductor manufacturing yield. As a...
This paper describes the analysis of the influence of yield loss model parameters on the calculation...
[[abstract]]The performance of deep submicron designs can be affected by various parametric variatio...
[[abstract]]The problem of diagnosing delay defects is defined using a statistical timing model. The...
[[abstract]]This paper defines a new diagnosis problem for diagnosing delay defects based upon stati...
The failure of devices due to timing-related defects is becoming increasingly prominent in the nanom...
[[abstract]]Testing path delay faults (PDFs) in VLSI circuits is becoming an important issue as we e...
The inevitable fluctuation in fabrication processes re-sults in LSI chips with various critical path...
Uncertainty in circuit performance due to manufacturing and environmental variations is increasing w...
[[abstract]]Testing for performance problems of FPGAs has become an important task for ever-increasi...
Abstract: Detection of a fault in a sequential circuit requires a sequence of test vectors. This se-...
Integrated circuits (ICs) sometimes fail when their power supply is disrupted by external noise, lik...
Integrated circuits (ICs) sometimes fail when their power supply is disrupted by external noise, lik...
DoctorAggressive technology scaling in feature size has propelled designers to integrate millions of...
Based on in-process defect monitor data and layout related Monte Carlo calculations we predict the y...
Spot defects represent the main challenge for enhancement of semiconductor manufacturing yield. As a...
This paper describes the analysis of the influence of yield loss model parameters on the calculation...
[[abstract]]The performance of deep submicron designs can be affected by various parametric variatio...
[[abstract]]The problem of diagnosing delay defects is defined using a statistical timing model. The...
[[abstract]]This paper defines a new diagnosis problem for diagnosing delay defects based upon stati...
The failure of devices due to timing-related defects is becoming increasingly prominent in the nanom...
[[abstract]]Testing path delay faults (PDFs) in VLSI circuits is becoming an important issue as we e...
The inevitable fluctuation in fabrication processes re-sults in LSI chips with various critical path...
Uncertainty in circuit performance due to manufacturing and environmental variations is increasing w...
[[abstract]]Testing for performance problems of FPGAs has become an important task for ever-increasi...
Abstract: Detection of a fault in a sequential circuit requires a sequence of test vectors. This se-...
Integrated circuits (ICs) sometimes fail when their power supply is disrupted by external noise, lik...
Integrated circuits (ICs) sometimes fail when their power supply is disrupted by external noise, lik...
DoctorAggressive technology scaling in feature size has propelled designers to integrate millions of...
Based on in-process defect monitor data and layout related Monte Carlo calculations we predict the y...
Spot defects represent the main challenge for enhancement of semiconductor manufacturing yield. As a...
This paper describes the analysis of the influence of yield loss model parameters on the calculation...
[[abstract]]The performance of deep submicron designs can be affected by various parametric variatio...