22nm technology yield optimization using multivariate 3D virtual fabrication
B Cipriany, B Jagannathan, G Costrini… - … on Simulation of …, 2013 - ieeexplore.ieee.org
B Cipriany, B Jagannathan, G Costrini, A Noemaun, K Onishi, S Narasimha, B Zhang…
2013 International Conference on Simulation of Semiconductor …, 2013•ieeexplore.ieee.orgWe present a technology development methodology that relies on 3D virtual fabrication to
rapidly improve yield by increasing tolerance to multilevel process variation. This
methodology has been successfully implemented in the development and yield ramp of high-
performance 22nm SOI CMOS technology. Based on virtual metrology, dedicated testsite
structures were designed and implemented, with electrical results corroborating virtual
findings, validating the methodology. This 3D virtual fabrication technique was used to …
rapidly improve yield by increasing tolerance to multilevel process variation. This
methodology has been successfully implemented in the development and yield ramp of high-
performance 22nm SOI CMOS technology. Based on virtual metrology, dedicated testsite
structures were designed and implemented, with electrical results corroborating virtual
findings, validating the methodology. This 3D virtual fabrication technique was used to …
We present a technology development methodology that relies on 3D virtual fabrication to rapidly improve yield by increasing tolerance to multilevel process variation. This methodology has been successfully implemented in the development and yield ramp of high-performance 22nm SOI CMOS technology. Based on virtual metrology, dedicated testsite structures were designed and implemented, with electrical results corroborating virtual findings, validating the methodology. This 3D virtual fabrication technique was used to implement a delicate process change, and the same testsite structures validated the improved process window yield.
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