Layout optimization of CMOS functional cells
DAC '87 Proceedings of the 24th ACM/IEEE Design Automation Conference
Test set compaction algorithms for combinational circuits
Proceedings of the 1998 IEEE/ACM international conference on Computer-aided design
Single-walled carbon nanotube electronics
IEEE Transactions on Nanotechnology
Hi-index | 0.00 |
Carbon Nanotube Field Effect Transistors (CNTFET) are promising nano-scaled devices for implementing high performance, very dense and low power circuits. The core of a CNTFET is a carbon nanotube. Its conductance property is determined by the so-called chirality of the tube; chirality is difficult to control during manufacturing. This results in conducting (metallic) nanotubes and defective CNTFETs similar to stuck-on (SON or source-drain short) faults, as encountered in classical MOS devices. This paper studies this phenomenon by using layout information and presents modeling and detection methodologies for nano-scaled defects arising from the presence of metallic carbon nanotubes. For CNTFET-based circuits (e.g. intramolecular), these defects are analyzed using a traditional stuck-at fault model. This analysis is applicable to primitive and complex gates. Simulation results are presented for detecting modeled metallic nanotube faults in CNTFETs using a single stuck-at fault test set. A high coverage is achieved (~98%).