[paper] Compact Device Models for FinFET and Beyond

D. D. Lu, M. V. Dunga, A. M. Niknejad, C.Bing Hu, F.-X. Liang, W.-C. Hung, J. Lee, C.-H. Hsu
and M.-H. Chiang,

Compact device models for FinFET and beyond

ArXiv, vol. abs/2005.02580, 2020

Abstract - Compact device models play a significant role in connecting device technology and circuit design. BSIM-CMG and BSIM-IMG are industry standard compact models suited for the FinFET and UTBB technologies, respectively. Its surface potential based modeling framework and symmetry preserving properties make them suitable for both analog/RF and digital design. In the era of artificial intelligence / deep learning, compact models further enhanced our ability to explore RRAM and other NVM-based neuromorphic circuits. We have demonstrated simulation of RRAM neuromorphic circuits with Verilog-A based compact model at NCKU. Further abstraction with macromodels is performed to enable larger scale machine learning simulation.

Fig: Simulation of a novel floating - gate synaptic transistor. (a) Device structure with separate negative feedback gate (nfb) for programming and synaptic gate (sg) readout. (b) Equivalent circuit diagram for compact modeling 

Acknowledgements - The authors would like to express sincere gratitude to Chip Implementation Center (CIC), Hsinchu, Taiwan for providing SPICE simulation environment for RRAM simulations.