Title :
USJ engineering impacts on FinFETs and RDF investigation using full 3D process/device simulation
Author :
Bazizi, E.M. ; Zaka, Alban ; Herrmann, Thomas ; Benistant, F. ; Tin, J.H.M. ; Goh, J.P. ; Jiang, L. ; Joshi, Madhura ; van Meer, H. ; Korablev, K.
Author_Institution :
GLOBALFOUNDRIES, Dresden, Germany
Abstract :
The impacts of FinFET channel and extension S/D region implantations on relevant device parameters such as electrostatic control and Vth mismatch (MM) are investigated. We used 3D TCAD process and device simulations to gain physical understanding and to optimize the performance/variability of bulk-FinFETs. For the first time, the full FinFET process flow simulation was performed using diffusion, activation and segregation models identical to those used in planar nodes. In this work a wide range of implantation and anneal splits is used to demonstrate the 3D simulation accuracy. After achieving good agreement with experiments in terms of Vth and Ion/Ioff, considering lateral dopant diffusion and activation, the simulation was used to investigate SRAM random doping fluctuation RDF.
Keywords :
MOSFET; semiconductor device models; semiconductor doping; technology CAD (electronics); 3D TCAD process; 3D device simulation; FinFET channel; FinFET process flow simulation; RDF investigation; SRAM; USJ engineering impacts; anneal splits; bulk-FinFET; device parameters; electrostatic control; lateral dopant activation; lateral dopant diffusion; FinFETs; Implants; Logic gates; Semiconductor process modeling; Silicon; Solid modeling; Three-dimensional displays; FinFET; Predictive TCAD; simulation; variability;
Conference_Titel :
Simulation of Semiconductor Processes and Devices (SISPAD), 2014 International Conference on
Conference_Location :
Yokohama
Print_ISBN :
978-1-4799-5287-8
DOI :
10.1109/SISPAD.2014.6931554
