Title :
Fault modeling in controllable polarity silicon nanowire circuits
Author :
Mohammadi, Hassan Ghasemzadeh ; Gaillardon, Pierre-Emmanuel ; De Micheli, Giovanni
Author_Institution :
Integrated Syst. Lab. (LSI), EPFL Lausanne, Lausanne, Switzerland
Abstract :
Controllable polarity silicon nanowire transistors are among the promising candidates to replace current CMOS in the near future owing to their superior electrostatic characteristics and advanced functionalities. From a circuit testing point of view, it is unclear if the current CMOS and Fin-FET fault models are comprehensive enough to model all defects of controllable polarity nanowires. In this paper, we deal with the above problem using inductive fault analysis on three-independent-gate silicon nanowire FETs. Simulations revealed that the current fault models, i.e. stuck-open faults, are insufficient to cover all modes of operation. The newly introduced test algorithm for stuck open can adequately capture the malfunction behavior of controllable polarity logic gates in the presence of nanowire break and bridge on polarity terminals.
Keywords :
fault diagnosis; field effect transistors; logic gates; nanowires; semiconductor device models; CMOS fault models; Fin-FET fault models; controllable polarity logic gates; controllable polarity silicon nanowire transistors; electrostatic characteristics; inductive fault analysis; malfunction behavior; nanowire break; nanowire bridge; polarity terminals; stuck-open faults; three-independent-gate silicon nanowire FET; CMOS integrated circuits; Circuit faults; Delays; Integrated circuit modeling; Logic gates; Semiconductor device modeling; Transistors;
Conference_Titel :
Design, Automation & Test in Europe Conference & Exhibition (DATE), 2015
Conference_Location :
Grenoble
Print_ISBN :
978-3-9815-3704-8
