Title :
Stochastic analysis of CNFET circuits using enhanced logical effort model in the presence of metallic tubes
Author :
Ali, Muhammad ; Ahmed, Mohammad ; Chrzanowska-Jeske, Malgorzata
Author_Institution :
Portland State Univ., Portland, OR, USA
Abstract :
CNFETs have potentials to replace CMOS devices due to their higher current drive capability, ballistic transport, lesser power delay product and better thermal stability. The presence of metallic Carbon Nanotubes (m-CNTs) is one of the major fabrication challenges as it negatively impacts the performance, power and yield of CNFET-based circuits. We verified on larger circuit a newly developed capacitance-based Logical Effort (LE) model for ideal CNFETs, and adopted it to estimate the delay of CNFET-based circuits with the variation of the number of tubes in the channel. The variation results from the initial presence of metallic tubes, which are next removed by one of the known removal techniques. Our model results in fairly accurate delay estimation with maximum error less than 5% for a set of tested CNFET circuits.
Keywords :
carbon nanotube field effect transistors; delay estimation; field effect logic circuits; network analysis; stochastic processes; CNFET circuits; LE model; capacitance-based logical effort model; carbon nanotube field effect transistor; delay estimation; m-CNT; metallic carbon nanotubes; stochastic analysis; Analytical models; CNTFETs; Delays; Electron tubes; Integrated circuit modeling; Logic gates; Semiconductor device modeling; Carbon Nanotube (CNT); Carbon Nanotube Field Effect Transistor (CNFET); Delay; Logical Effort;
Conference_Titel :
Electronics, Circuits and Systems (ICECS), 2014 21st IEEE International Conference on
DOI :
10.1109/ICECS.2014.7050100
