System Level Benchmarking with Yield-Enhanced Standard Cell Library for Carbon Nanotube VLSI Circuits

Abstract: The quest for technologies with superior device characteristics has showcased Carbon-Nanotube Field-Effect Transistors (CNFET) into limelight. In this work we present physical design techniques to improve the yield of CNFET circuits in the presence of Carbon Nanotube (CNT) imperfections. Various layout schemes are studied for enhancing the yield of CNFET standard cell library. With the help of existing ASIC design flow, we perform system-level benchmarking of CNFET circuits and compare them to CMOS circuits at… Show more

“…Imperfection-immune design techniques overcome intrinsic limitations of carbon nanotubes [49], [56]. Variability-aware methodologies handle physical variations at the nanoscale regime [57], [58]. Without these EDA techniques, many emerging technologies would be prematurely disregarded.…”

New Logic Synthesis as Nanotechnology Enabler

“…Imperfection-immune design techniques overcome intrinsic limitations of carbon nanotubes [49], [56]. Variability-aware methodologies handle physical variations at the nanoscale regime [57], [58]. Without these EDA techniques, many emerging technologies would be prematurely disregarded.…”

New Logic Synthesis as Nanotechnology Enabler

CNFET-based high throughput register file architecture

A carbon nanotube transistor based RISC-V processor using pass transistor logic