Carbon nanotube field‐effect transistors (CNTFETs) have been widely studied as a promising technology to be included in post‐complementary metal‐oxide‐semiconductor integrated circuits. Despite significant advantages in terms of delay and power dissipation, the fabrication process for CNTFETs is plagued by fault occurrences. Therefore, developing a fast and accurate method for estimating the reliability of CNTFET‐based digital circuits was the main goal of this study. In the proposed method, effects related to faults that occur in a gate's transistors are first represented as a probability transfer matrix. Next, the target circuit's graph is traversed in topological order and the reliabilities of the circuit's gates are computed. The accura...
Abstract- Integrated circuits in the coming years are expected to be based on nano-scaled devices, s...
This paper addresses at first carbon NanoTubes (CNTs) and importance of CNT over silicon based devic...
As transistors are scaled down to nanometer dimension, their performances and behaviors become less ...
Abstract—With emerging nanometric technologies, multiple valued logic (MVL) circuits have attracted ...
International audienceThis paper deals with the analysis of several logic gates (inverter, NAND, NOR...
In 1925, Lilienfeld patented the basic principle of field effect transistor (FET). Thirty-four years...
ISBN : 978-1-4244-1825International audienceThis paper deals with the analysis of characteristic dis...
As the sizes of CMOS devices rapidly scale deep into the nanometer range, the manufacture of nanocir...
Current carbon nanotube (CNT) synthesis processes are not perfect. One of the most critical issue is...
Reliability of logic circuits is emerging as an important concern that may limit the benefits of con...
Carbon nanotube field-effect transistors (CNFETs) are promising candidates to substitute silicon tra...
Carbon nanotube field-effect transistor (CNFET) is one of the promising candidates as extensions to ...
Due to limited controllability over the tube growth process, Carbon Nanotube Field-Effect Transistor...
As the physical gate length of current devices is reduced to below 65 nm, effects (such as large par...
As CMOS transistors enter below 20nm dimension, the frequent static and intermiitent dynamic fluctu...
Abstract- Integrated circuits in the coming years are expected to be based on nano-scaled devices, s...
This paper addresses at first carbon NanoTubes (CNTs) and importance of CNT over silicon based devic...
As transistors are scaled down to nanometer dimension, their performances and behaviors become less ...
Abstract—With emerging nanometric technologies, multiple valued logic (MVL) circuits have attracted ...
International audienceThis paper deals with the analysis of several logic gates (inverter, NAND, NOR...
In 1925, Lilienfeld patented the basic principle of field effect transistor (FET). Thirty-four years...
ISBN : 978-1-4244-1825International audienceThis paper deals with the analysis of characteristic dis...
As the sizes of CMOS devices rapidly scale deep into the nanometer range, the manufacture of nanocir...
Current carbon nanotube (CNT) synthesis processes are not perfect. One of the most critical issue is...
Reliability of logic circuits is emerging as an important concern that may limit the benefits of con...
Carbon nanotube field-effect transistors (CNFETs) are promising candidates to substitute silicon tra...
Carbon nanotube field-effect transistor (CNFET) is one of the promising candidates as extensions to ...
Due to limited controllability over the tube growth process, Carbon Nanotube Field-Effect Transistor...
As the physical gate length of current devices is reduced to below 65 nm, effects (such as large par...
As CMOS transistors enter below 20nm dimension, the frequent static and intermiitent dynamic fluctu...
Abstract- Integrated circuits in the coming years are expected to be based on nano-scaled devices, s...
This paper addresses at first carbon NanoTubes (CNTs) and importance of CNT over silicon based devic...
As transistors are scaled down to nanometer dimension, their performances and behaviors become less ...