In nowadays technology, the primary memory structure widely used in many digital circuit applications is a six transistor (6T) Static Random Access Memory (SRAM) bit cell. The main reason for minimizing memory bit cell to nanodimensions is to provide the SRAM integrated circuits (ICs) with the possible largest memory size per one chip, and the main unit in 6T SRAM bit cell is the MOSFET. One of the new MOSFET structures that overcome conventional MOSFET structure problems under minimization towards nanodimension is the silicon nanowire transistor (SiNWT). This study is the first to explore and optimize the nanowire ratio of driver to load (KD/KL) for a six n-channel SiNWT-based SRAM bit cell. The MuGFET simulation tool has been used to calc...
This book describes the n and p-channel Silicon Nanowire Transistor (SNT) designs with single and du...
The development of the nanoelectronics semiconductor devices leads to the shrinking of transistors c...
The design optimization for digital circuits built with gate-all-around silicon nanowire transistors...
This paper represents a channel length ratio optimization at a different high logic level voltage fo...
This paper represents the impact of nanowires ratio of silicon nanowire transistors on the character...
This study explores dimensional optimization at different high logic-level voltages for six silicon ...
This paper represents a channel length ratio optimization at a different high logic level voltage fo...
This paper represents diameter and logic voltage level optimizations of 6-Silicon Nanowire Transisto...
This study explores optimization of resistance load (R-Load) of four silicon nanowire transistor (Si...
Since the number of transistors on Integrated Circuit (IC) double every 18 months, the scaling of a ...
In this paper we present a comprehensive computational study of silicon nanowire transistor (SNT) an...
This paper reviews the fabrication technologies of silicon nanowire transistors (SiNWTs) and rapidly...
In this paper we present a comprehensive computational study of silicon nanowire transistor (SNT) an...
This paper proposes a novel method to adaptively select the best driver to load transistor fin ratio...
Four circuit techniques for high data stability and low power consumption in static CMOS memory circ...
This book describes the n and p-channel Silicon Nanowire Transistor (SNT) designs with single and du...
The development of the nanoelectronics semiconductor devices leads to the shrinking of transistors c...
The design optimization for digital circuits built with gate-all-around silicon nanowire transistors...
This paper represents a channel length ratio optimization at a different high logic level voltage fo...
This paper represents the impact of nanowires ratio of silicon nanowire transistors on the character...
This study explores dimensional optimization at different high logic-level voltages for six silicon ...
This paper represents a channel length ratio optimization at a different high logic level voltage fo...
This paper represents diameter and logic voltage level optimizations of 6-Silicon Nanowire Transisto...
This study explores optimization of resistance load (R-Load) of four silicon nanowire transistor (Si...
Since the number of transistors on Integrated Circuit (IC) double every 18 months, the scaling of a ...
In this paper we present a comprehensive computational study of silicon nanowire transistor (SNT) an...
This paper reviews the fabrication technologies of silicon nanowire transistors (SiNWTs) and rapidly...
In this paper we present a comprehensive computational study of silicon nanowire transistor (SNT) an...
This paper proposes a novel method to adaptively select the best driver to load transistor fin ratio...
Four circuit techniques for high data stability and low power consumption in static CMOS memory circ...
This book describes the n and p-channel Silicon Nanowire Transistor (SNT) designs with single and du...
The development of the nanoelectronics semiconductor devices leads to the shrinking of transistors c...
The design optimization for digital circuits built with gate-all-around silicon nanowire transistors...