To reduce power consumption in electronic designs, new techniques for circuit design must always be considered. Floating-gate MOS (FGMOS) is one of those techniques and has previously shown potentially better performance than standard static CMOS circuits for ultra-low power designs. One reason for this is because FGMOS only requires a few transistors per gate and still retain a large fan-in. Another reason is that CMOS circuits becomes very slow in subthreshold region and are not suitable in many applications while FGMOS can have a shift in threshold voltage to increase speed performance. This paper investigates how the performance of an FGMOS full-adder circuit will compare with two common CMOS full-adder designs. Simulations in a 120 nm ...
Since in designing the full adder circuits, full adders have been generally taken into account, so a...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
This paper presents scaling of Floating-Gate (FG) devices, and the resulting implication to large-sc...
When power supply for circuits is reduced the performance will also drop accordingly and to keep up ...
For digital circuits with ultra-low power consumption,floating-gate circuits have been considered to...
This paper presents the ability of floating gate MOSFET (FGMOS) threshold voltage to be programmed o...
Two different CMOS transistors with a low threshold voltage, given by a commercial available 22 nm F...
Floating-gate MOS transistor (FGMOS) has proved to be suitable for low-voltage analog applications, ...
Ultra-low-power and static CMOS full adders are implemented in a 0.15 mu m FD SOI CMOS technology wi...
This paper shows simulation results from a recentlyproposed Pseudo Floating-Gate (PFG) technique for...
As the technology scaling reduces the gate oxide thickness and the gate length thereby increasing th...
ABSTRACT:The full adder circuit is one of the most important components of any digital system applic...
A novel 4-quadrant analog multiplier using Floating Gate MOS (FGMOS) transistors operating in satura...
Low power consumption and high performance in Very Large Scale Integration (VLSI) design are the maj...
Five ultra low voltage and low power full adders have been designed and analyzed with CMOS logic str...
Since in designing the full adder circuits, full adders have been generally taken into account, so a...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
This paper presents scaling of Floating-Gate (FG) devices, and the resulting implication to large-sc...
When power supply for circuits is reduced the performance will also drop accordingly and to keep up ...
For digital circuits with ultra-low power consumption,floating-gate circuits have been considered to...
This paper presents the ability of floating gate MOSFET (FGMOS) threshold voltage to be programmed o...
Two different CMOS transistors with a low threshold voltage, given by a commercial available 22 nm F...
Floating-gate MOS transistor (FGMOS) has proved to be suitable for low-voltage analog applications, ...
Ultra-low-power and static CMOS full adders are implemented in a 0.15 mu m FD SOI CMOS technology wi...
This paper shows simulation results from a recentlyproposed Pseudo Floating-Gate (PFG) technique for...
As the technology scaling reduces the gate oxide thickness and the gate length thereby increasing th...
ABSTRACT:The full adder circuit is one of the most important components of any digital system applic...
A novel 4-quadrant analog multiplier using Floating Gate MOS (FGMOS) transistors operating in satura...
Low power consumption and high performance in Very Large Scale Integration (VLSI) design are the maj...
Five ultra low voltage and low power full adders have been designed and analyzed with CMOS logic str...
Since in designing the full adder circuits, full adders have been generally taken into account, so a...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
This paper presents scaling of Floating-Gate (FG) devices, and the resulting implication to large-sc...