Add to ORKG[[abstract]]In this paper, we propose a 3-input XOR/XNOR circuit for low-voltage low-power applications. Several existing 3-input XOR/XNOR circuits and this proposed circuit have been fully simulated using HSPICE with a 0.35 @m CMOS technology from 3.3 V down to 2V supply voltage. The simulation results show that the proposed circuit has the benefits of better driving capability and lower power consumption as well as the least power-delay product than those of the existing circuits. Additionally, this circuit has a full voltage-swing in all internal nodes under 2V supply voltage or less. Thus, the proposed circuit is suitable for low-voltage, low-power applications
A novel approach utilising the emerging memristor technology is introduced for realising a 2-input p...
Two new circuit designs are proposed to implement the exclusive-OR (XOR) and exclusive-NOR (XNOR) fu...
This paper, presents a new full-swing low power high performance full adder circuit in CMOS technolo...
Novel direct designs for 3-input exclusive-OR (XOR) function at transistor level are proposed in thi...
[[abstract]]A new 3-input XOR gate based upon the pass transistor design methodology for low-voltage...
New methodologies for XOR-XNOR circuits are proposed to improve the speed and power as these circuit...
3-input AND/XOR is the basic complex gate of Reed-Muller logic. Low energy consumption is important ...
In this paper we are proposing new systematic cell design methodology based efficient two three-inpu...
3-input AND/XOR is the basic complex gate of Reed-Muller logic. Low energy consumption is important ...
This paper presents comparative study of high-speed, low-power and low voltage full adder circuits. ...
A power efficient circuit topology is proposed to implement a low-voltage CMOS 2-input pass-transist...
XOR gates are basic building blocks in the design of almost all kinds of digital circuits for signal...
with increasing circuits- complexity and demand to use portable devices, power consumption is one of...
In present work a new XNOR gate using three transistors has been presented, which shows power dissip...
In present work a new XNOR gate using three transistors has been presented, which shows power dissip...
A novel approach utilising the emerging memristor technology is introduced for realising a 2-input p...
Two new circuit designs are proposed to implement the exclusive-OR (XOR) and exclusive-NOR (XNOR) fu...
This paper, presents a new full-swing low power high performance full adder circuit in CMOS technolo...
Novel direct designs for 3-input exclusive-OR (XOR) function at transistor level are proposed in thi...
[[abstract]]A new 3-input XOR gate based upon the pass transistor design methodology for low-voltage...
New methodologies for XOR-XNOR circuits are proposed to improve the speed and power as these circuit...
3-input AND/XOR is the basic complex gate of Reed-Muller logic. Low energy consumption is important ...
In this paper we are proposing new systematic cell design methodology based efficient two three-inpu...
3-input AND/XOR is the basic complex gate of Reed-Muller logic. Low energy consumption is important ...
This paper presents comparative study of high-speed, low-power and low voltage full adder circuits. ...
A power efficient circuit topology is proposed to implement a low-voltage CMOS 2-input pass-transist...
XOR gates are basic building blocks in the design of almost all kinds of digital circuits for signal...
with increasing circuits- complexity and demand to use portable devices, power consumption is one of...
In present work a new XNOR gate using three transistors has been presented, which shows power dissip...
In present work a new XNOR gate using three transistors has been presented, which shows power dissip...
A novel approach utilising the emerging memristor technology is introduced for realising a 2-input p...
Two new circuit designs are proposed to implement the exclusive-OR (XOR) and exclusive-NOR (XNOR) fu...
This paper, presents a new full-swing low power high performance full adder circuit in CMOS technolo...