take all and looser take all circuits are designed in 0.35 µm standard CMOS technology.Simulation results using HSPICE that verify the functionality of circuit with 1.5 V supply are presented. The circuit can find application in the implementation of Fuzzy and Neural Network circuits
A new current-mode maximum winner-take-all (Max WTA) circuit is presented. Inputs and output of the ...
Implementation of a pixel calibration technique for organic light emiting diode (OLED) displays usin...
The CMOS circuit implementation of the feedforward neural primitives of a generic Multi Layer Percep...
A novel architecture for loser-take-all functions is proposed. Inputs and outputs of the circuit are...
In this paper, based on a novel synthesis, a set of new simplified circuit design to implement the l...
Abstract In this Letter, a new low‐voltage and low‐power current‐mode winner‐take‐all (WTA) circuit ...
This paper presents a novel low-power low-voltage analog implementation of the softmax function, wit...
Abstract This letter presents an upgraded winner‐take‐all (WTA) circuit that is capable of operating...
The escalating performance demands of context-aware applications have recently motivated the use of ...
Designing analog circuits that can operate from low supply voltages has become ofincreasing importan...
Naturally simple and parallel low voltage and autozeroing current mode analog circuits Transconducta...
A novel architecture for winner-take-all (WTA) and looser-take-all (LTA) circuits is proposed. As co...
Abstract. In this paper, a low-complexity current-mode Winner-Take-All circuit (WTA) of O(n) complex...
This paper describes the realization of a fuzzy controller which implements the simplified inference...
Abstract: The performance of the low voltage CMOS-CFOA with different aspect ratios is presented in ...
A new current-mode maximum winner-take-all (Max WTA) circuit is presented. Inputs and output of the ...
Implementation of a pixel calibration technique for organic light emiting diode (OLED) displays usin...
The CMOS circuit implementation of the feedforward neural primitives of a generic Multi Layer Percep...
A novel architecture for loser-take-all functions is proposed. Inputs and outputs of the circuit are...
In this paper, based on a novel synthesis, a set of new simplified circuit design to implement the l...
Abstract In this Letter, a new low‐voltage and low‐power current‐mode winner‐take‐all (WTA) circuit ...
This paper presents a novel low-power low-voltage analog implementation of the softmax function, wit...
Abstract This letter presents an upgraded winner‐take‐all (WTA) circuit that is capable of operating...
The escalating performance demands of context-aware applications have recently motivated the use of ...
Designing analog circuits that can operate from low supply voltages has become ofincreasing importan...
Naturally simple and parallel low voltage and autozeroing current mode analog circuits Transconducta...
A novel architecture for winner-take-all (WTA) and looser-take-all (LTA) circuits is proposed. As co...
Abstract. In this paper, a low-complexity current-mode Winner-Take-All circuit (WTA) of O(n) complex...
This paper describes the realization of a fuzzy controller which implements the simplified inference...
Abstract: The performance of the low voltage CMOS-CFOA with different aspect ratios is presented in ...
A new current-mode maximum winner-take-all (Max WTA) circuit is presented. Inputs and output of the ...
Implementation of a pixel calibration technique for organic light emiting diode (OLED) displays usin...
The CMOS circuit implementation of the feedforward neural primitives of a generic Multi Layer Percep...