In this paper, we describe a novel circuit consisting of N+1 MOS transistors and a single floating gate which computes a soft maximum of N current inputs and reflects the result in the output transistor. An intuitive description of the operation of the circuit is given. Data from a working two-input version of the circuit is presented and discussed. The circuit features a high output voltage swing and an interesting feedback mechanism which causes its output impedance to be comparable to that of a normal MOS transistor despite the fact that the output device is a floating-gate transistor
We extend a class of analog CMOS circuits that can be used to perform many analog computational task...
Abstract-In this part of the paper, we describe the funda-mental designing principles of binary-logi...
In this paper, we show and validate a reliable circuit design technique based on source voltage shif...
This paper presents briefly a review of the different algorithms and hardware implementations for mu...
Journal ArticleThe exponential behavior of MOSFETs in subthreshold operation has recently been expl...
This paper presents a novel low-power low-voltage analog implementation of the softmax function, wit...
A micropower regulated cascode CMOS current mirror is presented, combining floating gate and quasi f...
This paper presents a circuit design technique suitable for the realization of winner-take-all (WTA)...
The work presented in this manuscript involves analysis, design methods and search for improved stru...
The minimum-maximum (minimax) circuit selects the minimum and maximum of two input currents. Four tr...
The minimum-maximum (minimax) circuit selects the minimum and maximum of two input currents. Four tr...
A new current-mode maximum winner-take-all (Max WTA) circuit is presented. Inputs and output of the ...
The exponential behavior of MOSFETs in subthreshold operation has recently been exploited to build C...
We describe a family of current-mode circuits with multiple inputs and multiple outputs whose output...
In low power current mode signal processing circuits it is often necessary to use current mirrors to...
We extend a class of analog CMOS circuits that can be used to perform many analog computational task...
Abstract-In this part of the paper, we describe the funda-mental designing principles of binary-logi...
In this paper, we show and validate a reliable circuit design technique based on source voltage shif...
This paper presents briefly a review of the different algorithms and hardware implementations for mu...
Journal ArticleThe exponential behavior of MOSFETs in subthreshold operation has recently been expl...
This paper presents a novel low-power low-voltage analog implementation of the softmax function, wit...
A micropower regulated cascode CMOS current mirror is presented, combining floating gate and quasi f...
This paper presents a circuit design technique suitable for the realization of winner-take-all (WTA)...
The work presented in this manuscript involves analysis, design methods and search for improved stru...
The minimum-maximum (minimax) circuit selects the minimum and maximum of two input currents. Four tr...
The minimum-maximum (minimax) circuit selects the minimum and maximum of two input currents. Four tr...
A new current-mode maximum winner-take-all (Max WTA) circuit is presented. Inputs and output of the ...
The exponential behavior of MOSFETs in subthreshold operation has recently been exploited to build C...
We describe a family of current-mode circuits with multiple inputs and multiple outputs whose output...
In low power current mode signal processing circuits it is often necessary to use current mirrors to...
We extend a class of analog CMOS circuits that can be used to perform many analog computational task...
Abstract-In this part of the paper, we describe the funda-mental designing principles of binary-logi...
In this paper, we show and validate a reliable circuit design technique based on source voltage shif...