Abstract—We propose a sampled-analog rank-order filter (ROF) architecture of complexity ( 2). It yields a very compact structure because the devices used are essentially of minimum geometry. Its sole active building block being the simple CMOS inverter, the circuit exhibits an excellent low-voltage compatibility. Furthermore, it can support a rail-to-rail common-mode input range. It is inherently fast due to fully parallel signal processing and speed is expected to increase with technological scaling at the same rate as purely digital circuitry. Finally, it supports full pro-grammability of the rank by means of an analog reference voltage. The ROF is based on a pair of multiple-winners-take-all (mWTA) circuits and a set of AND gates. The pa...
First-order all-pass filter circuits, both non-inverting and inverting, could be the focus of this a...
Starting from the basics of analog filters and the poor transistor characteristics in nanometer CMOS...
First-order all-pass filter circuits, both non-inverting and inverting, could be the focus of this a...
A new architecture to realize a modular, high-speed, reconfigurable, digital Rank Order Filter (ROF...
A new architecture to realize a modular, high speed, reconfigurable, digital Rank Order Filter (ROF)...
We present a new scalable architecture for the realization of fully programmable rank order filters ...
A VLSI parallel architecture implementing a new algorithm for 2-D rank order filtering, based on rep...
We present a compact and low-power rank-order searching (ROS) circuit that can be used for building ...
The state-variable analog filter topologies are described. Using the transfer function theory and op...
We present a method to design multi-dimensional rank order filters. Our designs are more efficient t...
The mainstream procedural analog filter design is a step by step process that restricts the designer...
A derivation of a parallel algorithm for rank order filtering is presented. Both derivation and resu...
A novel design approach[1] for high order & high frequency analogue filters is presented. By ver...
The continuous technology scaling and rapid growth of applications involving a vast and diverse netw...
In this paper, the design of a universal second-order filter using configurable analog blocks (CABs...
First-order all-pass filter circuits, both non-inverting and inverting, could be the focus of this a...
Starting from the basics of analog filters and the poor transistor characteristics in nanometer CMOS...
First-order all-pass filter circuits, both non-inverting and inverting, could be the focus of this a...
A new architecture to realize a modular, high-speed, reconfigurable, digital Rank Order Filter (ROF...
A new architecture to realize a modular, high speed, reconfigurable, digital Rank Order Filter (ROF)...
We present a new scalable architecture for the realization of fully programmable rank order filters ...
A VLSI parallel architecture implementing a new algorithm for 2-D rank order filtering, based on rep...
We present a compact and low-power rank-order searching (ROS) circuit that can be used for building ...
The state-variable analog filter topologies are described. Using the transfer function theory and op...
We present a method to design multi-dimensional rank order filters. Our designs are more efficient t...
The mainstream procedural analog filter design is a step by step process that restricts the designer...
A derivation of a parallel algorithm for rank order filtering is presented. Both derivation and resu...
A novel design approach[1] for high order & high frequency analogue filters is presented. By ver...
The continuous technology scaling and rapid growth of applications involving a vast and diverse netw...
In this paper, the design of a universal second-order filter using configurable analog blocks (CABs...
First-order all-pass filter circuits, both non-inverting and inverting, could be the focus of this a...
Starting from the basics of analog filters and the poor transistor characteristics in nanometer CMOS...
First-order all-pass filter circuits, both non-inverting and inverting, could be the focus of this a...