This paper presents an asynchronous mixed-signal WTA-LTA circuit conceived to carry out local minimum maximum indexing in massively parallel image processing arrays. The hardware is focused on energy-efficient operation. We describe a realization for the standard CMOS base process of a commercial 3-D TSV stack featuring a power consumption of only 20pW per elementary cell at 30fps. The proposed block is also capable of resolving small voltage differences without requiring any external reference. This leads to a hit percentage greater than 90% even when taking into account global process variations and mismatch conditions.Peer Reviewe
A novel ultra-low power operating technique is presented for Mega-pixels current-mediated CMOS image...
Sophisticated computational imaging algorithms require both high performance and good energy-efficie...
As modern integrated circuit design pushes further into the deep submicron era, the pseudo-random de...
This paper presents an asynchronous mixed-signal WTA-LTA circuit conceived to carry out local minim...
[[abstract]]This paper proposes a low-power, high-resolution Winner-Take-All (WTA) circuit basing on...
Due to quadratic dependence of switching power on supply power, supply scaling leads to significant ...
Abstract—This paper presents a massively parallel processing array designed for the 0.13µm 1.5V stan...
This thesis presents a low power SRAM block implemented in a 0.35 μm CMOS technology for imaging app...
A CMOS Current/Voltage mode winner-take-all circuit (WTA) with spatial filtering for image processin...
Abstract In this Letter, a new low‐voltage and low‐power current‐mode winner‐take‐all (WTA) circuit ...
Nowadays, energy-efficiency is becoming more and more a decisive parameter for digital systems, driv...
\u3cp\u3eThis paper presents litho friendly circuit techniques for variability resilient low power 8...
A new current-mode maximum winner-take-all (Max WTA) circuit is presented. Inputs and output of the ...
Abstract—Further power and energy reductions via technology and voltage scaling have become extremel...
A time domain winner take all (WTA) circuit for a 1D optical position detector is presented. The ci...
A novel ultra-low power operating technique is presented for Mega-pixels current-mediated CMOS image...
Sophisticated computational imaging algorithms require both high performance and good energy-efficie...
As modern integrated circuit design pushes further into the deep submicron era, the pseudo-random de...
This paper presents an asynchronous mixed-signal WTA-LTA circuit conceived to carry out local minim...
[[abstract]]This paper proposes a low-power, high-resolution Winner-Take-All (WTA) circuit basing on...
Due to quadratic dependence of switching power on supply power, supply scaling leads to significant ...
Abstract—This paper presents a massively parallel processing array designed for the 0.13µm 1.5V stan...
This thesis presents a low power SRAM block implemented in a 0.35 μm CMOS technology for imaging app...
A CMOS Current/Voltage mode winner-take-all circuit (WTA) with spatial filtering for image processin...
Abstract In this Letter, a new low‐voltage and low‐power current‐mode winner‐take‐all (WTA) circuit ...
Nowadays, energy-efficiency is becoming more and more a decisive parameter for digital systems, driv...
\u3cp\u3eThis paper presents litho friendly circuit techniques for variability resilient low power 8...
A new current-mode maximum winner-take-all (Max WTA) circuit is presented. Inputs and output of the ...
Abstract—Further power and energy reductions via technology and voltage scaling have become extremel...
A time domain winner take all (WTA) circuit for a 1D optical position detector is presented. The ci...
A novel ultra-low power operating technique is presented for Mega-pixels current-mediated CMOS image...
Sophisticated computational imaging algorithms require both high performance and good energy-efficie...
As modern integrated circuit design pushes further into the deep submicron era, the pseudo-random de...