Vaibhav Karkare scite author profile

-This paper shows that due to their negligibly low leakage, in certain applications, chips utilizing power gates built even with today's relatively large, high-voltage micro-electro-mechanical (MEM) relays can achieve lower total energy than those built with CMOS transistors. A simple analysis provides design guidelines for off-time and savings estimates as a function of technology parameters, and quantifies the further benefits of scaled relay designs. Finally, we demonstrate a relay chip successfully power-gating a CMOS chip, and show a relay-based timer suitable for self-timed operation.

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28.6 A ±50mV linear-input-range VCO-based neural-recording front-end with digital nonlinearity correction

Jiang

Hokhikyan

Chandrakumar

et al. 2016

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A system-level view of optimizing high-channel-count wireless biosignal telemetry

Chandler

Gibson

Karkare

et al. 2009

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In this paper we perform a system-level analysis of a wireless biosignal telemetry system. We perform an analysis of each major system component (e.g., analog front end, analog-to-digital converter, digital signal processor, and wireless link), in which we consider physical, algorithmic, and design limitations. Since there are a wide range applications for wireless biosignal telemetry systems, each with their own unique set of requirements for key parameters (e.g., channel count, power dissipation, noise level, number of bits, etc.), our analysis is equally broad. The net result is a set of plots, in which the power dissipation for each component and as the system as a whole, are plotted as a function of the number of channels for different architectural strategies. These results are also compared to existing implementations of complete wireless biosignal telemetry systems.

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Vaibhav Karkare

A 75-µW, 16-Channel Neural Spike-Sorting Processor With Unsupervised Clustering

A 130-$\mu$W, 64-Channel Neural Spike-Sorting DSP Chip

A ±50-mV Linear-Input-Range VCO-Based Neural-Recording Front-End With Digital Nonlinearity Correction

A 130-μW, 64-channel spike-sorting DSP chip

Compressive Sensing of Neural Action Potentials Using a Learned Union of Supports

Analysis and demonstration of MEM-relay power gating

28.6 A ±50mV linear-input-range VCO-based neural-recording front-end with digital nonlinearity correction

A system-level view of optimizing high-channel-count wireless biosignal telemetry

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