Joon Sohn scite author profile

The emerging paradigm of ‘abundant-data' computing requires real-time analytics on enormous quantities of data collected by a mushrooming network of sensors. Todays computing technology, however, cannot scale to satisfy such big data applications with the required throughput and energy efficiency. The next technology frontier will be monolithically integrated chips with three-dimensionally interleaved memory and logic for unprecedented data bandwidth with reduced energy consumption. In this work, we exploit the atomically thin nature of the graphene edge to assemble a resistive memory (∼3 Å thick) stacked in a vertical three-dimensional structure. We report some of the lowest power and energy consumption among the emerging non-volatile memories due to an extremely thin electrode with unique properties, low programming voltages, and low current. Circuit analysis of the three-dimensional architecture using experimentally measured device properties show higher storage potential for graphene devices compared that of metal based devices.

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Hyperdimensional computing with 3D VRRAM in-memory kernels: Device-architecture co-design for energy-efficient, error-resilient language recognition

Rahimi

et al. 2016

121

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Resistive random access memory (RRAM) technology: From material, device, selector, 3D integration to bottom-up fabrication

Chen

Brivio²,

Chang

et al. 2017

J Electroceram

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The Role of Ti Capping Layer in HfO<sub><italic>x</italic></sub>-Based RRAM Devices

Fang

Wang

Sohn

et al. 2014

IEEE Electron Device Lett.

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All-Metal-Nitride RRAM Devices

Zhang

Gao

Fang

et al. 2015

IEEE Electron Device Lett.

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Joon Sohn

Metal oxide-resistive memory using graphene-edge electrodes

Hyperdimensional computing with 3D VRRAM in-memory kernels: Device-architecture co-design for energy-efficient, error-resilient language recognition

Resistive random access memory (RRAM) technology: From material, device, selector, 3D integration to bottom-up fabrication

The Role of Ti Capping Layer in HfO<sub><italic>x</italic></sub>-Based RRAM Devices

All-Metal-Nitride RRAM Devices

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