The high demand for performance and energy efficiency poses significant challenges for computing systems in recent years. The memristor-based crossbar array architecture is enthusiastically regarded as a potential competitor to traditional solutions due to its low power consumption and fast switching speed. Especially by leveraging self-rectifying memristive devices, passive crossbar arrays potentially enable high memory densities. Nonetheless, due to the lack of a switching control per cell, these passive, self-rectifying memristive crossbar arrays (srMCA) suffer from sneak path current issues that limit the range of accurate operation of the crossbar array. In this work, the sneak path current issues in the passive srMCAs based on self-re...
The semiconductor industry looks ahead to Resistive random-access memory (RRAM), (alternatively know...
Memristor or RRAM (Resistive Random Access Memory) based crossbar array architecture (CBA) is consid...
While the speed-energy efficiency of traditional digital processors approach a plateau because of li...
The demands for continuous miniaturization of electronic devices and circuits have kept on increasi...
Memristive device based passive crossbar arrays hold a great promise for high-density and non-volati...
Selectorless crossbar arrays of resistive random access memory (RRAM), also known as memristors, con...
The conventional transistor-based computing landscape is already undergoing dramatic changes. While ...
In crossbar array structures, which serves as an "In-Memory" compute engine for Artificial Intellige...
On the road towards higher memory density and computer performance, a significant improvement in ene...
International audienceThis review timely surveyed recent progress on solutions to the sneak path iss...
Conference of 2014 IEEE/ACM International Symposium on Nanoscale Architectures, NANOARCH 2014 ; Conf...
With increasing demand for high-density memory applications, alternative memory technology has been ...
Abstract— Several memory vendors are pursuing different kinds of memory cells that can offer high de...
International audiencePassive crossbar memories based on resistive switching bit-cells are today see...
In this Chapter, we review the recent progress on resistance drift mitigation techniques for resisti...
The semiconductor industry looks ahead to Resistive random-access memory (RRAM), (alternatively know...
Memristor or RRAM (Resistive Random Access Memory) based crossbar array architecture (CBA) is consid...
While the speed-energy efficiency of traditional digital processors approach a plateau because of li...
The demands for continuous miniaturization of electronic devices and circuits have kept on increasi...
Memristive device based passive crossbar arrays hold a great promise for high-density and non-volati...
Selectorless crossbar arrays of resistive random access memory (RRAM), also known as memristors, con...
The conventional transistor-based computing landscape is already undergoing dramatic changes. While ...
In crossbar array structures, which serves as an "In-Memory" compute engine for Artificial Intellige...
On the road towards higher memory density and computer performance, a significant improvement in ene...
International audienceThis review timely surveyed recent progress on solutions to the sneak path iss...
Conference of 2014 IEEE/ACM International Symposium on Nanoscale Architectures, NANOARCH 2014 ; Conf...
With increasing demand for high-density memory applications, alternative memory technology has been ...
Abstract— Several memory vendors are pursuing different kinds of memory cells that can offer high de...
International audiencePassive crossbar memories based on resistive switching bit-cells are today see...
In this Chapter, we review the recent progress on resistance drift mitigation techniques for resisti...
The semiconductor industry looks ahead to Resistive random-access memory (RRAM), (alternatively know...
Memristor or RRAM (Resistive Random Access Memory) based crossbar array architecture (CBA) is consid...
While the speed-energy efficiency of traditional digital processors approach a plateau because of li...