The demands for continuous miniaturization of electronic devices and circuits have kept on increasing to fulfill consumer needs. However, today’s conventional technologies are facing major challenges related to scaling and design issues. Nanoscale memristive devices are one of the promising futuristic technologies that are compatible with CMOS process and fit several potential applications. Inspired by its non-volatility feature, the memristor is used as a memory cell in crossbar array structures. Despite their high density and less complexity, memristive crossbar memory arrays face a major problem related to the sneak current flowing through the pathways of the unselected memory cells. This is referred as sneak path current proble...
Living in the era of big-data, it is crucial to store vast amounts of data and process them quickly....
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 high demand for performance and energy efficiency poses significant challenges for computing sys...
Memristive device based passive crossbar arrays hold a great promise for high-density and non-volati...
In this paper, a self-rectifying memristor (SRM) model is proposed for memristive circuit simulation...
Selectorless crossbar arrays of resistive random access memory (RRAM), also known as memristors, con...
Abstract— Several memory vendors are pursuing different kinds of memory cells that can offer high de...
The conventional transistor-based computing landscape is already undergoing dramatic changes. While ...
Memristors are promising building blocks for the next-generation memory and neuromorphic computing s...
Abstract—The memristor device technology has created waves in the research community and led to the ...
On the road towards higher memory density and computer performance, a significant improvement in ene...
The memristor is one among the most promising emerging technologies for enabling a new generation of...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Memristor technology is becoming an attractive option for memory architectures, in-memory computing,...
Living in the era of big-data, it is crucial to store vast amounts of data and process them quickly....
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 high demand for performance and energy efficiency poses significant challenges for computing sys...
Memristive device based passive crossbar arrays hold a great promise for high-density and non-volati...
In this paper, a self-rectifying memristor (SRM) model is proposed for memristive circuit simulation...
Selectorless crossbar arrays of resistive random access memory (RRAM), also known as memristors, con...
Abstract— Several memory vendors are pursuing different kinds of memory cells that can offer high de...
The conventional transistor-based computing landscape is already undergoing dramatic changes. While ...
Memristors are promising building blocks for the next-generation memory and neuromorphic computing s...
Abstract—The memristor device technology has created waves in the research community and led to the ...
On the road towards higher memory density and computer performance, a significant improvement in ene...
The memristor is one among the most promising emerging technologies for enabling a new generation of...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Memristor technology is becoming an attractive option for memory architectures, in-memory computing,...
Living in the era of big-data, it is crucial to store vast amounts of data and process them quickly....
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...