It's been quite a while since scientists are seeking for the ancestor of von Neumann computing architecture. Among the most promising candidates, memristor demonstrates advantageous characteristics, which open new pathways for the exploration of advanced computing paradigms. In this work we propose the design of a novel crossbar geometry, which is heterogeneous in terms of its cross-point devices, allowing for the realization of true in-memory digital logic computations. More specifically, it is a combination of two stacked crossbar arrays with a shared intermediate nanowire layer. The variety of available cross-points types allows the execution of parallel memristive logic computations, where the logic state variable is voltage. Moreover, ...
On the road towards higher memory density and computer performance, a significant improvement in ene...
While the speed-energy efficiency of traditional digital processors approach a plateau because of li...
Crossbars of nanoscale memristors are being fabricated to serve as high-density non-volatile memory ...
It's been quite a while since scientists are seeking for the ancestor of von Neumann computing archi...
The use of memristors and resistive random access memory (ReRAM) technology to perform logic computa...
Crossbar-based memristive arrays are promising candidates for future high-density, low-power memorie...
We are quickly reaching an impasse to the number of transistors that can be squeezed onto a single c...
A 3D architecture made up of a CMOS layer combined with a 3D stack of bipolar memristor crossbar arr...
In this chapter, we discuss the compute-in-memory memristive architectures and develop a 2M1M crossb...
How to improve the storage density and solve the sneak path current problem has become the key to th...
The realization of logic operations within passive crossbar memory arrays is a promising approach to...
In complementary metal-oxide-semiconductor (CMOS)-based von Neumann architectures, the intrinsic pow...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
The recent emerging memristor can provide non-volatile memory storage but also intrinsic computing f...
On the road towards higher memory density and computer performance, a significant improvement in ene...
While the speed-energy efficiency of traditional digital processors approach a plateau because of li...
Crossbars of nanoscale memristors are being fabricated to serve as high-density non-volatile memory ...
It's been quite a while since scientists are seeking for the ancestor of von Neumann computing archi...
The use of memristors and resistive random access memory (ReRAM) technology to perform logic computa...
Crossbar-based memristive arrays are promising candidates for future high-density, low-power memorie...
We are quickly reaching an impasse to the number of transistors that can be squeezed onto a single c...
A 3D architecture made up of a CMOS layer combined with a 3D stack of bipolar memristor crossbar arr...
In this chapter, we discuss the compute-in-memory memristive architectures and develop a 2M1M crossb...
How to improve the storage density and solve the sneak path current problem has become the key to th...
The realization of logic operations within passive crossbar memory arrays is a promising approach to...
In complementary metal-oxide-semiconductor (CMOS)-based von Neumann architectures, the intrinsic pow...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
The recent emerging memristor can provide non-volatile memory storage but also intrinsic computing f...
On the road towards higher memory density and computer performance, a significant improvement in ene...
While the speed-energy efficiency of traditional digital processors approach a plateau because of li...
Crossbars of nanoscale memristors are being fabricated to serve as high-density non-volatile memory ...