The realization of logic operations within passive crossbar memory arrays is a promising approach to expand the fields of application of such architectures. Material implication was recently suggested as the basic function of memristive crossbar junctions, and single bipolar resistive switches (BRS) as well as complementary resistive switches (CRS) were shown to be capable of realizing this logical functionality. Based on a systematic analysis of the Boolean functions, we demonstrate here that 14 of 16 Boolean functions can be realized with a single BRS or CRS cell in at most three sequential cycles. Since the read-out step is independent of the logic operation steps, the result of the logic operation is directly stored to memory, making lo...
Memristors are considered among the most promising future building blocks of next-generation digital...
Rapid growth of future information technology depends on energy-efficient computation and ultra-high...
Rapid growth of future information technology depends on energy-efficient computation and ultra-high...
Redox-based resistive switching devices (ReRAM) are an emerging class of nonvolatile storage element...
On the road towards higher memory density and computer performance, a significant improvement in ene...
Emerging resistively switching devices are thought to enable ultradense passive nanocrossbar arrays ...
It's been quite a while since scientists are seeking for the ancestor of von Neumann computing archi...
Nonvolatile stateful logic computing in memristors is a promising paradigm with which to realize the...
Memristor based logic and memories are increasingly be- coming one of the fundamental building block...
We are quickly reaching an impasse to the number of transistors that can be squeezed onto a single c...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
The use of memristors and resistive random access memory (ReRAM) technology to perform logic computa...
In this chapter, we discuss the compute-in-memory memristive architectures and develop a 2M1M crossb...
The authors of the International Technology Roadmap for Semiconductors1 —the industry consensus set ...
New memory technologies may penetrate the market only if they offer substantial improvements compare...
Memristors are considered among the most promising future building blocks of next-generation digital...
Rapid growth of future information technology depends on energy-efficient computation and ultra-high...
Rapid growth of future information technology depends on energy-efficient computation and ultra-high...
Redox-based resistive switching devices (ReRAM) are an emerging class of nonvolatile storage element...
On the road towards higher memory density and computer performance, a significant improvement in ene...
Emerging resistively switching devices are thought to enable ultradense passive nanocrossbar arrays ...
It's been quite a while since scientists are seeking for the ancestor of von Neumann computing archi...
Nonvolatile stateful logic computing in memristors is a promising paradigm with which to realize the...
Memristor based logic and memories are increasingly be- coming one of the fundamental building block...
We are quickly reaching an impasse to the number of transistors that can be squeezed onto a single c...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
The use of memristors and resistive random access memory (ReRAM) technology to perform logic computa...
In this chapter, we discuss the compute-in-memory memristive architectures and develop a 2M1M crossb...
The authors of the International Technology Roadmap for Semiconductors1 —the industry consensus set ...
New memory technologies may penetrate the market only if they offer substantial improvements compare...
Memristors are considered among the most promising future building blocks of next-generation digital...
Rapid growth of future information technology depends on energy-efficient computation and ultra-high...
Rapid growth of future information technology depends on energy-efficient computation and ultra-high...