Modern computers are based on the von Neumann architecture in which computation and
storage are physically separated: data are fetched from the memory unit, shuttled to the …

This article is a comprehensive review of the state-of-theart of memristor-based logic circuit
design concepts of the recent literature. Amongst all the identified circuit design approaches …

The growing importance of applications based on machine learning is driving the need to
develop dedicated, energy-efficient electronic hardware. Compared with von Neumann …

Memristors are promising components for applications in nonvolatile memory, logic circuits,
and neuromorphic computing. In this paper, a novel circuit for memristor-based multilayer …

The memristor is a fundamental two-terminal electrical component unique in that it
possesses the properties of non-linearity and memory, which are pervasive across natural …

The memristor has been extensively studied in electrical engineering and biological
sciences as a means to compactly implement the synaptic function in neural networks. The …

Emerging resistively switching devices are thought to enable ultradense passive
nanocrossbar arrays for use as random access memories (ReRAM) by the end of the …

Continued dimensional and functional scaling of Complementary Metal-Oxide-
Semiconductor (CMOS) technology is driving information processing into a broadening …

Silicon CMOS-based computing-in-memory encounters design and power challenges,
especially in logic-in-memory scenarios requiring nonvolatility and reconfigurability. Here …

Emerging memristive devices offer enormous advantages for applications such as non-
volatile memories and in-memory computing (IMC), but there is a rising interest in using …