Towards spike-based machine intelligence with neuromorphic computing
Guided by brain-like 'spiking'computational frameworks, neuromorphic computing—brain-
inspired computing for machine intelligence—promises to realize artificial intelligence while …
inspired computing for machine intelligence—promises to realize artificial intelligence while …
In-memory computing with resistive switching devices
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 …
storage are physically separated: data are fetched from the memory unit, shuttled to the …
Memristor modeling: challenges in theories, simulations, and device variability
This article presents a review of the current development and challenges in memristor
modeling. We review the mechanisms of memristive devices based on various …
modeling. We review the mechanisms of memristive devices based on various …
Advances of RRAM devices: Resistive switching mechanisms, materials and bionic synaptic application
Resistive random access memory (RRAM) devices are receiving increasing extensive
attention due to their enhanced properties such as fast operation speed, simple device …
attention due to their enhanced properties such as fast operation speed, simple device …
Variability in resistive memories
Resistive memories are outstanding electron devices that have displayed a large potential in
a plethora of applications such as nonvolatile data storage, neuromorphic computing …
a plethora of applications such as nonvolatile data storage, neuromorphic computing …
In situ learning using intrinsic memristor variability via Markov chain Monte Carlo sampling
Resistive memory technologies could be used to create intelligent systems that learn locally
at the edge. However, current approaches typically use learning algorithms that cannot be …
at the edge. However, current approaches typically use learning algorithms that cannot be …
Resistive switching memories based on metal oxides: mechanisms, reliability and scaling
D Ielmini - Semiconductor Science and Technology, 2016 - iopscience.iop.org
With the explosive growth of digital data in the era of the Internet of Things (IoT), fast and
scalable memory technologies are being researched for data storage and data-driven …
scalable memory technologies are being researched for data storage and data-driven …
Mixed-precision in-memory computing
As complementary metal–oxide–semiconductor (CMOS) scaling reaches its technological
limits, a radical departure from traditional von Neumann systems, which involve separate …
limits, a radical departure from traditional von Neumann systems, which involve separate …
Surface diffusion-limited lifetime of silver and copper nanofilaments in resistive switching devices
Silver/copper-filament-based resistive switching memory relies on the formation and
disruption of a metallic conductive filament (CF) with relatively large surface-to-volume ratio …
disruption of a metallic conductive filament (CF) with relatively large surface-to-volume ratio …
In-memory computing with emerging memory devices: Status and outlook
In-memory computing (IMC) has emerged as a new computing paradigm able to alleviate or
suppress the memory bottleneck, which is the major concern for energy efficiency and …
suppress the memory bottleneck, which is the major concern for energy efficiency and …