Neuromorphic computing aims at the realization of intelligent systems able to process information similarly to our brain. Brain-inspired computing paradigms have been implemented in crossbar arrays of memristive devices; however, this approach does not emulate the topology and the emergent behaviour of biological neuronal circuits, where the principle of self-organization regulates both structure and function. Here, we report on in materia reservoir computing in a fully memristive architecture based on self-organized nanowire networks. Thanks to the functional synaptic connectivity with nonlinear dynamics and fading memory properties, the designless nanowire complex network acts as a network-wide physical reservoir able to map spatio-tempor...
The ability for artificially reproducing human brain type signals’ processing is one of the main cha...
This is the dataset of "In materia reservoir computing with a fully memristive architecture based on...
Brain-inspired computing proposes a set of algorithmic principles that hold promise for advancing ar...
Neuromorphic computing aims at the realization of intelligent systems able to process information si...
Acting as artificial synapses, two‐terminal memristive devices are considered fundamental building b...
Unconventional computing explores multi-scale platforms connecting molecular-scale devices into netw...
Neuromorphic engineering is the research field dedicated to the study and design of brain-inspired h...
The past decade has seen a sharp rise in the development and manufacture of different hardware frame...
Acting as artificial synapses, two‐terminal memristive devices are considered fundamental building b...
In the new era of cognitive computing, systems will be able to learn and interact with the environme...
The hardware implementation of the reservoir computing paradigm represents a key aspect for taking i...
Emerging memcapacitive nanoscale devices have the potential to perform computations in new ways. In ...
Networks of nanowires are currently being explored for a range of applications in brain-like (or neu...
Learning is a fundamental component of creating intelligent machines. Biological intelligence orches...
We present simulation results based on a model of self–assembled nanowire networks with memristive j...
The ability for artificially reproducing human brain type signals’ processing is one of the main cha...
This is the dataset of "In materia reservoir computing with a fully memristive architecture based on...
Brain-inspired computing proposes a set of algorithmic principles that hold promise for advancing ar...
Neuromorphic computing aims at the realization of intelligent systems able to process information si...
Acting as artificial synapses, two‐terminal memristive devices are considered fundamental building b...
Unconventional computing explores multi-scale platforms connecting molecular-scale devices into netw...
Neuromorphic engineering is the research field dedicated to the study and design of brain-inspired h...
The past decade has seen a sharp rise in the development and manufacture of different hardware frame...
Acting as artificial synapses, two‐terminal memristive devices are considered fundamental building b...
In the new era of cognitive computing, systems will be able to learn and interact with the environme...
The hardware implementation of the reservoir computing paradigm represents a key aspect for taking i...
Emerging memcapacitive nanoscale devices have the potential to perform computations in new ways. In ...
Networks of nanowires are currently being explored for a range of applications in brain-like (or neu...
Learning is a fundamental component of creating intelligent machines. Biological intelligence orches...
We present simulation results based on a model of self–assembled nanowire networks with memristive j...
The ability for artificially reproducing human brain type signals’ processing is one of the main cha...
This is the dataset of "In materia reservoir computing with a fully memristive architecture based on...
Brain-inspired computing proposes a set of algorithmic principles that hold promise for advancing ar...