About Neuromorphic Processing Systems
Neuromorphic Processing Systems
About this Collection
The term neuromorphic refers to electronic devices, circuits, and systems that implement the same basic operations as those the nervous system uses, and that use the same organizing principles used by the nervous system.
Neuromorphic engineering is an interdisciplinary field that feeds from biology (neuroscience), physics (materials science), mathematics (graphical networks, belief propagation), computer science (automata, state machines, learning), and engineering (microelectronics and robotics) to develop brain-inspired processing systems.
The aim of this collection is to create a common space for researchers exploring different aspects of neural computation and sensory-motor processing.
A non-exhaustive list of topics includes:
All article processing charges will be covered centrally by the European Commission.
Open Research Europe requires open access to research data supporting articles under the principle ‘as open as possible, as closed as necessary’. All articles should include citations to repositories that host the data underlying the results, together with any information needed to replicate, validate, and/or reuse the results/your study and analysis of the data. We recognise there may be exceptions due to ethical, data protection, or confidentiality considerations, or because the data have been obtained from a third party and access restrictions apply.
Neuromorphic engineering is an interdisciplinary field that feeds from biology (neuroscience), physics (materials science), mathematics (graphical networks, belief propagation), computer science (automata, state machines, learning), and engineering (microelectronics and robotics) to develop brain-inspired processing systems.
The aim of this collection is to create a common space for researchers exploring different aspects of neural computation and sensory-motor processing.
A non-exhaustive list of topics includes:
- Spiking Neural Networks.
- Recurrent Neural Networks.
- Learning and Plasticity.
- Neuromorphic sensors.
- Multi-core neuromorphic processors.
- Hybrid memristive/CMOS neuromorphic systems.
- Co-designed software-hardware architectures.
- Event-based processing and applications.
All article processing charges will be covered centrally by the European Commission.
Open Research Europe requires open access to research data supporting articles under the principle ‘as open as possible, as closed as necessary’. All articles should include citations to repositories that host the data underlying the results, together with any information needed to replicate, validate, and/or reuse the results/your study and analysis of the data. We recognise there may be exceptions due to ethical, data protection, or confidentiality considerations, or because the data have been obtained from a third party and access restrictions apply.
Collection Advisor
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Giacomo Indiveri
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