Memristive nanomaterials and electronic devices for quantum and neuromorphic computing
The MEM-Q project brings together leading research groups from Greece and Russia,
with significant contribution to the contemporary state-of-the-art of memristive materials and technologies,
working on a universal approach towards the fabrication of memristors and explore the possibility of using them
as building blocks for quantum and neuromorphic computing, breaking the limitations and red-brick wall of the
conventional computing logic (Boolean logic) and architecture (von Neumann architecture). MEM-Q contributes to
the development of new industrial technologies of manufacturing memristive devices for applications in
new-generation information storage and models of quantum and neural circuits for neuroprocessors, FPGA and quantum
computers. Stochastic nature and nonlinear dynamics of memristors provide for the creation of brain-like neural
network architectures with synaptic plasticity and neurohybrid devices. This could be the basis for the hybridization
of electronic devices and biological tissue/cultures for the development of robotics and artificial intelligence
and the development of new methods of diagnostics/treatment of the nervous system and brain.