Memtransistor

The memtransistor (a blend word from Memory Transfer Resistor) is an experimental multi-terminal passive electronic component that might be used in the construction of artificial neural networks.^[1] It is a combination of the memristor and transistor technology.^[2] This technology is different from the 1T-1R approach since the devices are merged into one single entity. Multiple memristers can be embedded with a single transistor, enabling it to more accurately model a neuron with its multiple synaptic connections. A neural network produced from these would provide hardware-based artificial intelligence with a good foundation.^[1]^[3]

Applications[edit]

These types of devices would allow for a synapse model that could realise a learning rule, by which the synaptic efficacy is altered by voltages applied to the terminals of the device. An example of such a learning rule is spike-timing-dependant-plasticty by which the weight of the synapse, in this case the conductivity, could be modulated based on the timing of pre and post synaptic spikes arriving at each terminal. The advantage of this approach over two terminal memristive devices is that read and write protocols have the possibility to occur simultaneously and distinctly.

Implementations[edit]

Researchers at Northwestern University have fabricated a seven-terminal device fabricated on molybdenum disulfide (MoS
₂). One terminal controls the current between the other six.^[4] It has been shown that the I_D / V_D characteristics of the transistor can be modified even after fabrication. Subsequently, designs which would originally require multiple (selectable) transistors can be implemented with a single configurable transistor.

References[edit]

^ ^a ^b Li, Da; Liang, Xiaogan (22 February 2018). "Neurons mimicked by electronics". Nature. 554 (7693): 472–473. Bibcode:2018Natur.554..472L. doi:10.1038/d41586-018-02025-x. PMID 29469113.
^ Sangwan, V.K. et al 'Multi-terminal memtransistors from polycrystalline monolayer molybdenum disulfide' Nature Vol. 554 No. 7693, 22 February 2018 : DOI: 10.1038/nature25747 : pages 500-504
^ Northwestern University. "'Memtransistor' brings world closer to brain-like computing". Phys.org. Science X. Retrieved 24 March 2018.
^ Wang, Brian (24 February 2018). "Memtransistors advance neuromorphic computing". NextBigFuture.com. Retrieved 24 March 2018.

[Li-1] Li, Da; Liang, Xiaogan (22 February 2018). "Neurons mimicked by electronics". Nature. 554 (7693): 472–473. Bibcode:2018Natur.554..472L. doi:10.1038/d41586-018-02025-x. PMID 29469113.

[2] Sangwan, V.K. et al 'Multi-terminal memtransistors from polycrystalline monolayer molybdenum disulfide' Nature Vol. 554 No. 7693, 22 February 2018 : DOI: 10.1038/nature25747 : pages 500-504

[PO-3] Northwestern University. "'Memtransistor' brings world closer to brain-like computing". Phys.org. Science X. Retrieved 24 March 2018.

[BW-4] Wang, Brian (24 February 2018). "Memtransistors advance neuromorphic computing". NextBigFuture.com. Retrieved 24 March 2018.

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Memtransistor

Applications[edit]

Implementations[edit]

References[edit]

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