The integration of superconductive nanowire logic memories and energy efficient computing Josephson logic is explored. Nanowire memories are based on the integration of switchable superconducting nanowires with a suitable magnetic material. These memories exploit the electro-Thermal operation of the nanowires to efficiently store and read a magnetic state. In order to achieve proper memory operation a careful design of the nanowire assembly is necessary, as well as a proper choice of the magnetic material to be employed. At present several new superconducting logic families have been proposed, all tending to minimize the effect of losses in the digital Josephson circuits replacing resistors by adequate combinations of inductors in the logic gates. Among those, the nSQUID concept relies on the propagation of vortices along underdamped Josephson transmission lines. While, in principle, this logic family provides very low dissipation, several issues, such as speed and stability, have yet to be addressed. The current status of design and testing of n-SQUID logic gates and circuits as well as of the design and implementation of the nanowire memories is reported.

Progress towards innovative and energy efficient logic circuits / Pagano, S.; Salina, G.; Napoli, A.; Attanasio, C.; Barone, C.; Bobba, F.; Carapella, G.; Leo, A.; Nigro, A.; Cristiano, R.; Ejrnaes, M.; Lisitskiy, M.; Martucciello, N.; Pepe, G. P.; Parlato, L.; Cirillo, M.; Lucci, M.; Merlo, V.; Messina, A.; Militello, B.. - In: JOURNAL OF PHYSICS. CONFERENCE SERIES. - ISSN 1742-6588. - 1559:1(2020), p. 012009. (Intervento presentato al convegno 14th European Conference on Applied Superconductivity, EUCAS 2019 tenutosi a gbr nel 2019) [10.1088/1742-6596/1559/1/012009].

Progress towards innovative and energy efficient logic circuits

Pepe G. P.;Parlato L.;
2020

Abstract

The integration of superconductive nanowire logic memories and energy efficient computing Josephson logic is explored. Nanowire memories are based on the integration of switchable superconducting nanowires with a suitable magnetic material. These memories exploit the electro-Thermal operation of the nanowires to efficiently store and read a magnetic state. In order to achieve proper memory operation a careful design of the nanowire assembly is necessary, as well as a proper choice of the magnetic material to be employed. At present several new superconducting logic families have been proposed, all tending to minimize the effect of losses in the digital Josephson circuits replacing resistors by adequate combinations of inductors in the logic gates. Among those, the nSQUID concept relies on the propagation of vortices along underdamped Josephson transmission lines. While, in principle, this logic family provides very low dissipation, several issues, such as speed and stability, have yet to be addressed. The current status of design and testing of n-SQUID logic gates and circuits as well as of the design and implementation of the nanowire memories is reported.
2020
Progress towards innovative and energy efficient logic circuits / Pagano, S.; Salina, G.; Napoli, A.; Attanasio, C.; Barone, C.; Bobba, F.; Carapella, G.; Leo, A.; Nigro, A.; Cristiano, R.; Ejrnaes, M.; Lisitskiy, M.; Martucciello, N.; Pepe, G. P.; Parlato, L.; Cirillo, M.; Lucci, M.; Merlo, V.; Messina, A.; Militello, B.. - In: JOURNAL OF PHYSICS. CONFERENCE SERIES. - ISSN 1742-6588. - 1559:1(2020), p. 012009. (Intervento presentato al convegno 14th European Conference on Applied Superconductivity, EUCAS 2019 tenutosi a gbr nel 2019) [10.1088/1742-6596/1559/1/012009].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/830794
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