Single-flux-quantum logic circuits exploiting collision-based fusion gates
Asai, T.; Yamada, K.; Amemiya, Y.
Phys., C Supercond 468(15-20): 1983-1986
2008
ISSN/ISBN: 0921-4534
Accession: 077800743
PDF emailed within 1 workday: $29.90
Related References
Kameda, Y.; Yorozu, S. 2003: Automatic josephson-transmission-line routing for single-flux-quantum cell-based logic circuits Ieee Trans. Appl. Supercond 13(2): 519-522Takeuchi, N.; Akahori, A.; Mori, N.; Suzuki, Y.; Furuta, F.; Fujimaki, A.; Hayakawa, H. 2001: Design and demonstration of fundamental logic circuits based on a Single-Flux-Quantum gate with a Resettable Latch Ieee Trans. Appl. Supercond 11(1): 966-969
Yumoto, M.; Kasai, S.; Hasegawa, H. 2002: Graph-based quantum logic circuits and their realization by novel GaAs multiple quantum wire branch switches utilizing Schottky wrap gates Microelectron. Eng 63(1-3): 287-291
Yamanashi, Y.; Okawa, I.; Yoshikawa, N. 2011: Design Approach of Dynamically Reconfigurable Single Flux Quantum Logic Gates Ieee Trans. Appl. Supercond 21(3): 831-834
Akkaya, E.U.; Katz, E.; Pischel, U. 2017: Molecular Logic: from Single Logic Gates to Sophisticated Logic Circuits, from Fundamental Science to Practical Applications Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 18(13): 1665-1666
Maezawa, M.; Kurosawa, I.; Aoyagi, M.; Nakagawa, H.; Kameda, Y.; Nanya, T. 1997: Rapid single-flux-quantum dual-rail logic for asynchronous circuits Ieee Trans. Appl. Supercond 7(2): 2705-2708
Hashimoto, Y.; Yorozu, S.; Kameda, Y.; Semenov, V.K. 2003: A design approach to passive interconnects for Single Flux Quantum logic circuits Ieee Trans. Appl. Supercond 13(2): 535-538
Song, T.; Eshra, A.; Shah, S.; Bui, H.; Fu, D.; Yang, M.; Mokhtar, R.; Reif, J. 2019: Fast and compact DNA logic circuits based on single-stranded gates using strand-displacing polymerase Nature Nanotechnology 14(11): 1075-1081
Kameda, Y.; Yorozu, S.; Hashimoto, Y. 2007: A new design methodology for single-flux-quantum (SFQ) logic circuits using passive-transmission-line (PTL) wiring Ieee Trans. Appl. Supercond 17(2): 508-511
Ortlepp, T.; Toepfer, H.; Uhlmann, H.F. 2001: A general approach for determining the switching probability in Rapid Single Flux Quantum logic circuits Ieee Trans. Appl. Supercond 11(1): 280-283
Speiser, S 2016: Prospects of luminescence based molecular scale logic gates and logic circuits Journal of Luminescence 169: 458-465
Hosoya, M.; Hioe, W. 1993: Margin analysis of quantum flux parametron logic gates IEEE Transactions on Applied Superconductivity 3(2): 3022-3028
Deng, L.P.; Haibo, W.A.N.G.; Kaige, W.A.N.G. 2007: Quantum CNOT gates with orbital angular momentum and polarization of single-photon quantum logic Journal of the Optical Society of America. B, Optical Physics 24(9): 2517-2520
Adler, V.; Cheah, C.H.; Gaj, K.; Brock, D.K.; Friedman, E.G. 1997: A cadence-based design environment for single flux quantum circuits Ieee Trans. Appl. Supercond 7(2): 3294-3297
Stojanovic, M.N.; Semova, S.; Kolpashchikov, D.; Macdonald, J.; Morgan, C.; Stefanovic, D. 2005: Deoxyribozyme-based ligase logic gates and their initial circuits Journal of the American Chemical Society 127(19): 6914-6915