An adiabatic quantum flux parametron as an ultra-low-power logic device N Takeuchi, D Ozawa, Y Yamanashi, N Yoshikawa
Superconductor Science and Technology 26 (3), 035010, 2013
405 2013 Adiabatic quantum-flux-parametron cell library designed using a 10 kA cm− 2 niobium fabrication process N Takeuchi, S Nagasawa, F China, T Ando, M Hidaka, Y Yamanashi, ...
Superconductor Science and Technology 30 (3), 035002, 2017
141 2017 Adiabatic quantum-flux-parametron cell library adopting minimalist design N Takeuchi, Y Yamanashi, N Yoshikawa
Journal of Applied Physics 117 (17), 2015
132 2015 Design and Implementation of a Pipelined Bit-Serial SFQ Microprocessor, Y Yamanashi, M Tanaka, A Akimoto, H Park, Y Kamiya, N Irie, ...
IEEE transactions on applied superconductivity 17 (2), 474-477, 2007
130 2007 Bit-serial single flux quantum microprocessor CORE A Fujimaki, M Tanaka, T Yamada, Y Yamanashi, H Park, N Yoshikawa
IEICE transactions on electronics 91 (3), 342-349, 2008
123 2008 Reversible logic gate using adiabatic superconducting devices N Takeuchi, Y Yamanashi, N Yoshikawa
Scientific reports 4 (1), 1-4, 2014
97 2014 100 GHz demonstrations based on the single-flux-quantum cell library for the 10 kA/cm 2 Nb multi-layer process Y Yamanashi, T Kainuma, N Yoshikawa, I Kataeva, H Akaike, A Fujimaki, ...
IEICE transactions on electronics 93 (4), 440-444, 2010
96 2010 Measurement of 10 zJ energy dissipation of adiabatic quantum-flux-parametron logic using a superconducting resonator N Takeuchi, Y Yamanashi, N Yoshikawa
Applied Physics Letters 102 (5), 2013
92 2013 Energy efficiency of adiabatic superconductor logic N Takeuchi, Y Yamanashi, N Yoshikawa
Superconductor Science and Technology 28 (1), 015003, 2014
90 2014 Demonstration of a single-flux-quantum microprocessor using passive transmission lines M Tanaka, T Kondo, N Nakajima, T Kawamoto, Y Yamanashi, Y Kamiya, ...
IEEE transactions on applied superconductivity 15 (2), 400-404, 2005
89 2005 Margin and energy dissipation of adiabatic quantum-flux-parametron logic at finite temperature N Takeuchi, K Ehara, K Inoue, Y Yamanashi, N Yoshikawa
IEEE transactions on applied superconductivity 23 (3), 1700304-1700304, 2012
86 2012 A single-flux-quantum logic prototype microprocessor M Tanaka, F Matsuzaki, T Kondo, N Nakajima, Y Yamanashi, A Fujimaki, ...
2004 IEEE International Solid-State Circuits Conference (IEEE Cat. No …, 2004
75 2004 Study of LR-loading technique for low-power single flux quantum circuits Y Yamanashi, T Nishigai, N Yoshikawa
IEEE Transactions on applied superconductivity 17 (2), 150-153, 2007
69 2007 Simulation of sub-kBT bit-energy operation of adiabatic quantum-flux-parametron logic with low bit-error-rate N Takeuchi, Y Yamanashi, N Yoshikawa
Applied Physics Letters 103 (6), 2013
54 2013 Simulation and experimental demonstration of logic circuits using an ultra-low-power adiabatic quantum-flux-parametron K Inoue, N Takeuchi, K Ehara, Y Yamanashi, N Yoshikawa
IEEE transactions on applied superconductivity 23 (3), 1301105-1301105, 2012
49 2012 100-GHz Single-Flux-Quantum Bit-Serial Adder Based on 10- Niobium Process M Tanaka, H Akaike, A Fujimaki, Y Yamanashi, N Yoshikawa, ...
IEEE transactions on applied superconductivity 21 (3), 792-796, 2011
49 2011 Synthesis flow for cell-based adiabatic quantum-flux-parametron structural circuit generation with HDL back-end verification Q Xu, CL Ayala, N Takeuchi, Y Murai, Y Yamanashi, N Yoshikawa
IEEE Transactions on Applied Superconductivity 27 (4), 1-5, 2017
47 2017 Design of a pipelined 8-bit-serial single-flux-quantum microprocessor with multiple ALUs M Tanaka, T Kawamoto, Y Yamanashi, Y Kamiya, A Akimoto, K Fujiwara, ...
Superconductor Science and Technology 19 (5), S344, 2006
47 2006 Pseudo sigmoid function generator for a superconductive neural network Y Yamanashi, K Umeda, N Yoshikawa
IEEE transactions on applied superconductivity 23 (3), 1701004-1701004, 2012
46 2012 Demonstration of 30 Gbit/s generation of superconductive true random number generator T Sugiura, Y Yamanashi, N Yoshikawa
IEEE transactions on applied superconductivity 21 (3), 843-846, 2010
46 2010