Binary decision diagram logic integrated circuit subsystems based on control of compound semiconductor nanowire networks

Seiya Kasai; Miki Yumoto; Hideki Hasegawa

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Binary decision diagram logic integrated circuit subsystems based on control of compound semiconductor nanowire networks

机译：基于化合物半导体纳米线网络控制的二进制决策图逻辑集成电路子系统

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To realize ultra-high density and ultra-low power consumption quantum nanodevice logic integrated circuits, implementation of logic subsystems by a hexagonal quantum BDD logic circuit approach using compound semiconductor-based nanowire networks is investigated. BDD subsystems including adders and comparators are designed based on planar hexagonal layout without nanowire crossovers. Circuit fabrication process realizing 4.5×10{sup}7 devices/cm{sup}2 is developed. QWR-based BDD 2-bit and 4-bit adders are successfully fabricated and correct operation of the 2-bit adder is confirmed in a classical transport regime at room temperature. Design of register circuits utilizing WPG nanodevices is also discussed.

机译：为了实现超高密度和超低功耗的量子纳米器件逻辑集成电路，研究了使用基于化合物半导体的纳米线网络通过六角形量子BDD逻辑电路方法实现逻辑子系统的方法。包括加法器和比较器的BDD子系统是基于平面六边形布局设计的，没有纳米线交叉。开发了实现4.5×10 {sup} 7个器件/ cm {sup} 2的电路制造工艺。成功地制造了基于QWR的BDD 2位和4位加法器，并在室温下的经典传输方式中确认了2位加法器的正确操作。还讨论了利用WPG纳米器件的寄存器电路设计。

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《電子情報通信学会技術研究報告. シリコン材料·デバイス. Silicon Devices and Materials》 |2002年第640期|共6页
作者
Seiya Kasai; Miki Yumoto; Hideki Hasegawa;
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正文语种 jpn
中图分类一般性问题;
关键词
Binary decision diagram (BDD); Quantum nanodevice; Subsystem; Adder; Nanowire network;

机译：二进制决策图（BDD）;量子纳米器件;子系统;加法器;纳米线网络;

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1. Binary decision diagram logic integrated circuit subsystems based on control of compound semiconductor nanowire networks [J] . Seiya Kasai, Miki Yumoto, Hideki Hasegawa 電子情報通信学会技術研究報告. シリコン材料·デバイス. Silicon Devices and Materials . 2002,第640期

机译：基于化合物半导体纳米线网络控制的二进制决策图逻辑集成电路子系统
2. Binary decision diagram logic integrated circuit subsystems based on control of compound semiconductor nanowire networks [J] . Seiya Kasai, Miki Yumoto, Hideki Hasegawa 電子情報通信学会技術研究報告. 電子デバイス. Electron Devices . 2002,第638期

机译：基于化合物半导体纳米线网络控制的二进制决策图逻辑集成电路子系统
3. Binary decision diagram logic integrated circuit subsystems based on control of compound semiconductor nanowire networks [J] . Seiya Kasai, Miki Yumoto, Hideki Hasegawa 電子情報通信学会技術研究報告. シリコン材料·デバイス. Silicon Devices and Materials . 2002,第640期

机译：基于化合物半导体纳米线网络控制的二进制决策图逻辑集成电路子系统
4. Binary-decision-diagram quantum circuits based on Schottky wrap gate control of GaAs honeycomb nanowires [C] . Kasai, S., Hasegawa, . 2001

机译：基于GaAs蜂窝纳米线肖特基绕栅控制的二元决策图量子电路
5. Validated Monte Carlo based analysis on circuit netlist and zero suppressed binary decision diagrams. [D] . Alladi, Phaninder. 2010

机译：在电路网表和零抑制二进制决策图上验证了基于蒙特卡洛的分析。
6. Nanophase diagram of binary eutectic Au-Ge nanoalloys for vapor-liquid-solid semiconductor nanowires growth [O] . Haiming Lu, Xiangkang Meng -1

机译：用于汽-液-固半导体纳米线生长的二元共晶Au-Ge纳米合金的纳米相图
7. A single electron binary-decision-diagram quantum logic circuit based on Schottky wrap gate control of a GaAs nanowire hexagon [O] . Kasai, S., Hasegawa, H. 2002

机译：GaAs纳米线六角形基于肖特基绕栅控制的单电子二元决策图量子逻辑电路
8. Production Engineering Measures (Pem) for Microelectronic Circuitry and Milliwatt Logic Semiconductor Integrated Circuits [R] . Brooks, D. W., Stein, A. J. 1965

机译：微电子电路和milliwatt逻辑半导体集成电路的生产工程措施（pem）

Binary decision diagram logic integrated circuit subsystems based on control of compound semiconductor nanowire networks

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