期刊
IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
卷 33, 期 6, 页码 -出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TASC.2023.3265431
关键词
Logic gates; Clocks; Junctions; Synchronization; Josephson junctions; Integrated circuit modeling; Delays; Cooper pair; Josephson junction; quantum logic circuit; quantum phase slip; superconductivity
In this article, clockless circuits for the basic logic gates, i.e. and and or gates, are designed using quantum phase slip junction (QPSJ). The proposed clockless gates remove the need for internal clock pulse synchronization, leading to reduced design complexity and smaller chip area, higher operation frequency, and lower power dissipation.
In this article, clockless circuits of the two basic logic gates, namely, and and or gates, are designed using the quantum phase slip junction (QPSJ). In the previously designed (existing) circuits of these gates, there is an internal clock pulse source in the output branch, which is necessary for proper gate operation. When the existing and and or gates have to be connected to another gate, this internal clock pulse becomes a series between their outputs and the input of the next gate. As a result, the internal clock pulse must be provided by a separate source, but synchronized to the system clock pulse (which is needed for synchronization of the inputs). This increases the design complexity. By using the proposed clockless and and or gates, the mentioned design complexity is removed. In addition, the proposed clockless gates have less number of QPSJs than the existing ones, which allows less occupied area on the chip, a higher operation frequency, and smaller dynamic power dissipation.
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