A Quantum Cellular Automata Decimal Full Adder

A quantum cell and full adder technology, applied in the field of quantum cellular automata decimal full adder, can solve problems such as high area and delay, and insufficient compact logic expression, so as to reduce area, reduce circuit cost, and enrich research The effect of the method

Active Publication Date: 2022-04-22
NINGBO UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the past, traditional QCA circuits used most logic gates and inverters for design. Although complete logic functions can be realized, the logic expressions are still not compact enough, and the area and delay are relatively high.

Method used

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  • A Quantum Cellular Automata Decimal Full Adder
  • A Quantum Cellular Automata Decimal Full Adder
  • A Quantum Cellular Automata Decimal Full Adder

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Embodiment Construction

[0035] The present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.

[0036] figure 1 It is a schematic diagram of the structure of a traditional decimal full adder. Such as figure 1 As shown in , the carry bit is located in the first part of the entire circuit, so the length of the critical path of the multi-bit decimal full adder circuit is bound to be increased, thereby affecting the delay of the circuit. Therefore, the present invention adopts such as figure 2 The structure of the full adder shown changes the input path and position of the carry, which greatly reduces the length of the critical path of the circuit, especially in the multi-digit decimal adder. The present invention's quantum cellular automata decimal full adder design has adopted such as image 3 The three basic quantum cellular automaton devices shown are (a): inverter, (b): majority logic gate, (c): exclusive-or logic gate. The schema...

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Abstract

The invention discloses a decimal full adder of quantum cellular automata. On the premise of not changing the logic function of the circuit, the QCA is optimized by combining the XOR logic operator with stronger expressive ability and the advanced carry structure of the full adder. The number of logic nodes and logic depth required by the decimal full adder, so as to optimize the area and delay of one-bit and multi-bit QCA decimal full adder circuits. Compared with the traditional full adder with the best performance, the quantum cellular automaton decimal full adder proposed by the present invention has excellent performance, and the delay and area are significantly improved, especially in the quantum cellular automaton 8-bit decimal full adder The optimization effect is more obvious, and the delay and area are increased by 27.6% and 53.4% ​​respectively. The invention greatly reduces the circuit cost, and at the same time enriches the circuit research method in circuit design. The invention provides a new research idea for arithmetic circuit design based on majority logic and XOR logic, and has strong practical significance for the development of circuit design.

Description

technical field [0001] The invention relates to the technical field of circuit design of quantum cellular automata, in particular to a decimal full adder of quantum cellular automata. Background technique [0002] In integrated circuits, complementary metal oxides (CMOS) are approaching their physical limits, and quantum effects as well as heat dissipation and power consumption issues arise. However, it is difficult to fundamentally solve these problems through existing technologies and processes. Therefore, in order to further increase the integration level of integrated circuits and reduce the feature size of circuits, many emerging nano-circuit devices have emerged as the times require. As a new type of nano-devices, Quantum-dot Cellular Automata (QCA) has the characteristics of high integration, low power consumption and fast operation speed, and is considered to be one of the candidates to replace traditional CMOS devices. QCA uses the Coulomb force between cells to p...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F7/492G06F7/575G06N10/20G06N10/40
CPCG06F7/4925G06F7/575G06N10/00
Inventor 储著飞李泽强夏银水王伦耀
Owner NINGBO UNIV
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